DEPOD - human DEPhOsphorylation Database

Basic Information
Phosphatases
Pathway
Interacting Proteins
Phosphorylating Kinases

Gene Name	MAPK8 (QuickGO)	Interactive visualization of MAPK8 structures (A quick tutorial to explore the interctive visulaization) Representative structure: 3VUL
Synonyms	MAPK8, JNK1, PRKM8, SAPK1, SAPK1C
Protein Name	MAPK8
Alternative Name(s)	Mitogen-activated protein kinase 8;MAP kinase 8;MAPK 8;2.7.11.24;JNK-46;Stress-activated protein kinase 1c;SAPK1c;Stress-activated protein kinase JNK1;c-Jun N-terminal kinase 1;
Protein Family	Belongs to the protein kinase superfamily CMGCSer/Thr protein kinase family MAP kinase subfamily
EntrezGene ID	5599 (Comparitive Toxicogenomics)
UniProt AC (Human)	P45983 (protein sequence)
Enzyme Class	2.7.11.24 (BRENDA )
Molecular Weight	48296 Dalton
Protein Length	427 amino acids (AA)
Genome Browsers	NCBI \| ENSG00000107643 (Ensembl) \| UCSC
Crosslinking annotations	Query our ID-mapping table
Orthologues	Quest For Orthologues (QFO) \| GeneTree \| eggNOG - KOG0665 \| eggNOG - ENOG410XSHI
Phosphorylation Network	Visualize

Domain organization, Expression, Diseases

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Localization, Function, Catalytic activity and Sequence

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Localization (UniProt annotation)
Cytoplasm Nucleus Note=Colocalizes withPOU5F1 in the nucleus
Function (UniProt annotation)
Serine/threonine-protein kinase involved in variousprocesses such as cell proliferation, differentiation, migration,transformation and programmed cell death Extracellular stimulisuch as proinflammatory cytokines or physical stress stimulate thestress-activated protein kinase/c-Jun N-terminal kinase (SAP/JNK)signaling pathway In this cascade, two dual specificity kinasesMAP2K4/MKK4 and MAP2K7/MKK7 phosphorylate and activate MAPK8/JNK1In turn, MAPK8/JNK1 phosphorylates a number of transcriptionfactors, primarily components of AP-1 such as JUN, JDP2 and ATF2and thus regulates AP-1 transcriptional activity Phosphorylatesthe replication licensing factor CDT1, inhibiting the interactionbetween CDT1 and the histone H4 acetylase HBO1 to replicationorigins Loss of this interaction abrogates the acetylationrequired for replication initiation Promotes stressed cellapoptosis by phosphorylating key regulatory factors includingp53/TP53 and Yes-associates protein YAP1 In T-cells, MAPK8 andMAPK9 are required for polarized differentiation of T-helper cellsinto Th1 cells Contributes to the survival of erythroid cells byphosphorylating the antagonist of cell death BAD upon EPOstimulation Mediates starvation-induced BCL2 phosphorylation,BCL2 dissociation from BECN1, and thus activation of autophagyPhosphorylates STMN2 and hence regulates microtubule dynamics,controlling neurite elongation in cortical neurons In thedeveloping brain, through its cytoplasmic activity on STMN2,negatively regulates the rate of exit from multipolar stage and ofradial migration from the ventricular zone Phosphorylates severalother substrates including heat shock factor protein 4 (HSF4), thedeacetylase SIRT1, ELK1, or the E3 ligase ITCH Phosphorylates theCLOCK-ARNTL/BMAL1 heterodimer and plays a role in the regulationof the circadian clock (PubMed:22441692) Phosphorylates the heatshock transcription factor HSF1, suppressing HSF1-inducedtranscriptional activity (PubMed:10747973) Phosphorylates POU5F1,which results in the inhibition of POU5F1's transcriptionalactivity and enhances its proteosomal degradation (By similarity) JNK1 isoforms display different binding patterns: beta-1preferentially binds to c-Jun, whereas alpha-1, alpha-2, and beta-2 have a similar low level of binding to both c-Jun or ATF2However, there is no correlation between binding andphosphorylation, which is achieved at about the same efficiency byall isoforms
Catalytic Activity (UniProt annotation)
ATP + a protein = ADP + a phosphoprotein
Protein Sequence
MSRSKRDNNFYSVEIGDSTFTVLKRYQNLKPIGSGAQGIVCAAYDAILERNVAIKKLSRPFQNQTHAKRAYRELVLMKCV NHKNIIGLLNVFTPQKSLEEFQDVYIVMELMDANLCQVIQMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVK SDCTLKILDFGLARTAGTSFMMTPYVVTRYYRAPEVILGMGYKENVDLWSVGCIMGEMVCHKILFPGRDYIDQWNKVIEQ LGTPCPEFMKKLQPTVRTYVENRPKYAGYSFEKLFPDVLFPADSEHNKLKASQARDLLSKMLVIDASKRISVDEALQHPY INVWYDPSEAEAPPPKIPDKQLDEREHTIEEWKELIYKEVMDLEERTKNGVIRGQPSPLGAAVINGSQHPSSSSSVNDVS SMSTDPTLASDTDSSLEAAAGPLGCCR

Motif information from Eukaryotic Linear Motif atlas (ELM)

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Gene Ontology (P: Process; F: Function and C: Component terms)

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KEGG Pathway
Reactome Pathway

Pathway ID	Pathway Name	Pathway Description (KEGG)
hsa01522	Endocrine resistance	Endocrine therapy is a key treatment strategy to control or eradicate hormone-responsive breast cancer. The most commonly used endocrine therapy agents are selective estrogen receptor modulators (SERMs, e.g. tamoxifen), estrogen synthesis inhibitors (e.g. aromatase inhibitors (AIs) such as anastrozole, letrozole, and exemestane), and selective estrogen receptor down-regulators (SERDs, e.g. fulvestrant). However, resistance to these agents has become a major clinical obstacle. Mechanisms of endocrine resistance include loss of ER-alpha expression, altered expression of coactivators or coregulators that play a critical role in ER-mediated gene transcription, ligand-independent growth factor signaling cascades that activate kinases and ER-phosphorylation, altered availability of active tamoxifen metabolites regulated by drug-metabolizing enzymes, such as CYP2D6, and deregulation of the cell cycle and apoptotic machinery.
hsa04010	MAPK signaling pathway	The mitogen-activated protein kinase (MAPK) cascade is a highly conserved module that is involved in various cellular functions, including cell proliferation, differentiation and migration. Mammals express at least four distinctly regulated groups of MAPKs, extracellular signal-related kinases (ERK)-1/2, Jun amino-terminal kinases (JNK1/2/3), p38 proteins (p38alpha/beta/gamma/delta) and ERK5, that are activated by specific MAPKKs: MEK1/2 for ERK1/2, MKK3/6 for the p38, MKK4/7 (JNKK1/2) for the JNKs, and MEK5 for ERK5. Each MAPKK, however, can be activated by more than one MAPKKK, increasing the complexity and diversity of MAPK signalling. Presumably each MAPKKK confers responsiveness to distinct stimuli. For example, activation of ERK1/2 by growth factors depends on the MAPKKK c-Raf, but other MAPKKKs may activate ERK1/2 in response to pro-inflammatory stimuli.
hsa04012	ErbB signaling pathway	The ErbB family of receptor tyrosine kinases (RTKs) couples binding of extracellular growth factor ligands to intracellular signaling pathways regulating diverse biologic responses, including proliferation, differentiation, cell motility, and survival. Ligand binding to the four closely related members of this RTK family -epidermal growth factor receptor (EGFR, also known as ErbB-1 or HER1), ErbB-2 (HER2), ErbB-3 (HER3), and ErbB-4 (HER4)-induces the formation of receptor homo- and heterodimers and the activation of the intrinsic kinase domain, resulting in phosphorylation on specific tyrosine residues (pY) within the cytoplasmic tail. Signaling effectors containing binding pockets for pY-containing peptides are recruited to activated receptors and induce the various signaling pathways. The Shc- and/or Grb2-activated mitogen-activated protein kinase (MAPK) pathway is a common target downstream of all ErbB receptors. Similarly, the phosphatidylinositol-3-kinase (PI-3K) pathway is directly or indirectly activated by most ErbBs. Several cytoplasmic docking proteins appear to be recruited by specific ErbB receptors and less exploited by others. These include the adaptors Crk, Nck, the phospholipase C gamma (PLCgamma), the intracellular tyrosine kinase Src, or the Cbl E3 ubiquitin protein ligase.
hsa04014	Ras signaling pathway	The Ras proteins are GTPases that function as molecular switches for signaling pathways regulating cell proliferation, survival, growth, migration, differentiation or cytoskeletal dynamism. Ras proteins transduce signals from extracellular growth factors by cycling between inactive GDP-bound and active GTP-bound states. The exchange of GTP for GDP on RAS is regulated by guanine nucleotide exchange factors (GEFs) and GTPase-activating proteins (GAPs). Activated RAS (RAS-GTP) regulates multiple cellular functions through effectors including Raf, phosphatidylinositol 3-kinase (PI3K) and Ral guanine nucleotide-dissociation stimulator (RALGDS).
hsa04024	cAMP signaling pathway	cAMP is one of the most common and universal second messengers, and its formation is promoted by adenylyl cyclase (AC) activation after ligation of G protein-coupled receptors (GPCRs) by ligands including hormones, neurotransmitters, and other signaling molecules. cAMP regulates pivotal physiologic processes including metabolism, secretion, calcium homeostasis, muscle contraction, cell fate, and gene transcription. cAMP acts directly on three main targets: protein kinase A (PKA), the exchange protein activated by cAMP (Epac), and cyclic nucleotide-gated ion channels (CNGCs). PKA modulates, via phosphorylation, a number of cellular substrates, including transcription factors, ion channels, transporters, exchangers, intracellular Ca2+ -handling proteins, and the contractile machinery. Epac proteins function as guanine nucleotide exchange factors (GEFs) for both Rap1 and Rap2. Various effector proteins, including adaptor proteins implicated in modulation of the actin cytoskeleton, regulators of G proteins of the Rho family, and phospholipases, relay signaling downstream from Rap.
hsa04068	FoxO signaling pathway	The forkhead box O (FOXO) family of transcription factors regulates the expression of genes in cellular physiological events including apoptosis, cell-cycle control, glucose metabolism, oxidative stress resistance, and longevity. A central regulatory mechanism of FOXO proteins is phosphorylation by the serine-threonine kinase Akt/protein kinase B (Akt/PKB), downstream of phosphatidylinositol 3-kinase (PI3K), in response to insulin or several growth factors. Phosphorylation at three conserved residues results in the export of FOXO proteins from the nucleus to the cytoplasm, thereby decreasing expression of FOXO target genes. In contrast, the stress-activated c-Jun N-terminal kinase (JNK) and the energy sensing AMP-activated protein kinase (AMPK), upon oxidative and nutrient stress stimuli phosphorylate and activate FoxOs. Aside from PKB, JNK and AMPK, FOXOs are regulated by multiple players through several post-translational modifications, including phosphorylation, but also acetylation, methylation and ubiquitylation.
hsa04071	Sphingolipid signaling pathway	Sphingomyelin (SM) and its metabolic products are now known to have second messenger functions in a variety of cellular signaling pathways. Particularly, the sphingolipid metabolites, ceramide (Cer) and sphingosine-1-phosphate (S1P), have emerged as a new class of potent bioactive molecules. Ceramide can be generated de novo or by hydrolysis of membrane sphingomyelin by sphingomyelinase (SMase). Ceramide is subsequently metabolized by ceramidase to generate sphingosine (Sph) which in turn produces S1P through phosphorylation by sphingosine kinases 1 and 2 (SphK1, 2). Both ceramide and S1P regulate cellular responses to stress, with generally opposing effects. S1P functions as a growth and survival factor, acting as a ligand for a family of G protein-coupled receptors, whereas ceramide activates intrinsic and extrinsic apoptotic pathways through receptor-independent mechanisms.
hsa04137	Mitophagy - animal	Mitochondria act as the energy powerhouse of the cell, and are essential for eukaryotic cells to grow and function normally. However, deleterious byproducts of oxidative phosphorylation process called reactive oxidative species (ROS) lead to mitochondrial dysfunction. If the damage is too excessive to be repaired, such mitochondria are selectively recognized and targeted for degradation by a specific mode of autophagy, termed mitophagy. The loss of the mitochondrial membrane potential can induce mitophagy, involving the kinase PINK1 and the E3 ligase Parkin. PINK1 serves as the sensor for the mitochondrial depolarization and recruits Parkin, followed by ubiquitin-dependent recruitment of mitophagy receptors. There are also several PINK1/Parkin-independent mitophagy pathways, in which a group of LIR-containing receptors are required in response to different stimuli. Mitophagy contributes to the maintenance of a healthy mitochondrial network and the prevention of programmed cell death.
hsa04140	Autophagy - animal	Autophagy (or macroautophagy) is a cellular catabolic pathway involving in protein degradation, organelle turnover, and non-selective breakdown of cytoplasmic components, which is evolutionarily conserved among eukaryotes and exquisitely regulated. This progress initiates with production of the autophagosome, a double-membrane intracellular structure of reticular origin that engulfs cytoplasmic contents and ultimately fuses with lysosomes for cargo degradation. Autophagy is regulated in response to extra- or intracellular stress and signals such as starvation, growth factor deprivation and ER stress. Constitutive level of autophagy plays an important role in cellular homeostasis and maintains quality control of essential cellular components.
hsa04141	Protein processing in endoplasmic reticulum	The endoplasmic reticulum (ER) is a subcellular organelle where proteins are folded with the help of lumenal chaperones. Newly synthesized peptides enter the ER via the sec61 pore and are glycosylated. Correctly folded proteins are packaged into transport vesicles that shuttle them to the Golgi complex. Misfolded proteins are retained within the ER lumen in complex with molecular chaperones. Proteins that are terminally misfolded bind to BiP and are directed toward degradation through the proteasome in a process called ER-associated degradation (ERAD). Accumulation of misfolded proteins in the ER causes ER stress and activates a signaling pathway called the unfolded protein response (UPR). In certain severe situations, however, the protective mechanisms activated by the UPR are not sufficient to restore normal ER function and cells die by apoptosis.
hsa04210	Apoptosis	Apoptosis is a genetically programmed process for the elimination of damaged or redundant cells by activation of caspases (aspartate-specific cysteine proteases). The onset of apoptosis is controlled by numerous interrelating processes. The 'extrinsic' pathway involves stimulation of members of the tumor necrosis factor (TNF) receptor subfamily, such as TNFRI, CD95/Fas or TRAILR (death receptors), located at the cell surface, by their specific ligands, such as TNF-alpha, FasL or TRAIL, respectively. The 'intrinsic' pathway is activated mainly by non-receptor stimuli, such as DNA damage, ER stress, metabolic stress, UV radiation or growth-factor deprivation. The central event in the 'intrinsic' pathway is the mitochondrial outer membrane permeabilization (MOMP), which leads to the release of cytochrome c. These two pathways converge at the level of effector caspases, such as caspase-3 and caspase-7. The third major pathway is initiated by the constituents of cytotoxic granules (e.g. Perforin and Granzyme B) that are released by CTLs (cytotoxic T-cells) and NK (natural killer) cells. Granzyme B, similarly to the caspases, cleaves its substrates after aspartic acid residues, suggesting that this protease has the ability to activate members of the caspase family directly. It is the balance between the pro-apoptotic and anti-apoptotic signals that eventually determines whether cells will undergo apoptosis, survive or proliferate. TNF family of ligands activates anti-apoptotic or cell-survival signals as well as apoptotic signals. NGF and Interleukin-3 promotes the survival, proliferation and differentiation of neurons or hematopoietic cells, respectively. Withdrawal of these growth factors leads to cell death, as described above.
hsa04215	Apoptosis - multiple species	Apoptosis is an evolutionarily conserved process used by multicellular organisms to developmentally regulate cell number or to eliminate cells that are potentially detrimental to the organism. The major players are caspases, caspase inhibitors, members of the Bcl-2 family of pro- and anti-apoptotic proteins and adaptors of the Ced-4/APAF-1 type. Mammals, by comparison with Caenorhabditis and Drosophila, exhibit highly complex extrinsic and intrinsic pathways for apoptosis induction. However, recent analyses of whole genome sequences from cnidarians (e.g. Hydra) suggest that the caspase and Bcl-2 families were already highly complex in cnidarians and that Caenorhabditis and Drosophila lost many of the genes involved in apoptosis.
hsa04217	Necroptosis	Necroptosis is a programmed form of necrosis. It can be initiated by different stimuli, such as tumor necrosis factor (TNF), TNF-related apoptosis-inducing ligand (TRAIL), Fas ligand (FasL), interferon (IFN), LPS, viral DNA or RNA, DNA-damage agent and requires the kinase activity of receptor-interacting protein 1 (RIPK1) and RIPK3. Its execution involves ROS generation, calcium overload, the opening of the mitochondrial permeability transition pore, mitochondrial fission, inflammatory response and chromatinolysis. Necroptosis participates in many pathogenesis of diseases, including neurological diseases, retinal disorders, acute kidney injury, inflammatory diseases and microbial infections.
hsa04310	Wnt signaling pathway	Wnt proteins are secreted morphogens that are required for basic developmental processes, such as cell-fate specification, progenitor-cell proliferation and the control of asymmetric cell division, in many different species and organs. There are at least three different Wnt pathways: the canonical pathway, the planar cell polarity (PCP) pathway and the Wnt/Ca2+ pathway. In the canonical Wnt pathway, the major effect of Wnt ligand binding to its receptor is the stabilization of cytoplasmic beta-catenin through inhibition of the bea-catenin degradation complex. Beta-catenin is then free to enter the nucleus and activate Wnt-regulated genes through its interaction with TCF (T-cell factor) family transcription factors and concomitant recruitment of coactivators. Planar cell polarity (PCP) signaling leads to the activation of the small GTPases RHOA (RAS homologue gene-family member A) and RAC1, which activate the stress kinase JNK (Jun N-terminal kinase) and ROCK (RHO-associated coiled-coil-containing protein kinase 1) and leads to remodelling of the cytoskeleton and changes in cell adhesion and motility. WNT-Ca2+ signalling is mediated through G proteins and phospholipases and leads to transient increases in cytoplasmic free calcium that subsequently activate the kinase PKC (protein kinase C) and CAMKII (calcium calmodulin mediated kinase II) and the phosphatase calcineurin.
hsa04380	Osteoclast differentiation	The osteoclasts, multinucleared cells originating from the hematopoietic monocyte-macrophage lineage, are responsible for bone resorption. Osteoclastogenesis is mainly regulated by signaling pathways activated by RANK and immune receptors, whose ligands are expressed on the surface of osteoblasts. Signaling from RANK changes gene expression patterns through transcription factors like NFATc1 and characterizes the active osteoclast.
hsa04510	Focal adhesion	Cell-matrix adhesions play essential roles in important biological processes including cell motility, cell proliferation, cell differentiation, regulation of gene expression and cell survival. At the cell-extracellular matrix contact points, specialized structures are formed and termed focal adhesions, where bundles of actin filaments are anchored to transmembrane receptors of the integrin family through a multi-molecular complex of junctional plaque proteins. Some of the constituents of focal adhesions participate in the structural link between membrane receptors and the actin cytoskeleton, while others are signalling molecules, including different protein kinases and phosphatases, their substrates, and various adapter proteins. Integrin signaling is dependent upon the non-receptor tyrosine kinase activities of the FAK and src proteins as well as the adaptor protein functions of FAK, src and Shc to initiate downstream signaling events. These signalling events culminate in reorganization of the actin cytoskeleton; a prerequisite for changes in cell shape and motility, and gene expression. Similar morphological alterations and modulation of gene expression are initiated by the binding of growth factors to their respective receptors, emphasizing the considerable crosstalk between adhesion- and growth factor-mediated signalling.
hsa04530	Tight junction	Tight junctions (TJs) are essential for establishing a selectively permeable barrier to diffusion through the paracellular space between neighboring cells. TJs are composed of at least three types of transmembrane protein -occludin, claudin and junctional adhesion molecules (JAMs)- and a cytoplasmic 'plaque' consisting of many different proteins that form large complexes. These are proposed to be involved in junction assembly, barrier regulation, cell polarity, gene transcription, and other pathways.
hsa04620	Toll-like receptor signaling pathway	Specific families of pattern recognition receptors are responsible for detecting microbial pathogens and generating innate immune responses. Toll-like receptors (TLRs) are membrane-bound receptors identified as homologs of Toll in Drosophila. Mammalian TLRs are expressed on innate immune cells, such as macrophages and dendritic cells, and respond to the membrane components of Gram-positive or Gram-negative bacteria. Pathogen recognition by TLRs provokes rapid activation of innate immunity by inducing production of proinflammatory cytokines and upregulation of costimulatory molecules. TLR signaling pathways are separated into two groups: a MyD88-dependent pathway that leads to the production of proinflammatory cytokines with quick activation of NF-{kappa}B and MAPK, and a MyD88-independent pathway associated with the induction of IFN-beta and IFN-inducible genes, and maturation of dendritic cells with slow activation of NF-{kappa}B and MAPK.
hsa04621	NOD-like receptor signaling pathway	Specific families of pattern recognition receptors are responsible for detecting various pathogens and generating innate immune responses. The intracellular NOD-like receptor (NLR) family contains more than 20 members in mammals and plays a pivotal role in the recognition of intracellular ligands. NOD1 and NOD2, two prototypic NLRs, sense the cytosolic presence of the bacterial peptidoglycan fragments that escaped from endosomal compartments, driving the activation of NF-{kappa}B and MAPK, cytokine production and apoptosis. On the other hand, a different set of NLRs induces caspase-1 activation through the assembly of multiprotein complexes called inflammasomes. The activated of caspase-1 regulates maturation of the pro-inflammatory cytokines IL-1B, IL-18 and drives pyroptosis.
hsa04622	RIG-I-like receptor signaling pathway	Specific families of pattern recognition receptors are responsible for detecting viral pathogens and generating innate immune responses. Non-self RNA appearing in a cell as a result of intracellular viral replication is recognized by a family of cytosolic RNA helicases termed RIG-I-like receptors (RLRs). The RLR proteins include RIG-I, MDA5, and LGP2 and are expressed in both immune and nonimmune cells. Upon recognition of viral nucleic acids, RLRs recruit specific intracellular adaptor proteins to initiate signaling pathways that lead to the synthesis of type I interferon and other inflammatory cytokines, which are important for eliminating viruses.
hsa04625	C-type lectin receptor signaling pathway	C-type lectin receptors (CLRs) are a large superfamily of proteins characterized by the presence of one or more C-type lectin-like domains (CTLDs). CLRs function as pattern-recognition receptors (PRRs) for pathogen-derived ligands in dendric cells, macrophages, neutrophils, etc., such as Dectin-1 and Dectin-2 for recognition of fungi-derived B-glucan and high mannose-type carbohydrates. Upon ligand binding, CLRs stimulate intracellular signaling cascades that induce the production of inflammatory cytokines and chemokines, consequently triggering innate and adaptive immunity to pathogens.
hsa04657	IL-17 signaling pathway	The interleukin 17 (IL-17) family, a subset of cytokines consisting of IL-17A-F, plays crucial roles in both acute and chronic inflammatory responses. IL-17A, the hallmark cytokine of the newly defined T helper 17 (TH17) cell subset, has important roles in protecting the host against extracellular pathogens, but also promotes inflammatory pathology in autoimmune disease, whereas IL-17F is mainly involved in mucosal host defense mechanisms. IL-17E (IL-25) is an amplifier of Th2 immune responses. IL-17C has biological functions similar to those of IL-17A. The functions of IL-17B and IL-17D remain largely elusive. The IL-17 family signals via their correspondent receptors and activates downstream pathways that include NF-kappaB, MAPKs and C/EBPs to induce the expression of antimicrobial peptides, cytokines and chemokines. The receptor proximal adaptor Act1 (an NF-kappaB activator 1) is considered as the master mediator in IL-17A signaling. It is likely that Act1 is a common signal adaptor also shared by other members mediated signalings in this family.
hsa04658	Th1 and Th2 cell differentiation	Immunity to different classes of microorganisms is orchestrated by separate lineages of effector T helper (TH)-cells, which differentiate from naive CD4+ precursor cells in response to cues provided by antigen presenting cells (APC) and include T helper type 1 (Th1) and Th2. Th1 cells are characterized by the transcription factor T-bet and signal transducer and activator of transcription (STAT) 4, and the production of IFN-gamma. These cells stimulate strong cell-mediated immune responses, particularly against intracellular pathogens. On the other hand, transcription factors like GATA-3 and STAT6 drive the generation of Th2 cells that produce IL-4, IL-5 and IL-13 and are necessary for inducing the humoral response to combat parasitic helminths (type 2 immunity) and isotype switching to IgG1 and IgE. The balance between Th1/Th2 subsets determines the susceptibility to disease states, where the improper development of Th2 cells can lead to allergy, while an overactive Th1 response can lead to autoimmunity.
hsa04659	Th17 cell differentiation	Interleukin (IL)-17-producing helper T (Th17) cells serve as a subset of CD4+ T cells involved in epithelial cell- and neutrophil mediated immune responses against extracellular microbes and in the pathogenesis of autoimmune diseases. In vivo, Th17 differentiation requires antigen presentation and co-stimulation, and activation of antigen presenting-cells (APCs) to produce TGF-beta, IL-6, IL-1, IL-23 and IL-21. This initial activation results in the activation and up-regulation of STAT3, ROR(gamma)t and other transcriptional factors in CD4+ T cells, which bind to the promoter regions of the IL-17, IL-21 and IL-22 genes and induce IL-17, IL-21 and IL-22. In contrast, the differentiation of Th17 cells and their IL-17 expression are negatively regulated by IL-2, Th2 cytokine IL-4, IL-27 and Th1 cytokine IFN-gamma through STAT5, STAT6 and STAT1 activation, respectively. Retinoid acid and the combination of IL-2 and TGF-beta upregulate Foxp3, which also downregulates cytokines like IL-17 and IL-21. The inhibition of Th17 differentiation may serve as a protective strategy to 'fine-tune' the expression IL-17 so it does not cause excessive inflammation. Thus, balanced differentiation of Th cells is crucial for immunity and host protection.
hsa04664	Fc epsilon RI signaling pathway	Fc epsilon RI-mediated signaling pathways in mast cells are initiated by the interaction of antigen (Ag) with IgE bound to the extracellular domain of the alpha chain of Fc epsilon RI. The activation pathways are regulated both positively and negatively by the interactions of numerous signaling molecules. Mast cells that are thus activated release preformed granules which contain biogenic amines (especially histamines) and proteoglycans (especially heparin). The activation of phospholipase A2 causes the release of membrane lipids followed by development of lipid mediators such as leukotrienes (LTC4, LTD4 and LTE4) and prostaglandins (especially PDG2). There is also secretion of cytokines, the most important of which are TNF-alpha, IL-4 and IL-5. These mediators and cytokines contribute to inflammatory responses.
hsa04668	TNF signaling pathway	Tumor necrosis factor (TNF), as a critical cytokine, can induce a wide range of intracellular signal pathways including apoptosis and cell survival as well as inflammation and immunity. Activated TNF is assembled to a homotrimer and binds to its receptors (TNFR1, TNFR2) resulting in the trimerization of TNFR1 or TNFR2. TNFR1 is expressed by nearly all cells and is the major receptor for TNF (also called TNF-alpha). In contrast, TNFR2 is expressed in limited cells such as CD4 and CD8 T lymphocytes, endothelial cells, microglia, oligodendrocytes, neuron subtypes, cardiac myocytes, thymocytes and human mesenchymal stem cells. It is the receptor for both TNF and LTA (also called TNF-beta). Upon binding of the ligand, TNFR mediates the association of some adaptor proteins such as TRADD or TRAF2, which in turn initiate recruitment of signal transducers. TNFR1 signaling induces activation of many genes, primarily controlled by two distinct pathways, NF-kappa B pathway and the MAPK cascade, or apoptosis and necroptosis. TNFR2 signaling activates NF-kappa B pathway including PI3K-dependent NF-kappa B pathway and JNK pathway leading to survival.
hsa04722	Neurotrophin signaling pathway	Neurotrophins are a family of trophic factors involved in differentiation and survival of neural cells. The neurotrophin family consists of nerve growth factor (NGF), brain derived neurotrophic factor (BDNF), neurotrophin 3 (NT-3), and neurotrophin 4 (NT-4). Neurotrophins exert their functions through engagement of Trk tyrosine kinase receptors or p75 neurotrophin receptor (p75NTR). Neurotrophin/Trk signaling is regulated by connecting a variety of intracellular signaling cascades, which include MAPK pathway, PI-3 kinase pathway, and PLC pathway, transmitting positive signals like enhanced survival and growth. On the other hand, p75NTR transmits both positive and nagative signals. These signals play an important role for neural development and additional higher-order activities such as learning and memory.
hsa04723	Retrograde endocannabinoid signaling	Endogenous cannabinoids (endocannabinoids) serve as retrograde messengers at synapses in various regions of the brain. The family of endocannabinoids includes at least five derivatives of arachidonic acid; the two best characterized are arachydonoyl ethanolamide (anandamide, AEA) and 2-arachydonoil glycerol (2AG). They are released from postsynaptic neurons upon postsynaptic depolarization and/or receptor activation. The released endocannabinoids then activate the CB1 receptors (CB1R) at presynaptic terminals and suppress the release of inhibitory transmitter GABA (depolarization-induced suppression of inhibition, DSI) or excitatory transmitter glutamate (depolarization-induced suppression of excitation, DSE) by inhibiting Ca2+ channels. Besides the well-known expression of the CB1R in the plasma membrane, this receptor is also present in mitochondrial membranes, where it reduces the mitochondrial respiration and contributes to DSI. Whereas DSI and DSE result in short-term synaptic plasticity, endocannabinoids also mediate long-term synaptic changes (eCB-LTD). Persistent activation of CB1 receptors over a period of minutes triggers eCB-LTD by a RIM1alpha-dependent mechanism.
hsa04728	Dopaminergic synapse	Dopamine (DA) is an important and prototypical slow neurotransmitter in the mammalian brain, where it controls a variety of functions including locomotor activity, motivation and reward, learning and memory, and endocrine regulation. Once released from presynaptic axonal terminals, DA interacts with at least five receptor subtypes in the central nervous system (CNS), which have been divided into two groups: the D1-like receptors (D1Rs), comprising D1 and D5 receptors, both positively coupled to adenylyl cyclase and cAMP production, and the D2-like receptors (D2Rs), comprising D2, D3, and D4 receptors, whose activation results in inhibition of adenylyl cyclase and suppression of cAMP production. In addition, D1Rs and D2Rs modulate intracellular Ca2+ levels and a number of Ca2+ -dependent intracellular signaling processes. Through diverse cAMP- and Ca2+-dependent and - independent mechanisms, DA influences neuronal activity, synaptic plasticity, and behavior. Presynaptically localized D2Rs regulate synthesis and release of DA as the main autoreceptor of the dopaminergic system.
hsa04750	Inflammatory mediator regulation of TRP channels	The TRP channels that exhibit a unique response to temperature have been given the name thermo-TRPs. Among all thermo- TRP channels, TRPV1-4, TRPM8, and TRPA1 are expressed in subsets of nociceptive dorsal root ganglion (DRG) neuron cell bodies including their peripheral and central projections. These channels can be modulated indirectly by inflammatory mediators such as PGE2, bradykinin, ATP, NGF, and proinflammatory cytokines that are generated during tissue injury. While the noxious heat receptor TRPV1 is sensitized (that is, their excitability can be increased) by post-translational modifications upon activation of G-protein coupled receptors (GPCRs) or tyrosine kinase receptors, the receptors for inflammatory mediators, the same action appears to mainly desensitize TRPM8, the main somatic innocuous cold sensor. This aforementioned sensitization could allow the receptor to become active at body temperature, so it not only contributes toward thermal hypersensitivity but also is possibly a substrate for ongoing persistent pain.
hsa04910	Insulin signaling pathway	Insulin binding to its receptor results in the tyrosine phosphorylation of insulin receptor substrates (IRS) by the insulin receptor tyrosine kinase (INSR). This allows association of IRSs with the regulatory subunit of phosphoinositide 3-kinase (PI3K). PI3K activates 3-phosphoinositide-dependent protein kinase 1 (PDK1), which activates Akt, a serine kinase. Akt in turn deactivates glycogen synthase kinase 3 (GSK-3), leading to activation of glycogen synthase (GYS) and thus glycogen synthesis. Activation of Akt also results in the translocation of GLUT4 vesicles from their intracellular pool to the plasma membrane, where they allow uptake of glucose into the cell. Akt also leads to mTOR-mediated activation of protein synthesis by eIF4 and p70S6K. The translocation of GLUT4 protein is also elicited through the CAP/Cbl/TC10 pathway, once Cbl is phosphorylated by INSR.Other signal transduction proteins interact with IRS including GRB2. GRB2 is part of the cascade including SOS, RAS, RAF and MEK that leads to activation of mitogen-activated protein kinase (MAPK) and mitogenic responses in the form of gene transcription. SHC is another substrate of INSR. When tyrosine phosphorylated, SHC associates with GRB2 and can thus activate the RAS/MAPK pathway independently of IRS-1.
hsa04912	GnRH signaling pathway	Gonadotropin-releasing hormone (GnRH) secretion from the hypothalamus acts upon its receptor in the anterior pituitary to regulate the production and release of the gonadotropins, LH and FSH. The GnRHR is coupled to Gq/11 proteins to activate phospholipase C which transmits its signal to diacylglycerol (DAG) and inositol 1,4,5-trisphosphate (IP3). DAG activates the intracellular protein kinase C (PKC) pathway and IP3 stimulates release of intracellular calcium. In addition to the classical Gq/11, coupling of Gs is occasionally observed in a cell-specific fashion. Signaling downstream of protein kinase C (PKC) leads to transactivation of the epidermal growth factor (EGF) receptor and activation of mitogen-activated protein kinases (MAPKs), including extracellular-signal-regulated kinase (ERK), Jun N-terminal kinase (JNK) and p38 MAPK. Active MAPKs translocate to the nucleus, resulting in activation of transcription factors and rapid induction of early genes.
hsa04914	Progesterone-mediated oocyte maturation	Xenopus oocytes are naturally arrested at G2 of meiosis I. Exposure to either insulin/IGF-1 or the steroid hormone progesterone breaks this arrest and induces resumption of the two meiotic division cycles and maturation of the oocyte into a mature, fertilizable egg. This process is termed oocyte maturation. The transition is accompanied by an increase in maturation promoting factor (MPF or Cdc2/cyclin B) which precedes germinal vesicle breakdown (GVBD). Most reports point towards the Mos-MEK1-ERK2 pathway [where ERK is an extracellular signal-related protein kinase, MEK is a MAPK/ERK kinase and Mos is a p42(MAPK) activator] and the polo-like kinase/CDC25 pathway as responsible for the activation of MPF in meiosis, most likely triggered by a decrease in cAMP.
hsa04917	Prolactin signaling pathway	Prolactin (PRL) is a polypeptide hormone known to be involved in a wide range of biological functions including osmoregulation, lactation, reproduction, growth and development, endocrinology and metabolism, brain and behavior, and immunomodulation. PRL mediates its action through PRLR, a transmembrane protein of the hematopoietin cytokine receptor superfamily. At the protein level, the long PRLR isoform (long-R) and several short PRLR isoforms (short-R) have been detected. Acting through the long-R, PRL activates many signaling cascades including Jak2/Stat, the major cascade, Src kinase, phosphatidylinositol-3-kinase (PI3K)/AKT, and mitogen-activated protein kinase (MAPK) pathways. PRL cannot activate Jak2/Stat5 through the short-R, but can activate pathways including MAPK and PI3K pathways.
hsa04920	Adipocytokine signaling pathway	Increased adipocyte volume and number are positively correlated with leptin production, and negatively correlated with production of adiponectin.Leptin is an important regulator of energy intake and metabolic rate primarily by acting at hypothalamic nuclei. Leptin exerts its anorectic effects by modulating the levels of neuropeptides such as NPY, AGRP, and alpha-MSH. This leptin action is through the JAK kinase, STAT3 phosphorylation, and nuclear transcriptional effect.Adiponectin lowers plasma glucose and FFAs. These effects are partly accounted for by adiponectin-induced AMPK activation, which in turn stimulates skeletal muscle fatty acid oxidation and glucose uptake. Furthermore, activation of AMPK by adiponectin suppresses endogenous glucose production, concomitantly with inhibition of PEPCK and G6Pase expression.The proinflammatory cytokine TNFalpha has been implicated as a link between obesity and insulin resistance. TNFalpha interferes with early steps of insulin signaling. Several data have shown that TNFalpha inhibits IRS1 tyrosine phosphorylation by promoting its serine phosphorylation. Among the serine/threonine kinases activated by TNFalpha, JNK, mTOR and IKK have been shown to be involved in this phosphorylation.
hsa04926	Relaxin signaling pathway	Human relaxin-2 (relaxin), originally identified as a peptidic hormone of pregnancy, is now known to exert a range of pleiotropic effects including vasodilatory, anti-fibrotic and angiogenic effects in both males and females. It belongs to the so-called relaxin peptide family which includes the insulin-like peptides INSL3 and INSL5, and relaxin-3 (H3) as well as relaxin. INSL3 has clearly defined specialist roles in male and female reproduction, relaxin-3 is primarily a neuropeptide involved in stress and metabolic control, and INSL5 is widely distributed particularly in the gastrointestinal tract. These members of relaxin peptide family exert such effects binding to different kinds of receptors, classified as relaxin family peptide (RXFP) receptors: RXFP1, RXFP2, RXFP3, and RXFP4. These G protein-coupled receptors predominantly bind relaxin, INSL3, relaxin-3, and INSL-5, respectively. RXFP1 activates a wide spectrum of signaling pathways to generate second messengers that include cAMP and nitric oxide, whereas RXFP2 activates a subset of these pathways. Both RXFP3 and RXFP4 inhibit cAMP production, and RXFP3 activate MAP kinases.
hsa04930	Type II diabetes mellitus	Insulin resistance is strongly associated with type II diabetes. Diabetogenicfactors including FFA, TNFalpha and cellular stress induce insulin resistance through inhibition of IRS1 functions. Serine/threonine phosphorylation, interaction with SOCS, regulation of the expression, modification of the cellular localization, and degradation represent the molecular mechanisms stimulated by them. Various kinases (ERK, JNK, IKKbeta, PKCzeta, PKCtheta and mTOR) are involved in this process.The development of type II diabetes requires impaired beta-cell function. Chronic hyperglycemia has been shown to induce multiple defects in beta-cells. Hyperglycemia has been proposed to lead to large amounts of reactive oxygen species (ROS) in beta-cells, with subsequent damage to cellular components including PDX-1. Loss of PDX-1, a critical regulator of insulin promoter activity, has also been proposed as an important mechanism leading to beta-cell dysfunction.Although there is little doubt as to the importance of genetic factors in type II diabetes, genetic analysis is difficult due to complex interaction among multiple susceptibility genes and between genetic and environmental factors. Genetic studies have therefore given very diverse results. Kir6.2 and IRS are two of the candidate genes. It is known that Kir6.2 and IRS play central roles in insulin secretion and insulin signal transmission, respectively.
hsa04931	Insulin resistance	Insulin resistance is a condition where cells become resistant to the effects of insulin. It is often found in people with health disorders, including obesity, type 2 diabetes mellitus, non-alcoholic fatty liver disease, and cardiovascular diseases. In this diagram multiple mechanisms underlying insulin resistance are shown: (a) increased phosphorylation of IRS (insulin receptor substrate) protein through serine/threonine kinases, such as JNK1 and IKKB, and protein kinase C, (b) increased IRS-1 proteasome degradation via mTOR signaling pathway, (c) decreased activation of signaling molecules including PI3K and AKT, (d) increase in activity of phosphatases including PTPs, PTEN, and PP2A. Regulatory actions such as oxidative stress, mitochondrial dysfunction, accumulation of intracellular lipid derivatives (diacylglycrol and ceramides), and inflammation (via IL-6 and TNFA) contribute to these mechanisms. Consequently, insulin resistance causes reduced GLUT4 translocation, resulting in glucose takeup and glycogen synthesis in skeletal muscle as well as increased hepatic gluconeogenesis and decreased glycogen synthesis in liver. At the bottom of the diagram, interplay between O-GlcNAcylation and serine/threonine phosphorylation is shown. Studies suggested that elevated O-GlcNAc level was correlated to high glucose-induced insulin resistance. Donor UDP-GlcNAc is induced through hexosamine biosynthesis pathway and added to proteins by O-GlcNAc transferase. Elevation of O-GlcNAc modification alters phosphorylation and function of key insulin signaling proteins including IRS-1, PI3K, PDK1, Akt and other transcription factor and cofactors, resulting in the attenuation of insulin signaling cascade.
hsa04932	Non-alcoholic fatty liver disease (NAFLD)	Non-alcoholic fatty liver disease (NAFLD) represents a spectrum ranging from simple steatosis to more severe steatohepatitis with hepatic inflammation and fibrosis, known as nonalcoholic steatohepatitis (NASH). NASH may further lead to cirrhosis and hepatocellular carcinoma (HCC). This map shows a stage-dependent progression of NAFLD. In the first stage of NAFLD, excess lipid accumulation has been demonstrated. The main cause is the induction of insulin resistance, which leads to a defect in insulin suppression of free fatty acids (FAAs) disposal. In addition, two transcription factors, SREBP-1c and PPAR-alpha, activate key enzymes of lipogenesis and increase the synthesis of FAAs in liver. In the second stage, as a consequence of the progression to NASH, the production of reactive oxygen species (ROS) is enhanced due to oxidation stress through mitochondrial beta-oxidation of fatty acids and endoplamic reticulum (ER) stress, leading to lipid peroxidation. The lipid peroxidation can further cause the production of cytokines (Fas ligand, TNF-alpha, IL-8 and TGF), promoting cell death, inflammation and fibrosis. The activation of JNK, which is induced by ER stress, TNF-alpha and FAAs, is also associated with NAFLD progression. Increased JNK promotes cytokine production and initiation of HCC.
hsa04933	AGE-RAGE signaling pathway in diabetic complications	Advanced glycation end products (AGEs) are a complex group of compounds produced through the non-enzymatic glycation and oxidation of proteins, lipids and nucleic acids, primarily due to aging and under certain pathologic condition such as huperglycemia. Some of the best chemically characterized AGEs include N-epsilon-carboxy-methyl-lysine (CML), N-epsilon-carboxy-ethyl-lysine (CEL), and Imidazolone. The major receptor for AGEs, known as receptor for advanced glycation end products (RAGE or AGER), belongs to the immunoglobulin superfamily and has been described as a pattern recognition receptor. AGE/RAGE signaling elicits activation of multiple intracellular signal pathways involving NADPH oxidase, protein kinase C, and MAPKs, then resulting in NF-kappaB activity. NF-kappa B promotes the expression of pro-inflammatory cytokines such as IL-1, IL-6 and TNF-alpha and a variety of atherosclerosis-related genes, including VCAM-1, tissue factor, VEGF, and RAGE. In addition, JAK-STAT-mediated and PI3K-Akt-dependent pathways are induced via RAGE, which in turn participate in cell proliferation and apoptosis respectively. Hypoxia-mediated induction of Egr-1 was also shown to require the AGE-RAGE interaction. The results of these signal transductions have been reported to be the possible mechanism that initates diabetic complications.
hsa05120	Epithelial cell signaling in Helicobacter pylori infection	Two major virulence factors of H. pylori are the vacuolating cytotoxin (VacA) and the cag type-IV secretion system (T4SS) and its translocated effector protein, cytotoxin-associated antigen A (CagA).VacA binds to lipid rafts and glycosylphosphatidylinositol-anchored proteins (GPI-APs) of the target cell membrane. After insertion into the plasma membrane, VacA channels are endocytosed and eventually reach late endosomal compartments, increasing their permeability to anions with enhancement of the electrogenic vacuolar ATPase (v-ATPase) proton pump. In the presence of weak bases, osmotically active acidotropic ions will accumulate in the endosomes. This leads to water influx and vesicle swelling, an essential step in vacuole formation. In addition, it is reported that the VacA cleavage product binds to the tyrosine phosphatase receptor zeta (Ptprz) on epithelial cells and the induced signaling leads to the phosphorylation of the G protein-coupled receptor kinase-interactor 1 (Git1) and induces ulcerogenesis in mice.The other virulence factor cag T4SS mediates the translocation of the effector protein CagA, which is subsequently phosphorylated by a Src kinase. Phosphorylated CagA interacts with the protein tyrosine phosphatase SHP-2, thus stimulating its phosphatase activity. Activated SHP-2 is able to induce MAPK signalling through Ras/Raf-dependent and -independent mechanisms. Deregulation of this pathway by CagA may lead to abnormal proliferation and movement of gastric epithelial cells.
hsa05131	Shigellosis	Shigellosis, or bacillary dysentery, is an intestinal infection caused by Shigella, a genus of enterobacteria. Shigella are potential food-borne pathogens that are capable of colonizing the intestinal epithelium by exploiting epithelial-cell functions and circumventing the host innate immune response. During basolateral entry into the host-cell cytoplasm, Shigella deliver a subset of effectors into the host cells through the type III secretion system. The effectors induce membrane ruffling through the stimulation of the Rac1-WAVE-Arp2/3 pathway, enabling bacterial entry into the epithelial cells. During multiplication within the cells, Shigella secrete another subset of effectors. VirG induces actin polymerization at one pole of the bacteria, allowing the bacteria to spread intracellularly and to infect adjacent cells. OspF, OspG and IpaH(9.8) downregulate the production of proinflammatory cytokines such as IL-8, helping bacteria circumvent the innate immune response.
hsa05132	Salmonella infection	Salmonella infection usually presents as a self-limiting gastroenteritis or the more severe typhoid fever and bacteremia. The common disease-causing Salmonella species in human is a single species, Salmonella enterica, which has numerous serovars.Following intestinal colonization Salmonella inject effector proteins into the host cells using a type III secretion system (T3SS), T3SS1. Then a small group of effector proteins induce rearrangement of the actin cytoskeleton resulting in membrane ruffles and rapid internalization of the bacteria.The T3SS2 is responsible for translocating effector proteins that direct Salmonella-containing vacuole (SCV) maturation. The majority of the bacteria are known to survive and replicate in SCV.
hsa05133	Pertussis	Pertussis, also known as whooping cough, is an acute respiratory infectious disease caused by a bacteria called Bordetella Pertussis. The characteristic symptoms are paroxysmal cough, inspiratory wheezing and post-tussive vomiting.Following the inhalation of respiratory secretions from an infected individual, bacteria enter the upper respiratory tract and adhere to epithelial cells. Several adhesion factors have been implicated: the filamentous hemagglutinin (FHA), fimbriae, and pertactin (Prn).Pertussis toxin (Ptx) and adenylate cyclase toxin (ACT) have been identified so far as major protein toxins of B. pertussis. PTX is a hexameric AB5-type exotoxin. Catalytic A subunit catalyzes the ADP-ribosylation of the Gi subunits of the heterotrimeric G protein, then inhibits multiple downstream pathways. ACT is able to penetrate the cytoplasmic membrane of host cells and becomes activated through the cleavage and the binding of calmodulin (CaM). Activated ACT converts ATP to cyclic AMP and subverts cellular signaling pathways.
hsa05142	Chagas disease (American trypanosomiasis)	Trypanosoma cruzi is an intracellular protozoan parasite that causes Chagas disease. The parasite life cycle involves hematophagous reduviid bugs as vectors. Once parasites enter the host body, they invade diverse host cells including cardiomyocytes. Establishment of infection depends on various parasite molecules such as cruzipain, oligopeptidase B, and trans-sialidase that activate Ca2+ signaling. Internalized parasites escape from the parasitophorous vacuole using secreted pore-forming TcTOX molecule and replicate in the cytosol. Multiplied parasites eventually lyse infected host cells and are released in the circulation. During these events, the parasites manipulate host innate immunity and elicit cardiomyocyte hypertrophy. T lymphocyte responses are also disturbed.
hsa05145	Toxoplasmosis	Toxoplasma gondii is an obligate intracellular parasite that is prevalent worldwide. The tachyzoite form acquired by oral ingestion downmodulates proinflammatory signaling pathways via various mechanisms. During early infection, nuclear translocation of NFkB is temporally blocked and p38 MAPK phosphorylation is prevented, suppressing IL-12 production. Another pathway for IL-12 induction occurs through CCR5 dependent pathway, but parasitic induction of an eicosanoid LXA4 contributes to the downregulation of IL-12. Direct activation of STAT3 by the parasite enhance anti-inflammatory function of IL-10 and TGF beta. T. gondii can cause lifelong chronic infection by establishing an anti-apoptotic environment through induction of bcl-2 or IAPs and by redirecting LDL-mediated cholesterol transport to scavenge nutrients from the host.
hsa05152	Tuberculosis	Tuberculosis, or TB, is an infectious disease caused by Mycobacterium tuberculosis. One third of the world's population is thought to be infected with TB. About 90% of those infected result in latent infections, and about 10% of latent infections develop active diseases when their immune system is impaired due to the age, other diseases such as AIDS or exposure to immunosuppressive drugs. TB is transmitted through the air and primarily attacks the lungs, then it can spread by the circulatory system to other parts of body. Once TB bacilli have entered the host by the respiratory route and infected macrophages in the lungs, they interfere with phagosomal maturation, antigen presentation, apoptosis and host immune system to establish persistent or latent infection.
hsa05160	Hepatitis C	Hepatitis C virus (HCV) is a major cause of chronic liver disease. The HCV employ several strategies to perturb host cell immunity. After invasion, HCV RNA genome functions directly as an mRNA in the cytoplasm of the host cell and forms membrane-associated replication complexes along with non-structural proteins. Viral RNA can trigger the RIG-I pathway and interferon production during this process. Translated HCV protein products regulate immune response to inhibit the action of interferon. HCV core and NS5A proteins appear to be the most important molecules with regulatory functions that modulate transcription, cellular proliferation, and apoptosis.
hsa05161	Hepatitis B	Hepatitis B virus (HBV) is an enveloped virus and contains a partially double-stranded relaxed circular DNA (RC-DNA) genome. After entry into hepatocytes, HBV RC-DNA is transported to the nucleus and converted into a covalently closed circular molecule cccDNA. The cccDNA is the template for transcription of all viral RNAs including the pregenomic RNA (pgRNA), encoding for 7 viral proteins: large, middle, and small envelope proteins (LHBs, MHBs, and SHBs) that form the surface antigen (HBsAg), the core antigen (HBcAg), the e antigen (HBeAg), the HBV polymerase, and the regulatory protein X (HBx). The pgRNA interacts with the viral polymerase protein to initiate the encapsidation into the core particles. Through endoplasmic reticulum, the core particles finish assembling with the envelope proteins and are released. HBV infection leads to a wide spectrum of liver diseases raging from chronic hepatitis, cirrhosis to hepatocellular carcinoma. The mechanism of liver injury is still not clear. However, HBV proteins target host proteins, involved in a variety of functions, thus regulating transcription, cellular signaling cascades, proliferation, differentiation, and apoptosis.
hsa05164	Influenza A	Influenza is a contagious respiratory disease caused by influenza virus infection. Influenza A virus is responsible for both annual seasonal epidemics and periodic worldwide pandemics. Novel strains that cause pandemics arise from avian influenza virus by genetic reassortment among influenza viruses and two surface glycoproteins HA and NA form the basis of serologically distinct virus types. The innate immune system recognizes invaded virus through multiple mechanisms. Viral non-structural NS1 protein is a multifunctional virulence factor that interfere IFN-mediated antiviral response. It inhibits IFN production by blocking activation of transcription factors such as NF-kappa B, IRF3 and AP1. NS1 further inhibits the activation of IFN-induced antiviral genes. PB1-F2 protein is another virulence factor that induce apoptosis of infected cells, which results in life-threatening bronchiolitis.
hsa05166	Human T-cell leukemia virus 1 infection	Human T-cell leukemia virus type 1 (HTLV-1) is a pathogenic retrovirus that is associated with adult T-cell leukemia/lymphoma (ATL). It is also strongly implicated in non-neoplastic chronic inflammatory diseases such as HTLV-1-associated myelopathy/tropical spastic paraparesis (HAM/TSP). Expression of Tax, a viral regulatory protein is critical to the pathogenesis. Tax is a transcriptional co-factor that interfere several signaling pathways related to anti-apoptosis or cell proliferation. The modulation of the signaling by Tax involve its binding to transcription factors like CREB/ATF, NF-kappa B, SRF, and NFAT.
hsa05167	Kaposi sarcoma-associated herpesvirus infection	Kaposi sarcoma-associated herpesvirus (KSHV), also known as human herpesvirus 8 (HHV-8), is the most recently identified human tumor virus, and is associated with the pathogenesis of Kaposi's sarcoma (KS), primary effusion lymphoma (PEL), and Multicentric Castleman's disease (MCD). Like all other herpesviruses, KSHV displays two modes of life cycle, latency and lytic replication, which are characterized by the patterns of viral gene expression. Genes expressed in latency (LANA, v-cyclin, v-FLIP, Kaposins A, B and C and viral miRNAs) are mainly thought to facilitate the establishment of life long latency in its host and survival against the host innate, and adaptive immune surveillance mechanisms. Among the viral proteins shown to be expressed during lytic replication are potent signaling molecules such as vGPCR, vIL6, vIRFs, vCCLs, K1 and K15, which have been implicated experimentally in the angiogenic and inflammatory phenotype observed in KS lesions. Several of these latent viral and lytic proteins are known to transform host cells, linking KSHV with the development of severe human malignancies.
hsa05168	Herpes simplex infection	Herpes simplex virus (HSV) infections are very common worldwide, with the prevalence of HSV-1 reaching up to 80%-90%. Primary infection with HSV takes place in the mucosa, followed by the establishment of latent infection in neuronal ganglia. HSV is the main cause of herpes infections that lead to the formation of characteristic blistering lesion. HSV express multiple viral accessory proteins that interfere with host immune responses and are indispensable for viral replication. Among these proteins, the immediate early (IE) gene ICP0, ICP4, and ICP27 are essential for regulation of HSV gene expression in productive infection. On the other hand, ORF P and ORF O gene are transcribed during latency and blocks the expression of the IE genes, thus maintaining latent infection.
hsa05169	Epstein-Barr virus infection	Epstein-Barr virus (EBV) is a gamma-herpes virus that widely infects human populations predominantly at an early age but remains mostly asymptomatic. EBV has been linked to a wide spectrum of human malignancies, including nasopharyngeal carcinoma and other hematologic cancers, like Hodgkin's lymphoma, Burkitt's lymphoma (BL), B-cell immunoblastic lymphoma in HIV patients, and posttransplant-associated lymphoproliferative diseases. EBV has the unique ability to establish life-long latent infection in primary human B lymphocytes. During latent infection, EBV expresses a small subset of genes, including 6 nuclear antigens (EBNA-1, -2, -3A, -3B, -3C, and -LP), 3 latent membrane proteins (LMP-1, -2A, and -2B), 2 small noncoding RNAs (EBER-1 and 2). On the basis of these latent gene expression, three different latency patterns associated with the types of cancers are recognized.
hsa05170	Human immunodeficiency virus 1 infection	Human immunodeficiency virus type 1 (HIV-1) , the causative agent of AIDS (acquired immunodeficiency syndrome), is a lentivirus belonging to the Retroviridae family. The primary cell surface receptor for HIV-1, the CD4 protein, and the co-receptor for HIV-1, either CCR5 or CXCR4, are found on macrophages and T lymphocytes. At the earliest step, sequential binding of virus envelope (Env) glycoprotein gp120 to CD4 and the co-receptor CCR5 or CXCR4 facilitates HIV-1 entry and has the potential to trigger critical signaling that may favor viral replication. At advanced stages of the disease, HIV-1 infection results in dramatic induction of T-cell (CD4+ T and CD8+ T cell) apoptosis both in infected and uninfected bystander T cells, a hallmark of HIV-1 pathogenesis. On the contrary, macrophages are resistant to the cytopathic effect of HIV-1 and produce virus for longer periods of time.
hsa05200	Pathways in cancer
hsa05210	Colorectal cancer	Colorectal cancer (CRC) is the second largest cause of cancer-related deaths in Western countries. CRC arises from the colorectal epithelium as a result of the accumulation of genetic alterations in defined oncogenes and tumour suppressor genes (TSG). Two major mechanisms of genomic instability have been identified in sporadic CRC progression. The first, known as chromosomal instability (CIN), results from a series of genetic changes that involve the activation of oncogenes such as K-ras and inactivation of TSG such as p53, DCC/Smad4, and APC. The second, known as microsatellite instability (MSI), results from inactivation of the DNA mismatch repair genes MLH1 and/or MSH2 by hypermethylation of their promoter, and secondary mutation of genes with coding microsatellites, such as transforming growth factor receptor II (TGF-RII) and BAX. Hereditary syndromes have germline mutations in specific genes (mutation in the tumour suppressor gene APC on chromosome 5q in FAP, mutated DNA mismatch repair genes in HNPCC).
hsa05212	Pancreatic cancer	Infiltrating ductal adenocarcinoma is the most common malignancy of the pancreas. When most investigators use the term 'pancreatic cancer' they are referring to pancreatic ductal adenocarcinoma (PDA). Normal duct epithelium progresses to infiltrating cancer through a series of histologically defined precursors (PanINs). The overexpression of HER-2/neu and activating point mutations in the K-ras gene occur early, inactivation of the p16 gene at an intermediate stage, and the inactivation of p53, SMAD4, and BRCA2 occur relatively late. Activated K-ras engages multiple effector pathways. Although EGF receptors are conventionally regarded as upstream activators of RAS proteins, they can also act as RAS signal transducers via RAS-induced autocrine activation of the EGFR family ligands. Moreover, PDA shows extensive genomic instability and aneuploidy. Telomere attrition and mutations in p53 and BRCA2 are likely to contribute to these phenotypes. Inactivation of the SMAD4 tumour suppressor gene leads to loss of the inhibitory influence of the transforming growth factor-beta signalling pathway.
hsa05231	Choline metabolism in cancer	Abnormal choline metabolism is emerging as a metabolic hallmark that is associated with oncogenesis and tumour progression. Following transformation, oncogenic signalling via pathways such as the RAS and PI3K-AKT pathways, and transcription factors associated with oncogenesis such as hypoxia-inducible factor 1 (HIF1) mediate overexpression and activation of choline cycle enzymes, which causes increased levels of choline-containing precursors and breakdown products of membrane phospholipids. These products of choline phospholipid metabolism, such as phosphocholine (PCho), diacylglycerol (DAG) and phosphatidic acid, may function as second messengers that are essential for the mitogenic activity of growth factors, particularly in the activation of the ras-raf-1-MAPK cascade and protein kinase C pathway.
hsa05418	Fluid shear stress and atherosclerosis	Shear stress represents the frictional force that the flow of blood exerts at the endothelial surface of the vessel wall and plays a central role in vascular biology and contributes to the progress of atherosclerosis. Sustained laminar flow with high shear stress upregulates expressions of endothelial cell (EC) genes and proteins that are protective against atherosclerosis. The key shear stress-induced transcription factors that govern the expression of these genes are Kruppel-like factor 2 (KLF2) and nuclear factor erythroid 2-like 2 (Nrf2). On the other hand, disturbed flow with associated reciprocating, low shear stress generally upregulates the EC genes and proteins that promote oxidative and inflammatory states in the artery wall, resulting in atherogenesis. Important transcriptional events that reflect this condition of ECs in disturbed flow include the activation of activator protein 1 (AP-1) and nuclear factor kappaB (NF-kappaB).

Pathway ID	Pathway Name	Pathway Description (KEGG)
R-HSA-111446	Activation of BIM and translocation to mitochondria.	BIM acts as a sentinel to check the integrity of the cytoskeleton. It exists as two variant proteins: BIM-EL and BIM-L. In healthy cells, these two isoforms are sequestered to the dynein motor complex on microtubules via the dynein light chain DLC1. JNK or MAPK8 releases BIM in response to UV irradiation by phosphorylation
R-HSA-139910	Activation of BMF and translocation to mitochondria.	In healthy cells, BMF is bound to the myosin V motor complex through its interaction with DLC2. UV irradiation or anoikis induces MAPK8 (JNK) to phosphorylate Dynein Light Chain 2 (DLC2) to release BMF
R-HSA-193648	NRAGE signals death through JNK.	Once bound by either NGF or proNGF, p75NTR interacts with NRAGE, thus leading to phosphorylation and activation of JUN Kinase (JNK). JNK controls apoptosis in two ways: it induces transcription of pro-apoptotic genes, and directly activates the cell death machinery. Only NGF-bound p75NTR is shown here
R-HSA-205043	NRIF signals cell death from the nucleus.	NRIF (nuclear receptor-interacting factor) is a DNA binding protein that is essential for p75-mediated apoptosis in retina and sympathetic neurons. Neurotrophin or proneurotrophin binding to p75TR induces nuclear translocation of NRIF, which involves gamma-secretase cleavage of p75NTR ICD (Intra Cellular Domain). Once in the nucleus, NRIF mediates apoptosis, probably by acting as transcription factor
R-HSA-2559580	Oxidative Stress Induced Senescence.	Oxidative stress, caused by increased concentration of reactive oxygen species (ROS) in the cell, can happen as a consequence of mitochondrial dysfunction induced by the oncogenic RAS (Moiseeva et al. 2009) or independent of oncogenic signaling. Prolonged exposure to interferon-beta (IFNB, IFN-beta) also results in ROS increase (Moiseeva et al. 2006). ROS oxidize thioredoxin (TXN), which causes TXN to dissociate from the N-terminus of MAP3K5 (ASK1), enabling MAP3K5 to become catalytically active (Saitoh et al. 1998). ROS also stimulate expression of Ste20 family kinases MINK1 (MINK) and TNIK through an unknown mechanism, and MINK1 and TNIK positively regulate MAP3K5 activation (Nicke et al. 2005). MAP3K5 phosphorylates and activates MAP2K3 (MKK3) and MAP2K6 (MKK6) (Ichijo et al. 1997, Takekawa et al. 2005), which act as p38 MAPK kinases, as well as MAP2K4 (SEK1) (Ichijo et al. 1997, Matsuura et al. 2002), which, together with MAP2K7 (MKK7), acts as a JNK kinase. MKK3 and MKK6 phosphorylate and activate p38 MAPK alpha (MAPK14) and beta (MAPK11) (Raingeaud et al. 1996), enabling p38 MAPKs to phosphorylate and activate MAPKAPK2 (MK2) and MAPKAPK3 (MK3) (Ben-Levy et al. 1995, Clifton et al. 1996, McLaughlin et al. 1996, Sithanandam et al. 1996, Meng et al. 2002, Lukas et al. 2004, White et al. 2007), as well as MAPKAPK5 (PRAK) (New et al. 1998 and 2003, Sun et al. 2007). Phosphorylation of JNKs (MAPK8, MAPK9 and MAPK10) by MAP3K5-activated MAP2K4 (Deacon and Blank 1997, Fleming et al. 2000) allows JNKs to migrate to the nucleus (Mizukami et al. 1997) where they phosphorylate JUN. Phosphorylated JUN binds FOS phosphorylated by ERK1 or ERK2, downstream of activated RAS (Okazaki and Sagata 1995, Murphy et al. 2002), forming the activated protein 1 (AP-1) complex (FOS:JUN heterodimer) (Glover and Harrison 1995, Ainbinder et al. 1997). Activation of p38 MAPKs and JNKs downstream of MAP3K5 (ASK1) ultimately converges on transcriptional regulation of CDKN2A locus. In dividing cells, nucleosomes bound to the CDKN2A locus are trimethylated on lysine residue 28 of histone H3 (HIST1H3A) by the Polycomb repressor complex 2 (PRC2), creating the H3K27Me3 (Me3K-28-HIST1H3A) mark (Bracken et al. 2007, Kotake et al. 2007). The expression of Polycomb constituents of PRC2 (Kuzmichev et al. 2002) - EZH2, EED and SUZ12 - and thereby formation of the PRC2, is positively regulated in growing cells by E2F1, E2F2 and E2F3 (Weinmann et al. 2001, Bracken et al. 2003). H3K27Me3 mark serves as a docking site for the Polycomb repressor complex 1 (PRC1) that contains BMI1 (PCGF4) and is therefore named PRC1.4, leading to the repression of transcription of p16-INK4A and p14-ARF from the CDKN2A locus, where PCR1.4 mediated repression of p14-ARF transcription in humans may be context dependent (Voncken et al. 2005, Dietrich et al. 2007, Agherbi et al. 2009, Gao et al. 2012). MAPKAPK2 and MAPKAPK3, activated downstream of the MAP3K5-p38 MAPK cascade, phosphorylate BMI1 of the PRC1.4 complex, leading to dissociation of PRC1.4 complex from the CDKN2A locus and upregulation of p14-ARF transcription (Voncken et al. 2005). AP-1 transcription factor, formed as a result of MAP3K5-JNK signaling, as well as RAS signaling, binds the promoter of KDM6B (JMJD3) gene and stimulates KDM6B expression. KDM6B is a histone demethylase that removes H3K27Me3 mark i.e. demethylates lysine K28 of HIST1H3A, thereby preventing PRC1.4 binding to the CDKN2A locus and allowing transcription of p16-INK4A (Agger et al. 2009, Barradas et al. 2009, Lin et al. 2012). p16-INK4A inhibits phosphorylation-mediated inactivation of RB family members by CDK4 and CDK6, leading to cell cycle arrest (Serrano et al. 1993). p14-ARF inhibits MDM2-mediated degradation of TP53 (p53) (Zhang et al. 1998), which also contributes to cell cycle arrest in cells undergoing oxidative stress. In addition, phosphorylation of TP53 by MAPKAPK5 (PRAK) activated downstream of MAP3K5-p38 MAPK signaling, activates TP53 and contributes to cellular senescence (Sun et al. 2007)
R-HSA-2871796	FCERI mediated MAPK activation.	Formation of the LAT signaling complex leads to activation of MAPK and production of cytokines. The sequence of events that leads from LAT to cytokine production has not been as clearly defined as the sequence that leads to degranulation. However, the pathways that lead to cytokine production require the guanine-nucleotide-exchange factors SOS and VAV that regulate GDP-GTP exchange of RAS. After its activation, RAS positively regulates the RAF-dependent pathway that leads to phosphorylation and, in part, activation of the mitogen-activated protein kinases (MAPKs) extracellular-signal-regulated kinase 1 (ERK1) and ERK2 (Gilfillan & Tkaczyk 2006)
R-HSA-376172	DSCAM interactions.	DSCAM (Down syndrome cell adhesion molecule) is one of the members of the Ig superfamily CAMs with a domain architecture comprising 10 Ig domains, 6 fibronectin type III (FN) repeats, a single transmembrane and a C terminal cytoplasmic domain. DSCAM is implicated in Down syndrome (DS) due to the chromosomal location of the DSCAM gene, but no evidence supports a direct involvement of DSCAM with DS. It likely functions as a cell surface receptor mediating axon pathfinding. Besides these important implications, little is known about the physiological function or the molecular mechanism of DSCAM signal transduction in mammalian systems. A closely related DSCAM paralogue Down syndrome cell adhesion moleculelike protein 1 (DSCAML1) is present in humans. Both these proteins are involved in homophilic intercellular interactions
R-HSA-450321	JNK (c-Jun kinases) phosphorylation and activation mediated by activated human TAK1.	C-Jun NH2 terminal kinases (JNKs) are an evolutionarily conserved family of serine/threonine protein kinases, that belong to mitogen activated protein kinase family (MAPKs - also known as stress-activated protein kinases, SAPKs). The JNK pathway is activated by heat shock, or inflammatory cytokines, or UV radiation. The JNKs are encoded by at least three genes: JNK1/SAPK-gamma, JNK2/SAPK-alpha and JNK3/ SAPK-beta. The first two are ubiquitously expressed, whereas the JNK3 protein is found mainly in brain and to a lesser extent in heart and testes. As a result of alternative gene splicing all cells express distinct active forms of JNK from 46 to 55 kDa in size. Sequence alignment of these different products shows homologies of >80%. In spite of this similarity, the multiple JNK isoforms differ in their ability to bind and phosphorylate different target proteins, thus leading to the distinctive cellular processes: induction of apoptosis, or enhancment of cell survival, or proliferation. Activation of JNKs is mediated by activated TAK1 which phosphorylates two dual specificity enzymes MKK4 (MAPK kinase 4) and MKK7(MAPK kinase 7)
R-HSA-450341	Activation of the AP-1 family of transcription factors.	Activator protein-1 (AP-1) is a collective term referring to a group of transcription factors that bind to promoters of target genes in a sequence-specific manner. AP-1 family consists of hetero- and homodimers of bZIP (basic region leucine zipper) proteins, mainly of Jun-Jun, Jun-Fos or Jun-ATF. AP-1 members are involved in the regulation of a number of cellular processes including cell growth, proliferation, survival, apoptosis, differentiation, cell migration. The ability of a single transcription factor to determine a cell fate critically depends on the relative abundance of AP-1 subunits, the composition of AP-1 dimers, the quality of stimulus, the cell type, the co-factor assembly. AP-1 activity is regulated on multiple levels; transcriptional, translational and post-translational control mechanisms contribute to the balanced production of AP-1 proteins and their functions. Briefly, regulation occurs through: effects on jun, fos, atf gene transcription and mRNA turnover. AP-1 protein members turnover. post-translational modifications of AP-1 proteins that modulate their transactivation potential (effect of protein kinases or phosphatases). interactions with other transcription factors that can either induce or interfere with AP-1 activity
R-HSA-5693565	Recruitment and ATM-mediated phosphorylation of repair and signaling proteins at DNA double strand breaks.	Activated ATM phosphorylates a number of proteins involved in the DNA damage checkpoint and DNA repair (Thompson and Schild 2002, Ciccia and Elledge 2010), thereby triggering and coordinating accumulation of DNA DSB repair proteins in nuclear foci known as ionizing radiation-induced foci (IRIF). While IRIFs include chromatin regions kilobases away from the actual DSB site, this Reactome pathway represents simplified foci and events that happen proximal to the DNA DSB ends. In general, proteins localizing to the nuclear foci in response to ATM signaling are cooperatively retained at the DNA DSB site, forming a positive feedback loop and amplifying DNA damage response (Soutoglou and Misteli 2008). Activated ATM phosphorylates the NBN (NBS1) subunit of the MRN complex (MRE11A:RAD50:NBN) (Gatei et al. 2000), as well as the nucleosome histone H2AFX (H2AX) on serine residue S139, producing gamma-H2AFX (gamma-H2AX) containing nucleosomes (Rogakou et al. 1998, Burma et al. 2001). H2AFX is phosphorylated on tyrosine 142 (Y142) under basal conditions (Xiao et al. 2009). After ATM-mediated phosphorylation of H2AFX on S139, tyrosine Y142 has to be dephosphorylated by EYA family phosphatases in order for the DNA repair to proceed and to avoid apoptosis induced by DNA DSBs (Cook et al. 2009). Gamma-H2AFX recruits MDC1 to DNA DSBs (Stucki et al. 2005). After ATM phosphorylates MDC1 (Liu et al. 2012), the MRN complex, gamma-H2AFX nucleosomes, and MDC1 serve as a core of the nuclear focus and a platform for the recruitment of other proteins involved in DNA damage signaling and repair (Lukas et al. 2004, Soutoglou and Misteli 2008). RNF8 ubiquitin ligase binds phosphorylated MDC1 (Kolas et al. 2007) and, in cooperation with HERC2 and RNF168 (Bekker-Jensen et al. 2010, Campbell et al. 2012), ubiquitinates H2AFX (Mailand et al. 2007, Huen et al. 2007, Stewart et al. 2009, Doil et al. 2009) and histone demethylases KDM4A and KDM4B (Mallette et al. 2012). Ubiquitinated gamma-H2AFX recruits UIMC1 (RAP80), promoting the assembly of the BRCA1-A complex at DNA DSBs. The BRCA1-A complex consists of RAP80, FAM175A (Abraxas), BRCA1:BARD1 heterodimer, BRCC3 (BRCC36), BRE (BRCC45) and BABAM1 (MERIT40, NBA1) (Wang et al. 2007, Wang and Elledge 2007) Ubiquitin mediated degradation of KDM4A and KDM4B allows TP53BP1 (53BP1) to associate with histone H4 dimethylated on lysine K21 (H4K20Me2 mark) by WHSC1 at DNA DSB sites (Pei et al. 2011). Once recruited to DNA DSBs, both BRCA1:BARD1 heterodimers and TP53BP1 are phosphorylated by ATM (Cortez et al. 1999, Gatei et al. 2000, Kim et al. 2006, Jowsey et al. 2007), which triggers recruitment and activation of CHEK2 (Chk2, Cds1) (Wang et al. 2002, Wilson and Stern 2008, Melchionna et al. 2000). Depending on the cell cycle stage, BRCA1 and TP53BP1 competitively promote either homology directed repair (HDR) or nonhomologous end joining (NHEJ) of DNA DSBs. HDR through homologous recombination repair (HRR) or single strand annealing (SSA) is promoted by BRCA1 in association with RBBP8 (CtIP), while NHEJ is promoted by TP53BP1 in association with RIF1 (Escribano-Diaz et al. 2013)
R-HSA-9007892	Interleukin-38 signaling.	Interleukins are immunomodulatory proteins that elicit a wide array of responses in cells and tissues. Interleukin 1 family member 10 (IL1F10, IL 38) is a member of the IL1 family (Lin et al. 2001, Bensen et al. 2001). IL1F10 is selectively produced by human apoptotic cells (Mora et al. 2016) and human epidermal keratinocytes (based on mRNA studies) (Boutet M A et al. 2016). IL1F10 can bind to interleukin 1 receptor like 2 (IL1RL2) and may result in the suppression of IL 17 and IL 22 and induction of IL 6 production (van de Veerdonk et al. 2012, Mora et al. 2016). IL1F10 is synthesized as precursors that require N terminal processing to attain full receptor agonist or antagonist function (Mora et al. 2016). Both full length (1 – 152 amino acids) and N terminal truncated (20 – 152 amino acids) IL1F10 can bind Interleukin 1 receptor accessory protein like 1 (IL1RAPL1) (Mora et al. 2016). The binding affinity of truncated IL1F10 is much higher than that of the full length. However, binding of the full length or truncated forms has distinct outcomes; the former induces IL6 and the latter suppresses IL6 via JNK and AP1 signaling (Mora et al. 2016)

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Interacting partner	Detection method	Interaction type	PubMed IDs	Interaction Score	Source
AKT1	Biochemical Activity	physical	20186153, (Europe PMC)	NA	BioGRID
ANXA7	Affinity Capture-MS	physical	26496610, (Europe PMC)	NA	BioGRID
APLP2	Biochemical Activity	physical	12917434, (Europe PMC)	NA	BioGRID
APP	Biochemical Activity, Reconstituted Complex	physical	12917434, 21832049, (Europe PMC)	NA	BioGRID
ARHGDIA	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
ATE1	Affinity Capture-MS	physical	26186194, 28514442, (Europe PMC)	NA	BioGRID
ATF2	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex, Two-hybrid, protein kinase assay	phosphorylation reaction, physical	11279118, 11566021, 11865055, 12804775, 12874243, 12958075, 15550563, 16533805, 17875713, 21444723, 7535770, 8654373, 9162092, 9207092, 9399639, 9405416, (Europe PMC)	0.44	BioGRID, IntAct
ATF7	Affinity Capture-Western	physical	11566021, (Europe PMC)	NA	BioGRID
BANP	Affinity Capture-Western	physical	28617439, (Europe PMC)	NA	BioGRID
BCAR1	Affinity Capture-Western	physical	11432831, (Europe PMC)	NA	BioGRID
BCL2	Biochemical Activity, experimental interaction detection	phosphorylation reaction, physical	15733859, (Europe PMC)	0.31	BioGRID, IntAct, MINT
BCL2L1	Biochemical Activity, Co-localization, experimental interaction detection, proximity ligation assay	phosphorylation reaction, physical, physical association	15733859, 22617334, 25241761, (Europe PMC)	0.55	BioGRID, IntAct, MINT
BCL2L11	Biochemical Activity	physical	12591950, (Europe PMC)	NA	BioGRID
BCL7A	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
BID	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
BLMH	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
BMF	Biochemical Activity	physical	12591950, (Europe PMC)	NA	BioGRID
BMPR2	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
CAMP	Two-hybrid	physical	21988832, (Europe PMC)	NA	BioGRID
CASP10	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
CASP3	Biochemical Activity	physical	12821118, (Europe PMC)	NA	BioGRID
CASP8	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
CBL	Affinity Capture-Western, Biochemical Activity, anti bait coimmunoprecipitation	physical, physical association	11944898, 16982329, (Europe PMC)	0.40	BioGRID, IntAct, MINT
CCDC88C	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
CCT2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
CCT3	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
CCT4	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
CCT6A	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
CCT8	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
CDC42	Co-localization, anti bait coimmunoprecipitation, proximity ligation assay	association, physical, physical association	25241761, 25284480, (Europe PMC)	0.56	BioGRID, IntAct
CDKN1A	Affinity Capture-Western, Biochemical Activity	physical	12058028, 20102411, (Europe PMC)	NA	BioGRID
CDKN1B	Affinity Capture-Western, Reconstituted Complex	physical	12963725, (Europe PMC)	NA	BioGRID
CDKN2A	Affinity Capture-Western, Reconstituted Complex, Two-hybrid	physical	16007099, (Europe PMC)	NA	BioGRID
CDKN2C	Reconstituted Complex	physical	16007099, (Europe PMC)	NA	BioGRID
CEBPA	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex	physical	16983342, (Europe PMC)	NA	BioGRID
COG2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
CRK	Affinity Capture-Western, Co-localization, Reconstituted Complex, proximity ligation assay, pull down	physical, physical association	11432831, 16982329, 25241761, (Europe PMC)	0.59	BioGRID, IntAct, MINT
CRTC3	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
CSNK2A2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
CTNNB1	Affinity Capture-Western, Biochemical Activity	physical	19667122, (Europe PMC)	NA	BioGRID
CTSC	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
DCP1A	Co-localization	physical	19910486, (Europe PMC)	NA	BioGRID
DUSP1	Affinity Capture-Western, Two-hybrid	physical	11278799, (Europe PMC)	NA	BioGRID
DUSP10	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex, Two-hybrid, two hybrid array, two hybrid prey pooling approach	physical, physical association	10391943, 16166642, (Europe PMC)	0.49	BioGRID, IntAct
DUSP16	Affinity Capture-MS, Affinity Capture-Western, two hybrid array, two hybrid prey pooling approach	physical, physical association	11489891, 27432908, (Europe PMC)	0.49	BioGRID, IntAct
DUSP4	Affinity Capture-Western, Reconstituted Complex, anti tag coimmunoprecipitation	physical, physical association	11387337, 16038800, 19843478, (Europe PMC)	0.40	BioGRID, IntAct, MINT
DUSP8	Affinity Capture-MS, Two-hybrid, two hybrid	physical, physical association	21900206, 26186194, 27432908, 27880917, 28514442, (Europe PMC)	0.37	BioGRID, IntAct, MINT
EGFR	Affinity Capture-Luminescence, PCA, Two-hybrid, ubiquitin reconstruction	physical, physical association	24658140, 25402006, (Europe PMC)	0.37	BioGRID, IntAct
ELK1	Biochemical Activity, Two-hybrid	physical	17875713, 8586671, 8654373, 8846788, (Europe PMC)	NA	BioGRID
ELK4	Biochemical Activity	physical	9020136, (Europe PMC)	NA	BioGRID
ELP1	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex, Two-hybrid	physical	12058026, (Europe PMC)	NA	BioGRID
EP300	Biochemical Activity	physical	11278389, (Europe PMC)	NA	BioGRID
ETV1	Biochemical Activity	physical	11551945, (Europe PMC)	NA	BioGRID
EZR	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
FADD	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
FAM193B	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
FAS	Co-localization, Co-purification, proximity ligation assay	physical, physical association	15659383, 25241761, (Europe PMC)	0.40	BioGRID, IntAct
FASLG	Co-localization, Co-purification, proximity ligation assay	physical, physical association	15659383, 25241761, (Europe PMC)	0.40	BioGRID, IntAct
FLNB	Affinity Capture-Western, pull down	physical, physical association	19270716, (Europe PMC)	0.40	BioGRID, IntAct, MINT
FZR1	Affinity Capture-Western, Biochemical Activity	physical	20581839, (Europe PMC)	NA	BioGRID
GANAB	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
GARS	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
GEMIN5	Affinity Capture-Western, Reconstituted Complex	physical	17541429, (Europe PMC)	NA	BioGRID
GFPT1	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
GORASP2	Biochemical Activity	physical	11408587, (Europe PMC)	NA	BioGRID
GPS1	Phenotypic Suppression	genetic	8943324, (Europe PMC)	NA	BioGRID
GPS2	Phenotypic Suppression	genetic	8943324, (Europe PMC)	NA	BioGRID
GSTP1	Affinity Capture-Western, Co-localization, Reconstituted Complex, proximity ligation assay	physical, physical association	11279197, 16636664, 25241761, 26429914, (Europe PMC)	0.40	BioGRID, IntAct
GUCY1A1	Two-hybrid	physical	21988832, (Europe PMC)	NA	BioGRID
H2AFX	Affinity Capture-Western, Reconstituted Complex, anti bait coimmunoprecipitation, pull down	physical, physical association	17145805, 19234442, 20512932, (Europe PMC)	0.52	BioGRID, IntAct
HDAC1	Affinity Capture-Western	physical	16611996, (Europe PMC)	NA	BioGRID
HDAC9	Affinity Capture-Western, Reconstituted Complex	physical	16611996, (Europe PMC)	NA	BioGRID
HIST2H2AA3	Affinity Capture-MS	physical	26496610, (Europe PMC)	NA	BioGRID
HIVEP1	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
HRAS	Phenotypic Suppression	genetic	8943324, (Europe PMC)	NA	BioGRID
HSD17B4	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
HSF1	Reconstituted Complex	physical	10747973, (Europe PMC)	NA	BioGRID
HSPA8	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
ID2	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
IRF3	Affinity Capture-Western, Biochemical Activity	physical	19153595, (Europe PMC)	NA	BioGRID
IRS1	Affinity Capture-Western, Reconstituted Complex, Two-hybrid	physical	10722755, 11606564, (Europe PMC)	NA	BioGRID
ITCH	Affinity Capture-Western, Biochemical Activity	physical	16446428, (Europe PMC)	NA	BioGRID
JKAMP	Affinity Capture-Western, Reconstituted Complex	physical	16166642, (Europe PMC)	NA	BioGRID
JUN	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex, Two-hybrid, in-gel kinase assay, protein kinase assay	direct interaction, phosphorylation reaction, physical	10393177, 10419510, 10464310, 10747973, 10908726, 10962563, 10987838, 11108663, 11278395, 11479302, 11907583, 12052834, 12149229, 12185592, 12228228, 12697749, 12832416, 12963725, 13130464, 14517282, 14557262, 14572659, 14612408, 14633987, 14701799, 15143066, 15289320, 15299005, 15590691, 15677475, 15749833, 15894542, 15958389, 16007099, 16157600, 16166642, 16291755, 16434970, 16533805, 16549498, 16740711, 16824735, 16983342, 17189706, 17363973, 17875713, 18003900, 18429822, 18922473, 18957422, 19270716, 19527717, 19910486, 20133937, 20732415, 22110360, 22904686, 23816567, 25098452, 8001819, 8137421, 8586671, 8621542, 8654373, 8846788, 9032244, 9575168, 9692890, 9774977, 9808624, (Europe PMC)	0.44, 0.85	BioGRID, IntAct, MINT
JUNB	Affinity Capture-Western	physical	9405416, (Europe PMC)	NA	BioGRID
JUND	Affinity Capture-Western, Reconstituted Complex	physical	12052834, 16264271, (Europe PMC)	NA	BioGRID
KCNAB3	Affinity Capture-MS	physical	26186194, 28514442, (Europe PMC)	NA	BioGRID
KRT8	Affinity Capture-Western	physical	11781324, (Europe PMC)	NA	BioGRID
LAMP3	Affinity Capture-MS	physical	28514442, (Europe PMC)	NA	BioGRID
MAP2K1	Protein-peptide	physical	16533805, (Europe PMC)	NA	BioGRID
MAP2K2	Protein-peptide	physical	16533805, (Europe PMC)	NA	BioGRID
MAP2K4	Affinity Capture-Western, Biochemical Activity, Phenotypic Enhancement, Protein-peptide, Reconstituted Complex, pull down	association, direct interaction, genetic, physical	10713157, 11279118, 11707464, 12391307, 12788955, 13130464, 15998799, 16533805, 9162092, 9207092, 9808624, (Europe PMC)	0.35, 0.44	BioGRID, IntAct
MAP2K7	Affinity Capture-Western, Biochemical Activity, Co-localization, Phenotypic Enhancement, Protein-peptide, Reconstituted Complex, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, proximity ligation assay, pull down	association, direct interaction, genetic, physical, physical association	10713157, 12821118, 13130464, 16533805, 24975362, 25241761, 25284480, 26364603, 9207092, (Europe PMC)	0.35, 0.54, 0.56	BioGRID, IntAct
MAP3K1	Affinity Capture-Western, Biochemical Activity, Co-localization, Reconstituted Complex, proximity ligation assay	physical, physical association	12228228, 14500727, 15299005, 21152872, 25241761, 9405400, (Europe PMC)	0.40	BioGRID, IntAct
MAP3K2	Affinity Capture-Western, Co-fractionation	physical	10713157, (Europe PMC)	NA	BioGRID
MAP3K4	Affinity Capture-MS, Biochemical Activity	physical	21152872, 26496610, (Europe PMC)	NA	BioGRID
MAP3K7	Affinity Capture-Western, Reconstituted Complex, molecular sieving	physical, physical association	11865055, 17709393, (Europe PMC)	0.40	BioGRID, IntAct
MAPK14	Affinity Capture-Western	physical	18586681, (Europe PMC)	NA	BioGRID
MAPK8	Affinity Capture-MS, Biochemical Activity	physical	20194509, 23602568, (Europe PMC)	NA	BioGRID
MAPK8IP1	Affinity Capture-MS, Affinity Capture-Western, Co-fractionation, Protein-peptide, molecular sieving, pull down	association, physical, physical association	11700324, 15998799, 16343492, 16533805, 16840345, 18286207, 28514442, 9733513, (Europe PMC)	0.62	BioGRID, IntAct, MINT
MAPK8IP3	Biochemical Activity, Reconstituted Complex	physical	10523642, 10629060, (Europe PMC)	NA	BioGRID
MAPK9	Affinity Capture-MS, anti bait coimmunoprecipitation, tandem affinity purification	association, physical	23602568, 25284480, 26186194, 28514442, (Europe PMC)	0.53	BioGRID, IntAct
MAPKAP1	Affinity Capture-Western, Reconstituted Complex	physical	15722200, (Europe PMC)	NA	BioGRID
MAPT	Biochemical Activity	physical	9199504, (Europe PMC)	NA	BioGRID
MBP	Biochemical Activity	physical	10978313, (Europe PMC)	NA	BioGRID
MKNK2	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
MSN	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
MTOR	Affinity Capture-Western	physical	22493283, (Europe PMC)	NA	BioGRID
MYC	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex	physical	10551811, (Europe PMC)	NA	BioGRID
NCOA3	Biochemical Activity	physical	15383283, (Europe PMC)	NA	BioGRID
NFATC2	Affinity Capture-Western	physical	15184502, (Europe PMC)	NA	BioGRID
NFATC3	Two-hybrid	physical	17875713, (Europe PMC)	NA	BioGRID
NFATC4	Affinity Capture-Western, Biochemical Activity, Two-hybrid	physical	17875713, (Europe PMC)	NA	BioGRID
NFE2	Biochemical Activity	physical	19966288, (Europe PMC)	NA	BioGRID
NFE2L2	Affinity Capture-Western	physical	24704364, (Europe PMC)	NA	BioGRID
NKAPD1	Two-hybrid	physical	21988832, (Europe PMC)	NA	BioGRID
NR4A1	Biochemical Activity	physical	14612408, 17023523, (Europe PMC)	NA	BioGRID
NUP98	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
PAX2	Biochemical Activity	physical	11700324, (Europe PMC)	NA	BioGRID
PDPK1	Reconstituted Complex	physical	10357815, (Europe PMC)	NA	BioGRID
PHLPP1	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
PIAS2	Affinity Capture-MS, Affinity Capture-Western, Reconstituted Complex, Two-hybrid	physical	19815509, (Europe PMC)	NA	BioGRID
PKMYT1	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex, Two-hybrid	physical	19204086, (Europe PMC)	NA	BioGRID
PNRC1	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
PPM1B	Co-fractionation	physical	26344197, (Europe PMC)	NA	BioGRID
PRKD1	Affinity Capture-Western	physical	11948398, (Europe PMC)	NA	BioGRID
PRKDC	Biochemical Activity	physical	11749722, (Europe PMC)	NA	BioGRID
PRR3	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
PSMD2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
RABL3	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
RAD18	Biochemical Activity	physical	22456510, (Europe PMC)	NA	BioGRID
RAF1	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
RB1	Affinity Capture-Western	physical	11566021, (Europe PMC)	NA	BioGRID
RBM15	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
REL	Affinity Capture-Western, Two-hybrid	physical	8621542, (Europe PMC)	NA	BioGRID
RHOA	Co-localization, Co-purification, proximity ligation assay	physical, physical association	15659383, 25241761, (Europe PMC)	0.40	BioGRID, IntAct
RPLP2	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
RPS6KB1	Affinity Capture-Western, Biochemical Activity, Two-hybrid, two hybrid array	physical, physical association	21988832, 23816567, (Europe PMC)	0.37	BioGRID, IntAct
RPTOR	Affinity Capture-Western, anti bait coimmunoprecipitation	association, physical, physical association	22493283, 27043084, (Europe PMC)	0.50	BioGRID, IntAct
SCAND1	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
SCOC	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
SERPINB3	Affinity Capture-Western, Co-localization, Reconstituted Complex	physical	16549498, (Europe PMC)	NA	BioGRID
SERPINB4	Reconstituted Complex	physical	16549498, (Europe PMC)	NA	BioGRID
SF1	Affinity Capture-MS	physical	26496610, (Europe PMC)	NA	BioGRID
SH2D3A	Phenotypic Enhancement	genetic	10187783, (Europe PMC)	NA	BioGRID
SH3BP5	Biochemical Activity, Co-localization, Reconstituted Complex, Two-hybrid	physical	12167088, (Europe PMC)	NA	BioGRID
SIRT1	Affinity Capture-Western, Biochemical Activity	physical	20027304, (Europe PMC)	NA	BioGRID
SMAD3	Co-localization, proximity ligation assay	physical, physical association	25241761, (Europe PMC)	0.40	BioGRID, IntAct
SNCA	Affinity Capture-Western	physical	12121974, (Europe PMC)	NA	BioGRID
SNCG	Affinity Capture-Western	physical	12121974, (Europe PMC)	NA	BioGRID
SP1	Affinity Capture-Western, Biochemical Activity	physical	19245816, 25398907, (Europe PMC)	NA	BioGRID
SPAG9	Affinity Capture-Western	physical	12391307, (Europe PMC)	NA	BioGRID
SPI1	Biochemical Activity	physical	8632909, (Europe PMC)	NA	BioGRID
SPIB	Biochemical Activity, Co-purification	physical	8632909, (Europe PMC)	NA	BioGRID
SSU72	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
STAB2	Affinity Capture-Western	physical	18387958, (Europe PMC)	NA	BioGRID
STAT3	Affinity Capture-Western, Biochemical Activity	physical	10521505, 15979846, (Europe PMC)	NA	BioGRID
STK11IP	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
SUN2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
TAF1D	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
TCP1	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
TFCP2	Biochemical Activity	physical	15857981, (Europe PMC)	NA	BioGRID
TJP2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
TKT	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
TNFRSF10B	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
TNFRSF1A	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
TP53	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex, Two-hybrid, anti bait coimmunoprecipitation	physical, physical association	11108663, 12514174, 15538975, 15580310, 18813780, 19651615, 9393873, 9724739, 9732264, (Europe PMC)	0.40	BioGRID, IntAct, MINT
TRAF2	Affinity Capture-Western	physical	9692890, (Europe PMC)	NA	BioGRID
VANGL2	Affinity Capture-Western	physical	26754771, (Europe PMC)	NA	BioGRID
VRK2	Affinity Capture-Western, pull down	association, physical	18286207, (Europe PMC)	0.35	BioGRID, IntAct
WDCP	Affinity Capture-MS	physical	26496610, (Europe PMC)	NA	BioGRID
WDR62	Affinity Capture-MS, Affinity Capture-Western, Biochemical Activity, Two-hybrid	physical	19910486, 26186194, 28514442, (Europe PMC)	NA	BioGRID
WWOX	Affinity Capture-Western, Two-hybrid, anti bait coimmunoprecipitation	physical, physical association	12514174, 15580310, (Europe PMC)	0.40	BioGRID, IntAct, MINT
YWHAZ	Biochemical Activity	physical	15696159, (Europe PMC)	NA	BioGRID
ZNF219	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
ZNF605	Two-hybrid	physical	21900206, (Europe PMC)	NA	BioGRID

Visualize Download

Interacting partner	Detection method	Interaction type	PubMed IDs	Interaction Score	Source
ATF2	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex, Two-hybrid, protein kinase assay	phosphorylation reaction, physical	11279118, 11566021, 11865055, 12804775, 12874243, 12958075, 15550563, 16533805, 17875713, 21444723, 7535770, 8654373, 9162092, 9207092, 9399639, 9405416, (Europe PMC)	0.44	BioGRID, IntAct
BAD	proximity ligation assay	physical association	23397142, (Europe PMC)	0.40	IntAct
BCL2	Biochemical Activity, experimental interaction detection	phosphorylation reaction, physical	15733859, (Europe PMC)	0.31	BioGRID, IntAct, MINT
BCL2L1	Biochemical Activity, Co-localization, experimental interaction detection, proximity ligation assay	phosphorylation reaction, physical, physical association	15733859, 22617334, 25241761, (Europe PMC)	0.55	BioGRID, IntAct, MINT
BCL7A	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
BLMH	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
BMPR2	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
CAMP	two hybrid array	physical association	21988832, (Europe PMC)	0.37	IntAct
CBL	Affinity Capture-Western, Biochemical Activity, anti bait coimmunoprecipitation	physical, physical association	11944898, 16982329, (Europe PMC)	0.40	BioGRID, IntAct, MINT
CCDC88C	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
CCT2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
CCT3	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
CCT4	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
CCT6A	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
CCT8	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
CDC42	Co-localization, anti bait coimmunoprecipitation, proximity ligation assay	association, physical, physical association	25241761, 25284480, (Europe PMC)	0.56	BioGRID, IntAct
COG2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
CRK	Affinity Capture-Western, Co-localization, Reconstituted Complex, proximity ligation assay, pull down	physical, physical association	11432831, 16982329, 25241761, (Europe PMC)	0.59	BioGRID, IntAct, MINT
CRKL	anti bait coimmunoprecipitation	physical association	16982329, (Europe PMC)	0.40	IntAct, MINT
CRTC3	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
CSNK2A2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
CTSC	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
DAB2	in-gel kinase assay	phosphorylation reaction	15894542, (Europe PMC)	0.44	IntAct
DUSP10	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex, Two-hybrid, two hybrid array, two hybrid prey pooling approach	physical, physical association	10391943, 16166642, (Europe PMC)	0.49	BioGRID, IntAct
DUSP16	Affinity Capture-MS, Affinity Capture-Western, two hybrid array, two hybrid prey pooling approach	physical, physical association	11489891, 27432908, (Europe PMC)	0.49	BioGRID, IntAct
DUSP4	Affinity Capture-Western, Reconstituted Complex, anti tag coimmunoprecipitation	physical, physical association	11387337, 16038800, 19843478, (Europe PMC)	0.40	BioGRID, IntAct, MINT
DUSP8	Affinity Capture-MS, Two-hybrid, two hybrid	physical, physical association	21900206, 26186194, 27432908, 27880917, 28514442, (Europe PMC)	0.37	BioGRID, IntAct, MINT
EGFR	Affinity Capture-Luminescence, PCA, Two-hybrid, ubiquitin reconstruction	physical, physical association	24658140, 25402006, (Europe PMC)	0.37	BioGRID, IntAct
FAM193B	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
FAS	Co-localization, Co-purification, proximity ligation assay	physical, physical association	15659383, 25241761, (Europe PMC)	0.40	BioGRID, IntAct
FASLG	Co-localization, Co-purification, proximity ligation assay	physical, physical association	15659383, 25241761, (Europe PMC)	0.40	BioGRID, IntAct
FLNB	Affinity Capture-Western, pull down	physical, physical association	19270716, (Europe PMC)	0.40	BioGRID, IntAct, MINT
GANAB	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
GARS	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
GFPT1	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
GSTP1	Affinity Capture-Western, Co-localization, Reconstituted Complex, proximity ligation assay	physical, physical association	11279197, 16636664, 25241761, 26429914, (Europe PMC)	0.40	BioGRID, IntAct
GUCY1A1	two hybrid array	physical association	21988832, (Europe PMC)	0.37	IntAct
H2AFX	Affinity Capture-Western, Reconstituted Complex, anti bait coimmunoprecipitation, pull down	physical, physical association	17145805, 19234442, 20512932, (Europe PMC)	0.52	BioGRID, IntAct
HIST2H2AC	anti tag coimmunoprecipitation	association	26496610, (Europe PMC)	0.35	IntAct
HIVEP1	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
HNF4A	protein kinase assay	phosphorylation reaction	15550563, (Europe PMC)	0.44	IntAct
HSD17B4	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
HSF1	anti bait coimmunoprecipitation	association	27043084, (Europe PMC)	0.35	IntAct
HSPA8	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
ID2	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
JUN	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex, Two-hybrid, in-gel kinase assay, protein kinase assay	direct interaction, phosphorylation reaction, physical	10393177, 10419510, 10464310, 10747973, 10908726, 10962563, 10987838, 11108663, 11278395, 11479302, 11907583, 12052834, 12149229, 12185592, 12228228, 12697749, 12832416, 12963725, 13130464, 14517282, 14557262, 14572659, 14612408, 14633987, 14701799, 15143066, 15289320, 15299005, 15590691, 15677475, 15749833, 15894542, 15958389, 16007099, 16157600, 16166642, 16291755, 16434970, 16533805, 16549498, 16740711, 16824735, 16983342, 17189706, 17363973, 17875713, 18003900, 18429822, 18922473, 18957422, 19270716, 19527717, 19910486, 20133937, 20732415, 22110360, 22904686, 23816567, 25098452, 8001819, 8137421, 8586671, 8621542, 8654373, 8846788, 9032244, 9575168, 9692890, 9774977, 9808624, (Europe PMC)	0.44, 0.85	BioGRID, IntAct, MINT
MAP2K4	Affinity Capture-Western, Biochemical Activity, Phenotypic Enhancement, Protein-peptide, Reconstituted Complex, pull down	association, direct interaction, genetic, physical	10713157, 11279118, 11707464, 12391307, 12788955, 13130464, 15998799, 16533805, 9162092, 9207092, 9808624, (Europe PMC)	0.35, 0.44	BioGRID, IntAct
MAP2K7	Affinity Capture-Western, Biochemical Activity, Co-localization, Phenotypic Enhancement, Protein-peptide, Reconstituted Complex, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, proximity ligation assay, pull down	association, direct interaction, genetic, physical, physical association	10713157, 12821118, 13130464, 16533805, 24975362, 25241761, 25284480, 26364603, 9207092, (Europe PMC)	0.35, 0.54, 0.56	BioGRID, IntAct
MAP3K1	Affinity Capture-Western, Biochemical Activity, Co-localization, Reconstituted Complex, proximity ligation assay	physical, physical association	12228228, 14500727, 15299005, 21152872, 25241761, 9405400, (Europe PMC)	0.40	BioGRID, IntAct
MAP3K11	anti bait coimmunoprecipitation	association	25284480, (Europe PMC)	0.35	IntAct
MAP3K7	Affinity Capture-Western, Reconstituted Complex, molecular sieving	physical, physical association	11865055, 17709393, (Europe PMC)	0.40	BioGRID, IntAct
MAPK8IP1	Affinity Capture-MS, Affinity Capture-Western, Co-fractionation, Protein-peptide, molecular sieving, pull down	association, physical, physical association	11700324, 15998799, 16343492, 16533805, 16840345, 18286207, 28514442, 9733513, (Europe PMC)	0.62	BioGRID, IntAct, MINT
MAPK9	Affinity Capture-MS, anti bait coimmunoprecipitation, tandem affinity purification	association, physical	23602568, 25284480, 26186194, 28514442, (Europe PMC)	0.53	BioGRID, IntAct
MKNK2	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
NKAPD1	two hybrid array	physical association	21988832, (Europe PMC)	0.37	IntAct
NUP98	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
PHLPP1	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
PIK3R1	anti bait coimmunoprecipitation, anti tag coimmunoprecipitation	association, physical association	16982329, 25284480, (Europe PMC)	0.62	IntAct, MINT
PNRC1	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
PRR3	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
PSMD2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
PXN	proximity ligation assay	physical association	23397142, (Europe PMC)	0.40	IntAct
RABL3	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
RAC1	anti bait coimmunoprecipitation	association	25284480, (Europe PMC)	0.35	IntAct
RAF1	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
RBM15	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
RHOA	Co-localization, Co-purification, proximity ligation assay	physical, physical association	15659383, 25241761, (Europe PMC)	0.40	BioGRID, IntAct
RPLP2	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
RPS6KB1	Affinity Capture-Western, Biochemical Activity, Two-hybrid, two hybrid array	physical, physical association	21988832, 23816567, (Europe PMC)	0.37	BioGRID, IntAct
RPTOR	Affinity Capture-Western, anti bait coimmunoprecipitation	association, physical, physical association	22493283, 27043084, (Europe PMC)	0.50	BioGRID, IntAct
SCAND1	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
SCOC	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
SMAD3	Co-localization, proximity ligation assay	physical, physical association	25241761, (Europe PMC)	0.40	BioGRID, IntAct
SSU72	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
STK11IP	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
SUN2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
TAF1D	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
TCP1	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
TJP2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
TKT	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
TP53	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex, Two-hybrid, anti bait coimmunoprecipitation	physical, physical association	11108663, 12514174, 15538975, 15580310, 18813780, 19651615, 9393873, 9724739, 9732264, (Europe PMC)	0.40	BioGRID, IntAct, MINT
VRK2	Affinity Capture-Western, pull down	association, physical	18286207, (Europe PMC)	0.35	BioGRID, IntAct
WDCP	anti tag coimmunoprecipitation	association	26496610, (Europe PMC)	0.35	IntAct
WWOX	Affinity Capture-Western, Two-hybrid, anti bait coimmunoprecipitation	physical, physical association	12514174, 15580310, (Europe PMC)	0.40	BioGRID, IntAct, MINT
ZNF219	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT

Visualize Download

Interacting partner	Detection method	Interaction type	PubMed IDs	Interaction Score	Source
AKT1	Biochemical Activity	physical	20186153, (Europe PMC)	NA	BioGRID
ANXA7	Affinity Capture-MS	physical	26496610, (Europe PMC)	NA	BioGRID
APBB1	anti bait coimmunoprecipitation	physical association	19234442, (Europe PMC)	0.40	IntAct
APLP2	Biochemical Activity	physical	12917434, (Europe PMC)	NA	BioGRID
APP	Biochemical Activity, Reconstituted Complex	physical	12917434, 21832049, (Europe PMC)	NA	BioGRID
ARHGDIA	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
ATE1	Affinity Capture-MS	physical	26186194, 28514442, (Europe PMC)	NA	BioGRID
ATF2	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex, Two-hybrid, protein kinase assay	phosphorylation reaction, physical	11279118, 11566021, 11865055, 12804775, 12874243, 12958075, 15550563, 16533805, 17875713, 21444723, 7535770, 8654373, 9162092, 9207092, 9399639, 9405416, (Europe PMC)	0.44	BioGRID, IntAct
ATF7	Affinity Capture-Western	physical	11566021, (Europe PMC)	NA	BioGRID
BAD	proximity ligation assay	physical association	23397142, (Europe PMC)	0.40	IntAct
BANP	Affinity Capture-Western	physical	28617439, (Europe PMC)	NA	BioGRID
BCAR1	Affinity Capture-Western	physical	11432831, (Europe PMC)	NA	BioGRID
BCL2	Biochemical Activity, experimental interaction detection	phosphorylation reaction, physical	15733859, (Europe PMC)	0.31	BioGRID, IntAct, MINT
BCL2L1	Biochemical Activity, Co-localization, experimental interaction detection, proximity ligation assay	phosphorylation reaction, physical, physical association	15733859, 22617334, 25241761, (Europe PMC)	0.55	BioGRID, IntAct, MINT
BCL2L11	Biochemical Activity	physical	12591950, (Europe PMC)	NA	BioGRID
BCL7A	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
BID	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
BLMH	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
BMF	Biochemical Activity	physical	12591950, (Europe PMC)	NA	BioGRID
BMPR2	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
CAMP	Two-hybrid	physical	21988832, (Europe PMC)	NA	BioGRID
CAMP	two hybrid array	physical association	21988832, (Europe PMC)	0.37	IntAct
CASP10	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
CASP3	Biochemical Activity	physical	12821118, (Europe PMC)	NA	BioGRID
CASP8	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
CBL	Affinity Capture-Western, Biochemical Activity, anti bait coimmunoprecipitation	physical, physical association	11944898, 16982329, (Europe PMC)	0.40	BioGRID, IntAct, MINT
CCDC88C	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
CCT2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
CCT3	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
CCT4	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
CCT6A	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
CCT8	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
CDC42	Co-localization, anti bait coimmunoprecipitation, proximity ligation assay	association, physical, physical association	25241761, 25284480, (Europe PMC)	0.56	BioGRID, IntAct
CDKN1A	Affinity Capture-Western, Biochemical Activity	physical	12058028, 20102411, (Europe PMC)	NA	BioGRID
CDKN1B	Affinity Capture-Western, Reconstituted Complex	physical	12963725, (Europe PMC)	NA	BioGRID
CDKN2A	Affinity Capture-Western, Reconstituted Complex, Two-hybrid	physical	16007099, (Europe PMC)	NA	BioGRID
CDKN2C	Reconstituted Complex	physical	16007099, (Europe PMC)	NA	BioGRID
CEBPA	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex	physical	16983342, (Europe PMC)	NA	BioGRID
COG2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
CRK	Affinity Capture-Western, Co-localization, Reconstituted Complex, proximity ligation assay, pull down	physical, physical association	11432831, 16982329, 25241761, (Europe PMC)	0.59	BioGRID, IntAct, MINT
CRKL	anti bait coimmunoprecipitation	physical association	16982329, (Europe PMC)	0.40	IntAct, MINT
CRTC3	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
CSNK2A2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
CTNNB1	Affinity Capture-Western, Biochemical Activity	physical	19667122, (Europe PMC)	NA	BioGRID
CTSC	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
DAB2	in-gel kinase assay	phosphorylation reaction	15894542, (Europe PMC)	0.44	IntAct
DCP1A	Co-localization	physical	19910486, (Europe PMC)	NA	BioGRID
DUSP1	Affinity Capture-Western, Two-hybrid	physical	11278799, (Europe PMC)	NA	BioGRID
DUSP10	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex, Two-hybrid, two hybrid array, two hybrid prey pooling approach	physical, physical association	10391943, 16166642, (Europe PMC)	0.49	BioGRID, IntAct
DUSP16	Affinity Capture-MS, Affinity Capture-Western, two hybrid array, two hybrid prey pooling approach	physical, physical association	11489891, 27432908, (Europe PMC)	0.49	BioGRID, IntAct
DUSP4	Affinity Capture-Western, Reconstituted Complex, anti tag coimmunoprecipitation	physical, physical association	11387337, 16038800, 19843478, (Europe PMC)	0.40	BioGRID, IntAct, MINT
DUSP8	Affinity Capture-MS, Two-hybrid, two hybrid	physical, physical association	21900206, 26186194, 27432908, 27880917, 28514442, (Europe PMC)	0.37	BioGRID, IntAct, MINT
EGFR	Affinity Capture-Luminescence, PCA, Two-hybrid, ubiquitin reconstruction	physical, physical association	24658140, 25402006, (Europe PMC)	0.37	BioGRID, IntAct
ELK1	Biochemical Activity, Two-hybrid	physical	17875713, 8586671, 8654373, 8846788, (Europe PMC)	NA	BioGRID
ELK4	Biochemical Activity	physical	9020136, (Europe PMC)	NA	BioGRID
ELP1	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex, Two-hybrid	physical	12058026, (Europe PMC)	NA	BioGRID
EP300	Biochemical Activity	physical	11278389, (Europe PMC)	NA	BioGRID
ETV1	Biochemical Activity	physical	11551945, (Europe PMC)	NA	BioGRID
EZR	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
FADD	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
FAM193B	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
FAS	Co-localization, Co-purification, proximity ligation assay	physical, physical association	15659383, 25241761, (Europe PMC)	0.40	BioGRID, IntAct
FASLG	Co-localization, Co-purification, proximity ligation assay	physical, physical association	15659383, 25241761, (Europe PMC)	0.40	BioGRID, IntAct
FLNB	Affinity Capture-Western, pull down	physical, physical association	19270716, (Europe PMC)	0.40	BioGRID, IntAct, MINT
FZR1	Affinity Capture-Western, Biochemical Activity	physical	20581839, (Europe PMC)	NA	BioGRID
GANAB	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
GARS	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
GEMIN5	Affinity Capture-Western, Reconstituted Complex	physical	17541429, (Europe PMC)	NA	BioGRID
GFPT1	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
GORASP2	Biochemical Activity	physical	11408587, (Europe PMC)	NA	BioGRID
GPS1	Phenotypic Suppression	genetic	8943324, (Europe PMC)	NA	BioGRID
GPS2	Phenotypic Suppression	genetic	8943324, (Europe PMC)	NA	BioGRID
GSTP1	Affinity Capture-Western, Co-localization, Reconstituted Complex, proximity ligation assay	physical, physical association	11279197, 16636664, 25241761, 26429914, (Europe PMC)	0.40	BioGRID, IntAct
GUCY1A1	Two-hybrid	physical	21988832, (Europe PMC)	NA	BioGRID
GUCY1A1	two hybrid array	physical association	21988832, (Europe PMC)	0.37	IntAct
H2AFX	Affinity Capture-Western, Reconstituted Complex, anti bait coimmunoprecipitation, pull down	physical, physical association	17145805, 19234442, 20512932, (Europe PMC)	0.52	BioGRID, IntAct
HDAC1	Affinity Capture-Western	physical	16611996, (Europe PMC)	NA	BioGRID
HDAC9	Affinity Capture-Western, Reconstituted Complex	physical	16611996, (Europe PMC)	NA	BioGRID
HIST2H2AA3	Affinity Capture-MS	physical	26496610, (Europe PMC)	NA	BioGRID
HIST2H2AC	anti tag coimmunoprecipitation	association	26496610, (Europe PMC)	0.35	IntAct
HIVEP1	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
HNF4A	protein kinase assay	phosphorylation reaction	15550563, (Europe PMC)	0.44	IntAct
HRAS	Phenotypic Suppression	genetic	8943324, (Europe PMC)	NA	BioGRID
HSD17B4	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
HSF1	Reconstituted Complex	physical	10747973, (Europe PMC)	NA	BioGRID
HSF1	anti bait coimmunoprecipitation	association	27043084, (Europe PMC)	0.35	IntAct
HSPA8	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
ID2	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
IRF3	Affinity Capture-Western, Biochemical Activity	physical	19153595, (Europe PMC)	NA	BioGRID
IRS1	Affinity Capture-Western, Reconstituted Complex, Two-hybrid	physical	10722755, 11606564, (Europe PMC)	NA	BioGRID
ITCH	Affinity Capture-Western, Biochemical Activity	physical	16446428, (Europe PMC)	NA	BioGRID
JKAMP	Affinity Capture-Western, Reconstituted Complex	physical	16166642, (Europe PMC)	NA	BioGRID
JUN	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex, Two-hybrid, in-gel kinase assay, protein kinase assay	direct interaction, phosphorylation reaction, physical	10393177, 10419510, 10464310, 10747973, 10908726, 10962563, 10987838, 11108663, 11278395, 11479302, 11907583, 12052834, 12149229, 12185592, 12228228, 12697749, 12832416, 12963725, 13130464, 14517282, 14557262, 14572659, 14612408, 14633987, 14701799, 15143066, 15289320, 15299005, 15590691, 15677475, 15749833, 15894542, 15958389, 16007099, 16157600, 16166642, 16291755, 16434970, 16533805, 16549498, 16740711, 16824735, 16983342, 17189706, 17363973, 17875713, 18003900, 18429822, 18922473, 18957422, 19270716, 19527717, 19910486, 20133937, 20732415, 22110360, 22904686, 23816567, 25098452, 8001819, 8137421, 8586671, 8621542, 8654373, 8846788, 9032244, 9575168, 9692890, 9774977, 9808624, (Europe PMC)	0.44, 0.85	BioGRID, IntAct, MINT
JUNB	Affinity Capture-Western	physical	9405416, (Europe PMC)	NA	BioGRID
JUND	Affinity Capture-Western, Reconstituted Complex	physical	12052834, 16264271, (Europe PMC)	NA	BioGRID
KCNAB3	Affinity Capture-MS	physical	26186194, 28514442, (Europe PMC)	NA	BioGRID
KRT8	Affinity Capture-Western	physical	11781324, (Europe PMC)	NA	BioGRID
LAMP3	Affinity Capture-MS	physical	28514442, (Europe PMC)	NA	BioGRID
MAP2K1	Protein-peptide	physical	16533805, (Europe PMC)	NA	BioGRID
MAP2K2	Protein-peptide	physical	16533805, (Europe PMC)	NA	BioGRID
MAP2K4	Affinity Capture-Western, Biochemical Activity, Phenotypic Enhancement, Protein-peptide, Reconstituted Complex, pull down	association, direct interaction, genetic, physical	10713157, 11279118, 11707464, 12391307, 12788955, 13130464, 15998799, 16533805, 9162092, 9207092, 9808624, (Europe PMC)	0.35, 0.44	BioGRID, IntAct
MAP2K7	Affinity Capture-Western, Biochemical Activity, Co-localization, Phenotypic Enhancement, Protein-peptide, Reconstituted Complex, anti bait coimmunoprecipitation, anti tag coimmunoprecipitation, proximity ligation assay, pull down	association, direct interaction, genetic, physical, physical association	10713157, 12821118, 13130464, 16533805, 24975362, 25241761, 25284480, 26364603, 9207092, (Europe PMC)	0.35, 0.54, 0.56	BioGRID, IntAct
MAP3K1	Affinity Capture-Western, Biochemical Activity, Co-localization, Reconstituted Complex, proximity ligation assay	physical, physical association	12228228, 14500727, 15299005, 21152872, 25241761, 9405400, (Europe PMC)	0.40	BioGRID, IntAct
MAP3K11	anti bait coimmunoprecipitation	association	25284480, (Europe PMC)	0.35	IntAct
MAP3K2	Affinity Capture-Western, Co-fractionation	physical	10713157, (Europe PMC)	NA	BioGRID
MAP3K4	Affinity Capture-MS, Biochemical Activity	physical	21152872, 26496610, (Europe PMC)	NA	BioGRID
MAP3K7	Affinity Capture-Western, Reconstituted Complex, molecular sieving	physical, physical association	11865055, 17709393, (Europe PMC)	0.40	BioGRID, IntAct
MAPK14	Affinity Capture-Western	physical	18586681, (Europe PMC)	NA	BioGRID
MAPK8	Affinity Capture-MS, Biochemical Activity	physical	20194509, 23602568, (Europe PMC)	NA	BioGRID
MAPK8IP1	Affinity Capture-MS, Affinity Capture-Western, Co-fractionation, Protein-peptide, molecular sieving, pull down	association, physical, physical association	11700324, 15998799, 16343492, 16533805, 16840345, 18286207, 28514442, 9733513, (Europe PMC)	0.62	BioGRID, IntAct, MINT
MAPK8IP3	Biochemical Activity, Reconstituted Complex	physical	10523642, 10629060, (Europe PMC)	NA	BioGRID
MAPK9	Affinity Capture-MS, anti bait coimmunoprecipitation, tandem affinity purification	association, physical	23602568, 25284480, 26186194, 28514442, (Europe PMC)	0.53	BioGRID, IntAct
MAPKAP1	Affinity Capture-Western, Reconstituted Complex	physical	15722200, (Europe PMC)	NA	BioGRID
MAPT	Biochemical Activity	physical	9199504, (Europe PMC)	NA	BioGRID
MBP	Biochemical Activity	physical	10978313, (Europe PMC)	NA	BioGRID
MKNK2	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
MSN	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
MTOR	Affinity Capture-Western	physical	22493283, (Europe PMC)	NA	BioGRID
MYC	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex	physical	10551811, (Europe PMC)	NA	BioGRID
NCOA3	Biochemical Activity	physical	15383283, (Europe PMC)	NA	BioGRID
NFATC2	Affinity Capture-Western	physical	15184502, (Europe PMC)	NA	BioGRID
NFATC3	Two-hybrid	physical	17875713, (Europe PMC)	NA	BioGRID
NFATC4	Affinity Capture-Western, Biochemical Activity, Two-hybrid	physical	17875713, (Europe PMC)	NA	BioGRID
NFE2	Biochemical Activity	physical	19966288, (Europe PMC)	NA	BioGRID
NFE2L2	Affinity Capture-Western	physical	24704364, (Europe PMC)	NA	BioGRID
NKAPD1	Two-hybrid	physical	21988832, (Europe PMC)	NA	BioGRID
NKAPD1	two hybrid array	physical association	21988832, (Europe PMC)	0.37	IntAct
NR4A1	Biochemical Activity	physical	14612408, 17023523, (Europe PMC)	NA	BioGRID
NUP98	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
PAX2	Biochemical Activity	physical	11700324, (Europe PMC)	NA	BioGRID
PDPK1	Reconstituted Complex	physical	10357815, (Europe PMC)	NA	BioGRID
PHLPP1	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
PIAS2	Affinity Capture-MS, Affinity Capture-Western, Reconstituted Complex, Two-hybrid	physical	19815509, (Europe PMC)	NA	BioGRID
PIK3R1	anti bait coimmunoprecipitation, anti tag coimmunoprecipitation	association, physical association	16982329, 25284480, (Europe PMC)	0.62	IntAct, MINT
PKMYT1	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex, Two-hybrid	physical	19204086, (Europe PMC)	NA	BioGRID
PNRC1	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
PPM1B	Co-fractionation	physical	26344197, (Europe PMC)	NA	BioGRID
PRKD1	Affinity Capture-Western	physical	11948398, (Europe PMC)	NA	BioGRID
PRKDC	Biochemical Activity	physical	11749722, (Europe PMC)	NA	BioGRID
PRR3	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
PSMD2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
PXN	proximity ligation assay	physical association	23397142, (Europe PMC)	0.40	IntAct
RABL3	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
RAC1	anti bait coimmunoprecipitation	association	25284480, (Europe PMC)	0.35	IntAct
RAD18	Biochemical Activity	physical	22456510, (Europe PMC)	NA	BioGRID
RAF1	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
RB1	Affinity Capture-Western	physical	11566021, (Europe PMC)	NA	BioGRID
RBM15	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
REL	Affinity Capture-Western, Two-hybrid	physical	8621542, (Europe PMC)	NA	BioGRID
RHOA	Co-localization, Co-purification, proximity ligation assay	physical, physical association	15659383, 25241761, (Europe PMC)	0.40	BioGRID, IntAct
RPLP2	Two-hybrid, two hybrid array	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
RPS6KB1	Affinity Capture-Western, Biochemical Activity, Two-hybrid, two hybrid array	physical, physical association	21988832, 23816567, (Europe PMC)	0.37	BioGRID, IntAct
RPTOR	Affinity Capture-Western, anti bait coimmunoprecipitation	association, physical, physical association	22493283, 27043084, (Europe PMC)	0.50	BioGRID, IntAct
SCAND1	Two-hybrid, two hybrid	physical, physical association	21900206, (Europe PMC)	0.37	BioGRID, IntAct, MINT
SCOC	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
SERPINB3	Affinity Capture-Western, Co-localization, Reconstituted Complex	physical	16549498, (Europe PMC)	NA	BioGRID
SERPINB4	Reconstituted Complex	physical	16549498, (Europe PMC)	NA	BioGRID
SF1	Affinity Capture-MS	physical	26496610, (Europe PMC)	NA	BioGRID
SH2D3A	Phenotypic Enhancement	genetic	10187783, (Europe PMC)	NA	BioGRID
SH3BP5	Biochemical Activity, Co-localization, Reconstituted Complex, Two-hybrid	physical	12167088, (Europe PMC)	NA	BioGRID
SIRT1	Affinity Capture-Western, Biochemical Activity	physical	20027304, (Europe PMC)	NA	BioGRID
SMAD3	Co-localization, proximity ligation assay	physical, physical association	25241761, (Europe PMC)	0.40	BioGRID, IntAct
SNCA	Affinity Capture-Western	physical	12121974, (Europe PMC)	NA	BioGRID
SNCG	Affinity Capture-Western	physical	12121974, (Europe PMC)	NA	BioGRID
SP1	Affinity Capture-Western, Biochemical Activity	physical	19245816, 25398907, (Europe PMC)	NA	BioGRID
SPAG9	Affinity Capture-Western	physical	12391307, (Europe PMC)	NA	BioGRID
SPI1	Biochemical Activity	physical	8632909, (Europe PMC)	NA	BioGRID
SPIB	Biochemical Activity, Co-purification	physical	8632909, (Europe PMC)	NA	BioGRID
SSU72	Two-hybrid, two hybrid	physical, physical association	21988832, (Europe PMC)	0.37	BioGRID, IntAct
STAB2	Affinity Capture-Western	physical	18387958, (Europe PMC)	NA	BioGRID
STAT3	Affinity Capture-Western, Biochemical Activity	physical	10521505, 15979846, (Europe PMC)	NA	BioGRID
STK11IP	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
SUN2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
TAF1D	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
TCP1	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
TFCP2	Biochemical Activity	physical	15857981, (Europe PMC)	NA	BioGRID
TJP2	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	26496610, (Europe PMC)	0.35	BioGRID, IntAct
TKT	Affinity Capture-MS, anti tag coimmunoprecipitation	association, physical	25852190, (Europe PMC)	0.35	BioGRID, IntAct
TNFRSF10B	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
TNFRSF1A	Co-purification	physical	15659383, (Europe PMC)	NA	BioGRID
TP53	Affinity Capture-Western, Biochemical Activity, Reconstituted Complex, Two-hybrid, anti bait coimmunoprecipitation	physical, physical association	11108663, 12514174, 15538975, 15580310, 18813780, 19651615, 9393873, 9724739, 9732264, (Europe PMC)	0.40	BioGRID, IntAct, MINT
TRAF2	Affinity Capture-Western	physical	9692890, (Europe PMC)	NA	BioGRID
VANGL2	Affinity Capture-Western	physical	26754771, (Europe PMC)	NA	BioGRID
VRK2	Affinity Capture-Western, pull down	association, physical	18286207, (Europe PMC)	0.35	BioGRID, IntAct
WDCP	Affinity Capture-MS	physical	26496610, (Europe PMC)	NA	BioGRID
WDCP	anti tag coimmunoprecipitation	association	26496610, (Europe PMC)	0.35	IntAct
WDR62	Affinity Capture-MS, Affinity Capture-Western, Biochemical Activity, Two-hybrid	physical	19910486, 26186194, 28514442, (Europe PMC)	NA	BioGRID
WWOX	Affinity Capture-Western, Two-hybrid, anti bait coimmunoprecipitation	physical, physical association	12514174, 15580310,

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MAPK8