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Target has curated data in GtoImmuPdb
Target id: 1497
Nomenclature: mitogen-activated protein kinase 9
Abbreviated Name: JNK2
Family: JNK subfamily
Gene and Protein Information | ||||||
Species | TM | AA | Chromosomal Location | Gene Symbol | Gene Name | Reference |
Human | - | 424 | 5q35.3 | MAPK9 | mitogen-activated protein kinase 9 | |
Mouse | - | 423 | 11 B1.2-B1.3 | Mapk9 | mitogen-activated protein kinase 9 | |
Rat | - | 423 | 10q21 | Mapk9 | mitogen-activated protein kinase 9 |
Database Links | |
Alphafold | P45984 (Hs), Q9WTU6 (Mm), P49186 (Rn) |
BRENDA | 2.7.11.24 |
ChEMBL Target | CHEMBL4179 (Hs), CHEMBL2034797 (Mm) |
Ensembl Gene | ENSG00000050748 (Hs), ENSMUSG00000020366 (Mm), ENSRNOG00000002823 (Rn) |
Entrez Gene | 5601 (Hs), 26420 (Mm), 50658 (Rn) |
Human Protein Atlas | ENSG00000050748 (Hs) |
KEGG Enzyme | 2.7.11.24 |
KEGG Gene | hsa:5601 (Hs), mmu:26420 (Mm), rno:50658 (Rn) |
OMIM | 602896 (Hs) |
Pharos | P45984 (Hs) |
RefSeq Nucleotide | NM_001135044 (Hs), NM_207692 (Mm), NM_017322 (Rn) |
RefSeq Protein | NP_001128516 (Hs), NP_997575 (Mm), NP_001157143 (Mm), NP_001157144 (Mm), NP_058657 (Mm), NP_059018 (Rn) |
UniProtKB | P45984 (Hs), Q9WTU6 (Mm), P49186 (Rn) |
Wikipedia | MAPK9 (Hs) |
Selected 3D Structures | |||||||||||||
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Enzyme Reaction | ||||
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Download all structure-activity data for this target as a CSV file
Inhibitors | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Key to terms and symbols | View all chemical structures | Click column headers to sort | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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DiscoveRx KINOMEscan® screen | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
A screen of 72 inhibitors against 456 human kinases. Quantitative data were derived using DiscoveRx KINOMEscan® platform. http://www.discoverx.com/services/drug-discovery-development-services/kinase-profiling/kinomescan Reference: 5,19 |
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Target used in screen: JNK2 | |||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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Displaying the top 10 most potent ligands View all ligands in screen » |
EMD Millipore KinaseProfilerTM screen/Reaction Biology Kinase HotspotSM screen | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
A screen profiling 158 kinase inhibitors (Calbiochem Protein Kinase Inhibitor Library I and II, catalogue numbers 539744 and 539745) for their inhibitory activity at 1µM and 10µM against 234 human recombinant kinases using the EMD Millipore KinaseProfilerTM service. A screen profiling the inhibitory activity of 178 commercially available kinase inhibitors at 0.5µM against a panel of 300 recombinant protein kinases using the Reaction Biology Corporation Kinase HotspotSM platform. http://www.millipore.com/techpublications/tech1/pf3036 http://www.reactionbiology.com/webapps/main/pages/kinase.aspx Reference: 1,6 |
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Target used in screen: JNK2α2/JNK2 | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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Displaying the top 10 most potent ligands View all ligands in screen » |
Immunopharmacology Comments |
Experimental evidence suggests that JNK2 is important in T-cell differentiation [8,14,17,21]. Signalling through JNK2, but not JNK1 has been associated with a loss of Treg cell function and an increase in pathogenic CD4+ T effector cell function, and the exacerbation of asthma-like immunopathology in mice [9]. |
Immuno Process Associations | ||
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1. Anastassiadis T, Deacon SW, Devarajan K, Ma H, Peterson JR. (2011) Comprehensive assay of kinase catalytic activity reveals features of kinase inhibitor selectivity. Nat Biotechnol, 29 (11): 1039-45. [PMID:22037377]
2. Angell RM, Atkinson FL, Brown MJ, Chuang TT, Christopher JA, Cichy-Knight M, Dunn AK, Hightower KE, Malkakorpi S, Musgrave JR et al.. (2007) N-(3-Cyano-4,5,6,7-tetrahydro-1-benzothien-2-yl)amides as potent, selective, inhibitors of JNK2 and JNK3. Bioorg Med Chem Lett, 17 (5): 1296-301. [PMID:17194588]
3. Bennett BL, Sasaki DT, Murray BW, O'Leary EC, Sakata ST, Xu W, Leisten JC, Motiwala A, Pierce S, Satoh Y et al.. (2001) SP600125, an anthrapyrazolone inhibitor of Jun N-terminal kinase. Proc Natl Acad Sci USA, 98 (24): 13681-6. [PMID:11717429]
4. Cirstea D, Hideshima T, Santo L, Eda H, Mishima Y, Nemani N, Hu Y, Mimura N, Cottini F, Gorgun G et al.. (2013) Small-molecule multi-targeted kinase inhibitor RGB-286638 triggers P53-dependent and -independent anti-multiple myeloma activity through inhibition of transcriptional CDKs. Leukemia, 27 (12): 2366-75. [PMID:23807770]
5. Davis MI, Hunt JP, Herrgard S, Ciceri P, Wodicka LM, Pallares G, Hocker M, Treiber DK, Zarrinkar PP. (2011) Comprehensive analysis of kinase inhibitor selectivity. Nat Biotechnol, 29 (11): 1046-51. [PMID:22037378]
6. Gao Y, Davies SP, Augustin M, Woodward A, Patel UA, Kovelman R, Harvey KJ. (2013) A broad activity screen in support of a chemogenomic map for kinase signalling research and drug discovery. Biochem J, 451 (2): 313-28. [PMID:23398362]
7. Goldstein DM, Soth M, Gabriel T, Dewdney N, Kuglstatter A, Arzeno H, Chen J, Bingenheimer W, Dalrymple SA, Dunn J et al.. (2011) Discovery of 6-(2,4-difluorophenoxy)-2-[3-hydroxy-1-(2-hydroxyethyl)propylamino]-8-methyl-8H-pyrido[2,3-d]pyrimidin-7-one (pamapimod) and 6-(2,4-difluorophenoxy)-8-methyl-2-(tetrahydro-2H-pyran-4-ylamino)pyrido[2,3-d]pyrimidin-7(8H)-one (R1487) as orally bioavailable and highly selective inhibitors of p38α mitogen-activated protein kinase. J Med Chem, 54 (7): 2255-65. [PMID:21375264]
8. Jang WY, Lee JY, Lee ST, Jun do Y, Kim YH. (2014) Inhibition of JNK2 and JNK3 by JNK inhibitor IX induces prometaphase arrest-dependent apoptotic cell death in human Jurkat T cells. Biochem Biophys Res Commun, 452 (3): 845-51. [PMID:25218503]
9. Joetham A, Schedel M, Takeda K, Jia Y, Ashino S, Dakhama A, Lluis A, Okamoto M, Gelfand EW. (2014) JNK2 regulates the functional plasticity of naturally occurring T regulatory cells and the enhancement of lung allergic responses. J Immunol, 193 (5): 2238-47. [PMID:25070841]
10. Kuglstatter A, Ghate M, Tsing S, Villaseñor AG, Shaw D, Barnett JW, Browner MF. (2010) X-ray crystal structure of JNK2 complexed with the p38alpha inhibitor BIRB796: insights into the rational design of DFG-out binding MAP kinase inhibitors. Bioorg Med Chem Lett, 20 (17): 5217-20. [PMID:20655210]
11. Lu W, Liu Y, Gao Y, Geng Q, Gurbani D, Li L, Ficarro SB, Meyer CJ, Sinha D, You I et al.. (2023) Development of a Covalent Inhibitor of c-Jun N-Terminal Protein Kinase (JNK) 2/3 with Selectivity over JNK1. J Med Chem, 66 (5): 3356-3371. [PMID:36826833]
12. Plantevin Krenitsky V, Nadolny L, Delgado M, Ayala L, Clareen SS, Hilgraf R, Albers R, Hegde S, D'Sidocky N, Sapienza J et al.. (2012) Discovery of CC-930, an orally active anti-fibrotic JNK inhibitor. Bioorg Med Chem Lett, 22 (3): 1433-8. [PMID:22244937]
13. Riggs JR, Elsner J, Cashion D, Robinson D, Tehrani L, Nagy M, Fultz KE, Krishna Narla R, Peng X, Tran T et al.. (2019) Design and Optimization Leading to an Orally Active TTK Protein Kinase Inhibitor with Robust Single Agent Efficacy. J Med Chem, 62 (9): 4401-4410. [PMID:30998356]
14. Sabapathy K, Hu Y, Kallunki T, Schreiber M, David JP, Jochum W, Wagner EF, Karin M. (1999) JNK2 is required for efficient T-cell activation and apoptosis but not for normal lymphocyte development. Curr Biol, 9 (3): 116-25. [PMID:10021384]
15. Shaw D, Wang SM, Villaseñor AG, Tsing S, Walter D, Browner MF, Barnett J, Kuglstatter A. (2008) The crystal structure of JNK2 reveals conformational flexibility in the MAP kinase insert and indicates its involvement in the regulation of catalytic activity. J Mol Biol, 383 (4): 885-93. [PMID:18801372]
16. Shuai W, Bu F, Zhu Y, Wu Y, Xiao H, Pan X, Zhang J, Sun Q, Wang G, Ouyang L. (2023) Discovery of Novel Indazole Chemotypes as Isoform-Selective JNK3 Inhibitors for the Treatment of Parkinson's Disease. J Med Chem, 66 (2): 1273-1300. [PMID:36649216]
17. Su B, Jacinto E, Hibi M, Kallunki T, Karin M, Ben-Neriah Y. (1994) JNK is involved in signal integration during costimulation of T lymphocytes. Cell, 77 (5): 727-36. [PMID:8205621]
18. Szczepankiewicz BG, Kosogof C, Nelson LT, Liu G, Liu B, Zhao H, Serby MD, Xin Z, Liu M, Gum RJ et al.. (2006) Aminopyridine-based c-Jun N-terminal kinase inhibitors with cellular activity and minimal cross-kinase activity. J Med Chem, 49 (12): 3563-80. [PMID:16759099]
19. Wodicka LM, Ciceri P, Davis MI, Hunt JP, Floyd M, Salerno S, Hua XH, Ford JM, Armstrong RC, Zarrinkar PP et al.. (2010) Activation state-dependent binding of small molecule kinase inhibitors: structural insights from biochemistry. Chem Biol, 17 (11): 1241-9. [PMID:21095574]
20. Woodward HL, Innocenti P, Cheung KJ, Hayes A, Roberts J, Henley AT, Faisal A, Mak GW, Box G, Westwood IM et al.. (2018) Introduction of a Methyl Group Curbs Metabolism of Pyrido[3,4- d]pyrimidine Monopolar Spindle 1 (MPS1) Inhibitors and Enables the Discovery of the Phase 1 Clinical Candidate N2-(2-Ethoxy-4-(4-methyl-4 H-1,2,4-triazol-3-yl)phenyl)-6-methyl- N8-neopentylpyrido[3,4- d]pyrimidine-2,8-diamine (BOS172722). J Med Chem, 61 (18): 8226-8240. [PMID:30199249]
21. Yang DD, Conze D, Whitmarsh AJ, Barrett T, Davis RJ, Rincón M, Flavell RA. (1998) Differentiation of CD4+ T cells to Th1 cells requires MAP kinase JNK2. Immunity, 9 (4): 575-85. [PMID:9806643]
22. Zhang T, Inesta-Vaquera F, Niepel M, Zhang J, Ficarro SB, Machleidt T, Xie T, Marto JA, Kim N, Sim T et al.. (2012) Discovery of potent and selective covalent inhibitors of JNK. Chem Biol, 19 (1): 140-54. [PMID:22284361]
JNK subfamily: mitogen-activated protein kinase 9. Last modified on 06/06/2023. Accessed on 14/12/2024. IUPHAR/BPS Guide to PHARMACOLOGY, https://www.guidetoimmunopharmacology.org/GRAC/ObjectDisplayForward?objectId=1497.