BACKGROUND: The Janus family of protein tyrosine kinases (JAKs) regulate cellular processes involved in cell growth, differentiation and transformation through their association with cytokine receptors. We have recently identified the JAK-binding protein, JAB that inhibits various cytokine-dependent JAK signalling pathways. JAB inhibits JAK2 tyrosine kinase activity by binding to the kinase domain (JH1 domain) through the N-terminal kinase inhibitory region (KIR) and the SH2 domain. The SH2 domain of JAB has been shown to bind to the phosphorylated Y1007 in the activation loop of JH1. We also identified another JAK-binding protein, CIS3 (cytokine-inducible SH2-protein 3, or SOCS3) that inhibits signalling of various cytokines. However, the mechanism of JAK signal inhibition by CIS3 has not been clarified. RESULTS: We showed that endogenous CIS3 bound to JAK2 in intact cells. The CIS3-SH2 domain bound to the phosphorylated Y1007 of JH1, and inhibited tyrosine kinase activity through the N-terminal KIR. Therefore, CIS3 and JAB inhibit JAK2 tyrosine kinase activity by an essentially similar mechanism. However, we found that the affinity of the SH2 domain of CIS3 to Y1007 was weaker than that of JAB. In contrast, the KIR of CIS3 showed stronger potential for both binding to JH1 and inhibition of JAK kinase activity than that of JAB. Consistent with this notion, chimeras containing CIS3-KIR and JAB-SH2 domain inhibited JAK2 kinase activity more efficiently than the wild-type CIS3 or JAB. CONCLUSION: CIS3 inhibits JAK2 kinase activity by binding to the activation loop through the SH2 domain, and KIR is necessary for kinase inhibition. Although the inhibitory mechanism by CIS3 is similar to that by JAB, the contributions of the SH2 domain and KIR for binding are different between JAB and CIS3. Our study defined the inhibitory mechanism of CIS3 and provides a useful information for creating a novel tyrosine kinase inhibitor.
BACKGROUND: The Janus family of protein tyrosine kinases (JAKs) regulate cellular processes involved in cell growth, differentiation and transformation through their association with cytokine receptors. We have recently identified the JAK-binding protein, JAB that inhibits various cytokine-dependent JAK signalling pathways. JAB inhibits JAK2 tyrosine kinase activity by binding to the kinase domain (JH1 domain) through the N-terminal kinase inhibitory region (KIR) and the SH2 domain. The SH2 domain of JAB has been shown to bind to the phosphorylated Y1007 in the activation loop of JH1. We also identified another JAK-binding protein, CIS3 (cytokine-inducible SH2-protein 3, or SOCS3) that inhibits signalling of various cytokines. However, the mechanism of JAK signal inhibition by CIS3 has not been clarified. RESULTS: We showed that endogenous CIS3 bound to JAK2 in intact cells. The CIS3-SH2 domain bound to the phosphorylated Y1007 of JH1, and inhibited tyrosine kinase activity through the N-terminal KIR. Therefore, CIS3 and JAB inhibit JAK2 tyrosine kinase activity by an essentially similar mechanism. However, we found that the affinity of the SH2 domain of CIS3 to Y1007 was weaker than that of JAB. In contrast, the KIR of CIS3 showed stronger potential for both binding to JH1 and inhibition of JAK kinase activity than that of JAB. Consistent with this notion, chimeras containing CIS3-KIR and JAB-SH2 domain inhibited JAK2 kinase activity more efficiently than the wild-type CIS3 or JAB. CONCLUSION:CIS3 inhibits JAK2 kinase activity by binding to the activation loop through the SH2 domain, and KIR is necessary for kinase inhibition. Although the inhibitory mechanism by CIS3 is similar to that by JAB, the contributions of the SH2 domain and KIR for binding are different between JAB and CIS3. Our study defined the inhibitory mechanism of CIS3 and provides a useful information for creating a novel tyrosine kinase inhibitor.
Authors: Euan Parnell; Brian O Smith; Timothy M Palmer; Anna Terrin; Manuela Zaccolo; Stephen J Yarwood Journal: Br J Pharmacol Date: 2012-05 Impact factor: 8.739
Authors: Bao Q Vuong; Teresita L Arenzana; Brian M Showalter; Julie Losman; X Peter Chen; Justin Mostecki; Alexander S Banks; Andre Limnander; Neil Fernandez; Paul B Rothman Journal: Mol Cell Biol Date: 2004-10 Impact factor: 4.272
Authors: S Schreiber; P Rosenstiel; J Hampe; S Nikolaus; B Groessner; A Schottelius; T Kühbacher; J Hämling; U R Fölsch; D Seegert Journal: Gut Date: 2002-09 Impact factor: 23.059