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|Title:||The last 10 amino acid residues beyond the hydrophobic motif are critical for the catalytic competence and function of protein kinase Cα|
|Citation:||Sui, S.Y., Zhu, Y., Smith, D., Verma, C., Wee, G.L., Bee, J.T., Qiu, T.L., Nam, S.C., Cai, M., Zhu, Y.-N., Zhou, S.-F., Tan, S.-L., Duan, W. (2006-10-13). The last 10 amino acid residues beyond the hydrophobic motif are critical for the catalytic competence and function of protein kinase Cα. Journal of Biological Chemistry 281 (41) : 30768-30781. ScholarBank@NUS Repository.|
|Abstract:||The segment C-terminal to the hydrophobic motif at the V5 domain of protein kinase C (PKC) is the least conserved both in length and in amino acid identity among all PKC isozymes. By generating serial truncation mutants followed by biochemical and functional analyses, we show here that the very C terminus of PKCα is critical in conferring the full catalytic competence to the kinase and for transducing signals in cells. Deletion of one C-terminal amino acid residue caused the loss of ∼60% of the catalytic activity of the mutant PKCα, whereas deletion of 10 C-terminal amino acid residues abrogated the catalytic activity of PKCα in immune complex kinase assays. The PKCα C-terminal truncation mutants were found to lose their ability to activate mitogen-activated protein kinase, to rescue apoptosis induced by the inhibition of endogenous PKC in COS cells, and to augment melatonin-stimulated neurite outgrowth. Furthermore, molecular dynamics simulations revealed that the deletion of 1 or 10 C-terminal residues results in the deformation of the V5 domain and the ATP-binding pocket, respectively. Finally, PKCα immunoprecipitated using an antibody against its C terminus had only marginal catalytic activity compared with that of the PKCα immunoprecipitated by an antibody against its N terminus. Therefore, the very C-terminal tail of PKCα is a novel determinant of the catalytic activity of PKC and a promising target for selective modulation of PKCα function. Molecules that bind preferentially to the very C terminus of distinct PKC isozymes and suppress their catalytic activity may constitute a new class of selective inhibitors of PKC. © 2006 by The American Society for Biochemistry and Molecular Biology, Inc.|
|Source Title:||Journal of Biological Chemistry|
|Appears in Collections:||Staff Publications|
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