Abstract
The Csk family of tyrosine protein kinases comprises two members named Csk and Chk. These enzymes phosphorylate the carboxyl-terminal tyrosine of Src-related kinases in vitro, thereby repressing their activity. Csk has been found to be necessary for normal embryonic development, and to be a potent negative regulator of antigen receptor signaling in T-lymphocytes. As the functions of Chk in mammalian cells are not known, we examined its ability to carry out Csk-like functions in vivo. Like p50csk, Chk reduced the elevated phosphotyrosine levels and the augmented activity of Src family kinases in Csk-deficient fibroblasts. Contrary to Csk, however, Chk was inefficient at repressing antigen receptor-induced signals in a T-cell line (BI-141). We also noted that Chk, but not Csk, failed to stably associate with cellular membranes following addition of a membrane targeting signal to its amino terminus. This observation suggested that Chk may contain dominant targeting sequences disallowing its recruitment to cellular membranes. Hence, these data demonstrate that Chk can mediate some, but not all, Csk-related functions in vivo. Moreover, they suggest that the "restricted" function of Chk may relate at least in part to its inability to be recruited to certain cellular locales.
Highlights
The Csk family of tyrosine protein kinases comprises two members named Csk and Chk
Retrovirus-mediated Transfer of chk cDNAs in Csk-deficient Mouse Embryo Fibroblasts—To test whether Chk can mediate Csk-type functions in mammalian cells, we examined whether it could restore the regulation of tyrosine protein phosphorylation in Csk-deficient mouse embryo fibroblasts (MEFs) [4, 5, 35]
Detectable amounts of p50csk were present in derivatives in which a csk cDNA was re-introduced, as well as in MEFs derived from wild-type mice
Summary
The Csk family of tyrosine protein kinases comprises two members named Csk and Chk. These enzymes phosphorylate the carboxyl-terminal tyrosine of Src-related kinases in vitro, thereby repressing their activity. Significant interest in p50csk stems from its ability to phosphorylate the carboxyl-terminal tyrosine of Src family kinases in vitro, thereby repressing their enzymatic activity. We and others [11, 12, 18] have shown that Chk can phosphorylate the inhibitory carboxyl-terminal tyrosine of several Src-related enzymes in vitro, including Lck, Fyn, and c-Src. Unlike Csk, Chk only accumulates in brain and hemopoietic cells. Little is known of the role(s) of Chk in normal cellular physiology Because it is seemingly always expressed with Csk, it is reasonable to speculate that the two enzymes may not serve fully identical functions. Unlike Csk, Chk was inefficient at repressing antigen receptorinduced signal transduction in T-cells While these results supported the notion that Chk is a negative regulator of Src family kinases in vivo, they implied that Chk may have a restricted Csk-like biological activity in mammalian cells
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