Csk 同源激酶(Chk)是Src 家族激酶的有效抑制剂,但对其 C 末端调节性酪氨酸的磷酸化催化作用较差。
Csk-homologous kinase (Chk) is an efficient inhibitor of Src-family kinases but a poor catalyst of phosphorylation of their C-terminal regulatory tyrosine.
机构信息
Department of Biochemistry & Molecular Biology, University of Melbourne, Parkville, VIC, 3010, Australia.
Bio21 Biotechnology and Molecular Science Institute, University of Melbourne, Parkville, VIC, 3010, Australia.
出版信息
Cell Commun Signal. 2017 Aug 7;15(1):29. doi: 10.1186/s12964-017-0186-x.
BACKGROUND
C-terminal Src kinase (Csk) and Csk-homologous kinase (Chk) are the major endogenous inhibitors of Src-family kinases (SFKs). They employ two mechanisms to inhibit SFKs. First, they phosphorylate the C-terminal tail tyrosine which stabilizes SFKs in a closed inactive conformation by engaging the SH2 domain in cis. Second, they employ a non-catalytic inhibitory mechanism involving direct binding of Csk and Chk to the active forms of SFKs that is independent of phosphorylation of their C-terminal tail. Csk and Chk are co-expressed in many cell types. Contributions of the two mechanisms towards the inhibitory activity of Csk and Chk are not fully clear. Furthermore, the determinants in Csk and Chk governing their inhibition of SFKs by the non-catalytic inhibitory mechanism are yet to be defined.
METHODS
We determined the contributions of the two mechanisms towards the inhibitory activity of Csk and Chk both in vitro and in transduced colorectal cancer cells. Specifically, we assayed the catalytic activities of Csk and Chk in phosphorylating a specific peptide substrate and a recombinant SFK member Src. We employed surface plasmon resonance spectroscopy to measure the kinetic parameters of binding of Csk, Chk and their mutants to a constitutively active mutant of the SFK member Hck. Finally, we determined the effects of expression of recombinant Chk on anchorage-independent growth and SFK catalytic activity in Chk-deficient colorectal cancer cells.
RESULTS
Our results revealed Csk as a robust enzyme catalysing phosphorylation of the C-terminal tail tyrosine of SFKs but a weak non-catalytic inhibitor of SFKs. In contrast, Chk is a poor catalyst of SFK tail phosphorylation but binds SFKs with high affinity, enabling it to efficiently inhibit SFKs with the non-catalytic inhibitory mechanism both in vitro and in transduced colorectal cancer cells. Further analyses mapped some of the determinants governing this non-catalytic inhibitory mechanism of Chk to its kinase domain.
CONCLUSIONS
SFKs are activated by different upstream signals to adopt multiple active conformations in cells. SFKs adopting these conformations can effectively be constrained by the two complementary inhibitory mechanisms of Csk and Chk. Furthermore, the lack of this non-catalytic inhibitory mechanism accounts for SFK overactivation in the Chk-deficient colorectal cancer cells.
背景
C 端Src 激酶(Csk)和 Csk 同源激酶(Chk)是Src 家族激酶(SFKs)的主要内源性抑制剂。它们采用两种机制来抑制 SFKs。首先,它们磷酸化 C 端尾部酪氨酸,通过在顺式中结合 SH2 结构域,稳定 SFKs 处于关闭的非活性构象。其次,它们采用非催化抑制机制,涉及 Csk 和 Chk 与 SFKs 的活性形式直接结合,而不依赖于 C 端尾部的磷酸化。Csk 和 Chk 在许多细胞类型中共同表达。两种机制对 Csk 和 Chk 抑制活性的贡献尚不完全清楚。此外,Csk 和 Chk 中控制其通过非催化抑制机制抑制 SFKs 的决定因素尚未确定。
方法
我们在体外和转导的结直肠癌细胞中确定了两种机制对 Csk 和 Chk 抑制活性的贡献。具体来说,我们检测了 Csk 和 Chk 在磷酸化特定肽底物和重组 SFK 成员Src 方面的催化活性。我们采用表面等离子体共振光谱法测量了 Csk、Chk 及其突变体与 SFK 成员 Hck 的组成性激活突变体结合的动力学参数。最后,我们确定了表达重组 Chk 对 Chk 缺陷结直肠癌细胞中锚定非依赖性生长和 SFK 催化活性的影响。
结果
我们的结果表明 Csk 是一种催化 SFK C 端尾部酪氨酸磷酸化的强大酶,但也是 SFK 的弱非催化抑制剂。相比之下,Chk 是 SFK 尾部磷酸化的不良催化剂,但与 SFK 具有高亲和力结合,使其能够在体外和转导的结直肠癌细胞中有效地通过非催化抑制机制抑制 SFK。进一步的分析将一些控制 Chk 这种非催化抑制机制的决定因素映射到其激酶结构域。
结论
SFKs 被不同的上游信号激活,在细胞中采用多种活性构象。SFKs 采用这些构象可以被 Csk 和 Chk 的两种互补抑制机制有效地约束。此外,缺乏这种非催化抑制机制解释了 Chk 缺陷结直肠癌细胞中 SFK 的过度激活。
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