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Cdk5(Y15)磷酸化和Cdk5活性在应力纤维形成和组织中的不同功能。

Distinct functions of Cdk5(Y15) phosphorylation and Cdk5 activity in stress fiber formation and organization.

作者信息

Qiao Fengyu, Gao Chun Y, Tripathi Brajendra K, Zelenka Peggy S

机构信息

National Eye Institute, National Institutes of Health, Bethesda, MD 20892-0704, USA.

出版信息

Exp Cell Res. 2008 Nov 15;314(19):3542-50. doi: 10.1016/j.yexcr.2008.08.023. Epub 2008 Sep 24.

DOI:10.1016/j.yexcr.2008.08.023
PMID:18838073
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12060253/
Abstract

Previous studies have shown that Cdk5 promotes lens epithelial cell adhesion. Here we use a cell spreading assay to investigate the mechanism of this effect. As cells spread, forming matrix adhesions and stress fibers, Cdk5(Y15) phosphorylation and Cdk5 kinase activity increased. Cdk5(Y15) phosphorylation was inhibited by PP1, a Src family kinase inhibitor. To identify the PP1-sensitive kinase, we transfected cells with siRNA oligonucleotides for cSrc and related kinases. Only cSrc siRNA oligonucleotides inhibited Cdk5(Y15) phosphorylation. Cdk5(pY15) and its activator, p35, colocalized with actin in stress fibers. To examine Cdk5 function, we inhibited Cdk5 activity under conditions that also prevent phosphorylation at Y15: expression of kinase inactive mutations Cdk5(Y15F) and Cdk5(K33T), and siRNA suppression of Cdk5. Stress fiber formation was severely inhibited. To distinguish between a requirement for Cdk5 kinase activity and a possible adaptor role for Cdk5(pY15), we used two methods that inhibit kinase activity without inhibiting phosphorylation at Y15: pharmacological inhibition with olomoucine and expression of the kinase inactive mutation, Cdk5(D144N). Stress fiber organization was altered, but stress fiber formation was not blocked. These findings indicate that Cdk5(Y15) phosphorylation and Cdk5 activity have distinct functions required for stress fiber formation and organization, respectively.

摘要

先前的研究表明,Cdk5可促进晶状体上皮细胞黏附。在此,我们采用细胞铺展试验来研究这种作用的机制。随着细胞铺展,形成基质黏附及应力纤维,Cdk5(Y15)磷酸化和Cdk5激酶活性增加。Cdk5(Y15)磷酸化被Src家族激酶抑制剂PP1所抑制。为鉴定对PP1敏感的激酶,我们用针对cSrc及相关激酶的小干扰RNA寡核苷酸转染细胞。只有cSrc小干扰RNA寡核苷酸抑制Cdk5(Y15)磷酸化。Cdk5(pY15)及其激活剂p35与应力纤维中的肌动蛋白共定位。为检测Cdk5的功能,我们在也能阻止Y15磷酸化的条件下抑制Cdk5活性:表达激酶失活突变体Cdk5(Y15F)和Cdk5(K33T),以及用小干扰RNA抑制Cdk5。应力纤维形成受到严重抑制。为区分对Cdk5激酶活性的需求与Cdk5(pY15)可能的衔接子作用,我们采用两种在不抑制Y15磷酸化的情况下抑制激酶活性的方法:用olomoucine进行药理学抑制以及表达激酶失活突变体Cdk5(D144N)。应力纤维组织发生改变,但应力纤维形成未被阻断。这些发现表明,Cdk5(Y15)磷酸化和Cdk5活性分别具有应力纤维形成和组织所需的不同功能。

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