Shima Takaki, Nada Shigeyuki, Okada Masato
Department of Oncogene Research, Research Institute for Microbial Diseases, Osaka University, 3-1 Yamadaoka, Suita, Osaka 565-0871, Japan.
Proc Natl Acad Sci U S A. 2003 Dec 9;100(25):14897-902. doi: 10.1073/pnas.2432139100. Epub 2003 Nov 25.
Cbp, a C-terminal Src kinase (Csk)-binding protein, is a transmembrane phosphoprotein that has been implicated in the regulation of the Src family kinase (SFK) through recruiting Csk, a negative regulator of SFK, to a membrane microdomain of lipid rafts. To examine the contribution of Cbp to cell adhesion signaling mediated by SFK, we investigated the kinase responsible for phosphorylating Cbp and the mode of phosphorylation during the cell adhesion process. The results obtained by using mutant mice or cells that lack Csk and/or a member of SFK, Fyn, reveal that Cbp is phosphorylated predominantly by raft-localized Fyn in vivo. Upon cell adhesion onto fibronectin, Cbp becomes transiently phosphorylated (consistent with SFK activation) and recruits Csk to lipid rafts. These events are completed before the full activation of focal adhesion kinase, indicating that the transient activation and down-regulation of SFK in lipid rafts are earlier events in cell adhesion signaling. In Csk-deficient cells, continuous hyperactivation of SFK leads to continuous hyperphosphorylation of Cbp, accompanied by impaired cell spreading and migration. Silencing of Cbp by RNA interference also induced impaired cell spreading. These findings suggest that Cbp could serve as a sensor of SFK activity in early stages of cell adhesion signaling, and that Csk-mediated down-regulation of SFK is essential to allow dynamic cellular events involved in the regulation of cell spreading and migration.
Cbp是一种C端Src激酶(Csk)结合蛋白,是一种跨膜磷蛋白,通过将SFK的负调节因子Csk募集到脂筏的膜微区,参与Src家族激酶(SFK)的调节。为了研究Cbp对SFK介导的细胞黏附信号传导的作用,我们研究了负责磷酸化Cbp的激酶以及细胞黏附过程中的磷酸化模式。使用缺乏Csk和/或SFK成员Fyn的突变小鼠或细胞获得的结果表明,Cbp在体内主要由定位于脂筏的Fyn磷酸化。细胞黏附到纤连蛋白上后,Cbp会短暂磷酸化(与SFK激活一致)并将Csk募集到脂筏。这些事件在黏着斑激酶完全激活之前完成,表明脂筏中SFK的短暂激活和下调是细胞黏附信号传导中的早期事件。在缺乏Csk的细胞中,SFK的持续过度激活导致Cbp持续过度磷酸化,同时细胞铺展和迁移受损。RNA干扰使Cbp沉默也会导致细胞铺展受损。这些发现表明,Cbp可能作为细胞黏附信号传导早期阶段SFK活性的传感器,并且Csk介导的SFK下调对于允许参与细胞铺展和迁移调节的动态细胞事件至关重要。