From the Goodman Cancer Research Centre and Department of Biochemistry, McGill University, Montreal, Quebec H3A 1A3, Canada.
INSERM U1029 and; Université Bordeaux, Avenue des Facultés, 33 405 Talence, France.
J Biol Chem. 2013 Sep 6;288(36):25739-25748. doi: 10.1074/jbc.M113.501007. Epub 2013 Jul 29.
PTP-PEST is a cytosolic ubiquitous protein tyrosine phosphatase (PTP) that contains, in addition to its catalytic domain, several protein-protein interaction domains that allow it to interface with several signaling pathways. Among others, PTP-PEST is a key regulator of cellular motility and cytoskeleton dynamics. The complexity of the PTP-PEST interactome underscores the necessity to identify its interacting partners and physiological substrates in order to further understand its role in focal adhesion complex turnover and actin organization. Using a modified yeast substrate trapping two-hybrid system, we identified a cytosolic adaptor protein named Src kinase-associated phosphoprotein 55 homologue (SKAP-Hom) as a novel substrate of PTP-PEST. To confirm PTP-PEST interaction with SKAP-Hom, in vitro pull down assays were performed demonstrating that the PTP catalytic domain and Proline-rich 1 (P1) domain are respectively binding to the SKAP-Hom Y260 and Y297 residues and its SH3 domain. Subsequently, we generated and rescued SKAP-Hom-deficient mouse embryonic fibroblasts (MEFs) with WT SKAP-Hom, SKAP-Hom tyrosine mutants (Y260F, Y260F/Y297F), or SKAP-Hom SH3 domain mutant (W335K). Given the role of PTP-PEST, wound-healing and trans-well migration assays were performed using the generated lines. Indeed, SKAP-Hom-deficient MEFs showed a defect in migration compared with WT-rescued MEFs. Interestingly, the SH3 domain mutant-rescued MEFs showed an enhanced cell migration corresponding potentially with higher tyrosine phosphorylation levels of SKAP-Hom. These findings suggest a novel role of SKAP-Hom and its phosphorylation in the regulation of cellular motility. Moreover, these results open new avenues by which PTP-PEST regulates cellular migration, a hallmark of metastasis.
PTP-PEST 是一种胞质普遍存在的蛋白酪氨酸磷酸酶 (PTP),除了其催化结构域外,还包含几个蛋白-蛋白相互作用结构域,使其能够与几种信号通路相互作用。PTP-PEST 是细胞运动和细胞骨架动态的关键调节剂。PTP-PEST 相互作用组的复杂性强调了识别其相互作用伙伴和生理底物的必要性,以便进一步了解其在焦点黏附复合物周转和肌动蛋白组织中的作用。使用改良的酵母底物捕获双杂交系统,我们鉴定了一种细胞质衔接蛋白,命名为Src 激酶相关磷酸蛋白 55 同源物 (SKAP-Hom),作为 PTP-PEST 的一种新底物。为了确认 PTP-PEST 与 SKAP-Hom 的相互作用,进行了体外下拉测定,表明 PTP 催化结构域和富含脯氨酸 1 (P1) 结构域分别与 SKAP-Hom 的 Y260 和 Y297 残基及其 SH3 结构域结合。随后,我们生成并挽救了 SKAP-Hom 缺陷型小鼠胚胎成纤维细胞 (MEFs),其中包括 WT SKAP-Hom、SKAP-Hom 酪氨酸突变体 (Y260F、Y260F/Y297F) 或 SKAP-Hom SH3 结构域突变体 (W335K)。鉴于 PTP-PEST 的作用,使用生成的细胞系进行了划痕愈合和 Trans-well 迁移测定。确实,与 WT 挽救的 MEFs 相比,SKAP-Hom 缺陷型 MEFs 在迁移方面存在缺陷。有趣的是,SH3 结构域突变体挽救的 MEFs显示出增强的细胞迁移,可能与 SKAP-Hom 的酪氨酸磷酸化水平升高有关。这些发现表明 SKAP-Hom 及其磷酸化在调节细胞运动中的新作用。此外,这些结果开辟了新的途径,通过该途径 PTP-PEST 调节细胞迁移,这是转移的一个标志。
