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血小板衍生生长因子 (PDGF) 通过 Nox1 依赖性血管平滑肌细胞丝氨酸 834 自身去磷酸化调节 Slingshot 磷酸酶活性。

Platelet-derived growth factor (PDGF) regulates Slingshot phosphatase activity via Nox1-dependent auto-dephosphorylation of serine 834 in vascular smooth muscle cells.

机构信息

Department of Medicine, Division of Cardiology, Emory University, Atlanta, Georgia 30322.

Department of Medicine, Division of Cardiology, Emory University, Atlanta, Georgia 30322.

出版信息

J Biol Chem. 2011 Oct 14;286(41):35430-35437. doi: 10.1074/jbc.M111.268284. Epub 2011 Aug 20.

DOI:10.1074/jbc.M111.268284
PMID:21857021
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3195626/
Abstract

Migration of vascular smooth muscle cells (VSMCs) contributes to vascular pathology. PDGF induces VSMC migration by a Nox1-based NADPH oxidase mediated mechanism. We have previously shown that PDGF-induced migration in VSMCs requires Slingshot-1L (SSH1L) phosphatase activity. In the present work, the mechanism of SSH1L activation by PDGF is further investigated. We identified a 14-3-3 consensus binding motif encompassing Ser-834 in SSH1L that is constitutively phosphorylated. PDGF induces SSH1L auto-dephosphorylation at Ser-834 in wild type (wt), but not in Nox1(-/y) cells. A SSH1L-S834A phospho-deficient mutant has significantly lower binding capacity for 14-3-3 when compared with the phospho-mimetic SSH1L-S834D mutant, and acts as a constitutively active phosphatase, lacking of PDGF-mediated regulation. Given that Nox1 produces reactive oxygen species, we evaluated their participation in this SSH1L activation mechanism. We found that H(2)O(2) activates SSH1L and this is accompanied by SSH1L/14-3-3 complex disruption and 14-3-3 oxidation in wt, but not in Nox1(-/y) cells. Together, these data demonstrate that PDGF activates SSH1L in VSMC by a mechanism that involves Nox1-mediated oxidation of 14-3-3 and Ser-834 SSH1L auto-dephosphorylation.

摘要

血管平滑肌细胞 (VSMCs) 的迁移导致血管病变。PDGF 通过基于 Nox1 的 NADPH 氧化酶介导的机制诱导 VSMC 迁移。我们之前已经表明,PDGF 诱导的 VSMC 迁移需要 Slingshot-1L (SSH1L) 磷酸酶活性。在本工作中,进一步研究了 PDGF 激活 SSH1L 的机制。我们确定了 SSH1L 中包含 Ser-834 的 14-3-3 保守结合基序,该基序在组成型磷酸化。PDGF 在野生型 (wt) 细胞中诱导 SSH1L 在 Ser-834 上自动去磷酸化,但在 Nox1(-/y)细胞中则不然。与磷酸模拟 SSH1L-S834D 突变体相比,SSH1L-S834A 磷酸缺陷型突变体对 14-3-3 的结合能力显著降低,并且作为一种组成型活性磷酸酶,缺乏 PDGF 介导的调节。鉴于 Nox1 产生活性氧,我们评估了它们在这种 SSH1L 激活机制中的参与。我们发现 H(2)O(2) 激活 SSH1L,这伴随着 wt 细胞中 SSH1L/14-3-3 复合物的破坏和 14-3-3 的氧化,但在 Nox1(-/y)细胞中则不然。总之,这些数据表明,PDGF 通过涉及 Nox1 介导的 14-3-3 和 Ser-834 SSH1L 自动去磷酸化的氧化机制激活 VSMC 中的 SSH1L。

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