EB1和APC与mDia结合，以稳定Rho下游的微管并促进细胞迁移。

EB1 and APC bind to mDia to stabilize microtubules downstream of Rho and promote cell migration.

作者信息

Wen Ying, Eng Christina H, Schmoranzer Jan, Cabrera-Poch Noemi, Morris Edward J S, Chen Michael, Wallar Bradley J, Alberts Arthur S, Gundersen Gregg G

机构信息

Department of Anatomy & Cell Biology, Columbia University, New York, NY 10032, USA.

出版信息

Nat Cell Biol. 2004 Sep;6(9):820-30. doi: 10.1038/ncb1160. Epub 2004 Aug 15.

DOI:10.1038/ncb1160

PMID:15311282

Abstract

Lysophosphatidic acid (LPA) stimulates Rho GTPase and its effector, the formin mDia, to capture and stabilize microtubules in fibroblasts. We investigated whether mammalian EB1 and adenomatous polyposis coli (APC) function downstream of Rho-mDia in microtubule stabilization. A carboxy-terminal APC-binding fragment of EB1 (EB1-C) functioned as a dominant-negative inhibitor of microtubule stabilization induced by LPA or active mDia. Knockdown of EB1 with small interfering RNAs also prevented microtubule stabilization. Expression of either full-length EB1 or APC, but not an APC-binding mutant of EB1, was sufficient to stabilize microtubules. Binding and localization studies showed that EB1, APC and mDia may form a complex at stable microtubule ends. Furthermore, EB1-C, but not an APC-binding mutant, inhibited fibroblast migration in an in vitro wounding assay. These results show an evolutionarily conserved pathway for microtubule capture, and suggest that mDia functions as a scaffold protein for EB1 and APC to stabilize microtubules and promote cell migration.

摘要

溶血磷脂酸（LPA）刺激Rho GTP酶及其效应蛋白formin mDia，以捕获并稳定成纤维细胞中的微管。我们研究了哺乳动物EB1和腺瘤性息肉病大肠杆菌（APC）是否在Rho-mDia下游发挥微管稳定功能。EB1的一个羧基末端APC结合片段（EB1-C）作为LPA或活性mDia诱导的微管稳定的显性负性抑制剂发挥作用。用小干扰RNA敲低EB1也可防止微管稳定。全长EB1或APC的表达足以稳定微管，但EB1的APC结合突变体则不然。结合和定位研究表明，EB1、APC和mDia可能在稳定的微管末端形成复合物。此外，在体外创伤试验中，EB1-C而非APC结合突变体抑制了成纤维细胞迁移。这些结果显示了微管捕获的进化保守途径，并表明mDia作为EB1和APC的支架蛋白发挥作用，以稳定微管并促进细胞迁移。

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EB1和APC与mDia结合，以稳定Rho下游的微管并促进细胞迁移。

EB1 and APC bind to mDia to stabilize microtubules downstream of Rho and promote cell migration.

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