P-Rex1 与 PDGFRβ 合作驱动细胞在 3D 微环境中的迁移。

P-Rex1 cooperates with PDGFRβ to drive cellular migration in 3D microenvironments.

机构信息

Beatson Institute for Cancer Research, Bearsden, Glasgow, United Kingdom.

出版信息

PLoS One. 2013;8(1):e53982. doi: 10.1371/journal.pone.0053982. Epub 2013 Jan 30.

DOI:10.1371/journal.pone.0053982

PMID:23382862

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3559689/

Abstract

Expression of the Rac-guanine nucleotide exchange factor (RacGEF), P-Rex1 is a key determinant of progression to metastasis in a number of human cancers. In accordance with this proposed role in cancer cell invasion and metastasis, we find that ectopic expression of P-Rex1 in an immortalised human fibroblast cell line is sufficient to drive multiple migratory and invasive phenotypes. The invasive phenotype is greatly enhanced by the presence of a gradient of serum or platelet-derived growth factor, and is dependent upon the expression of functional PDGF receptor β. Consistently, the invasiveness of WM852 melanoma cells, which endogenously express P-Rex1 and PDGFRβ, is opposed by siRNA of either of these proteins. Furthermore, the current model of P-Rex1 activation is advanced through demonstration of P-Rex1 and PDGFRβ as components of the same macromolecular complex. These data suggest that P-Rex1 has an influence on physiological migratory processes, such as invasion of cancer cells, both through effects upon classical Rac1-driven motility and a novel association with RTK signalling complexes.

摘要

Rac 鸟嘌呤核苷酸交换因子（RacGEF）的表达，P-Rex1 是许多人类癌症转移进展的关键决定因素。根据其在癌细胞侵袭和转移中的作用，我们发现 P-Rex1 在永生化人成纤维细胞系中的异位表达足以驱动多种迁移和侵袭表型。存在血清或血小板衍生生长因子的梯度可大大增强侵袭表型，且依赖于功能性 PDGF 受体β的表达。一致地，内源性表达 P-Rex1 和 PDGFRβ的 WM852 黑素瘤细胞的侵袭性被这些蛋白质的 siRNA 所拮抗。此外，通过证明 P-Rex1 和 PDGFRβ 作为同一大分子复合物的组成部分，推进了当前的 P-Rex1 激活模型。这些数据表明，P-Rex1 通过对经典 Rac1 驱动的运动的影响以及与 RTK 信号复合物的新关联，对生理迁移过程（如癌细胞的侵袭）产生影响。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5f18/3559689/04b49fbc7424/pone.0053982.g001.jpg

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P-Rex1 与 PDGFRβ 合作驱动细胞在 3D 微环境中的迁移。

P-Rex1 cooperates with PDGFRβ to drive cellular migration in 3D microenvironments.

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