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基质成纤维细胞通过一种新的不依赖于侵袭性伪足的基质降解过程促进癌细胞侵袭。

Stromal fibroblasts facilitate cancer cell invasion by a novel invadopodia-independent matrix degradation process.

作者信息

Cao Hong, Eppinga Robbin D, Razidlo Gina L, Krueger Eugene W, Chen Jing, Qiang Li, McNiven Mark A

机构信息

Division of Gastroenterology and Hepatology, Mayo Clinic, Rochester, Minnesota USA.

Department of Biochemistry and Molecular Biology, Mayo Clinic, Rochester, Minnesota USA.

出版信息

Oncogene. 2016 Mar 3;35(9):1099-1110. doi: 10.1038/onc.2015.163. Epub 2015 May 18.

DOI:10.1038/onc.2015.163
PMID:25982272
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4651864/
Abstract

Metastatic invasion of tumors into peripheral tissues is known to rely upon protease-mediated degradation of the surrounding stroma. This remodeling process uses complex, actin-based, specializations of the plasma membrane termed invadopodia that act both to sequester and release matrix metalloproteinases. Here we report that cells of mesenchymal origin, including tumor-associated fibroblasts, degrade substantial amounts of surrounding matrix by a mechanism independent of conventional invadopodia. These degradative sites lack the punctate shape of conventional invadopodia to spread along the cell base and are reticular and/or fibrous in character. In marked contrast to invadopodia, this degradation does not require the action of Src kinase, Cdc42 or Dyn2. Rather, inhibition of Dyn2 causes a marked upregulation of stromal matrix degradation. Further, expression and activity of matrix metalloproteinases are differentially regulated between tumor cells and stromal fibroblasts. This matrix remodeling by fibroblasts increases the invasive capacity of tumor cells, thereby illustrating how the tumor microenvironment can contribute to metastasis. These findings provide evidence for a novel matrix remodeling process conducted by stromal fibroblasts that is substantially more effective than conventional invadopodia, distinct in structural organization and regulated by disparate molecular mechanisms.

摘要

已知肿瘤向周围组织的转移侵袭依赖于蛋白酶介导的周围基质降解。这种重塑过程利用了基于肌动蛋白的复杂的质膜特化结构,称为侵袭伪足,其作用是隔离和释放基质金属蛋白酶。在此我们报告,包括肿瘤相关成纤维细胞在内的间充质来源细胞,通过一种独立于传统侵袭伪足的机制降解大量周围基质。这些降解位点缺乏传统侵袭伪足的点状形状,而是沿着细胞基部扩散,呈网状和/或纤维状。与侵袭伪足形成鲜明对比的是,这种降解不需要Src激酶、Cdc42或动力蛋白2(Dyn2)的作用。相反,抑制动力蛋白2会导致基质降解显著上调。此外,肿瘤细胞和基质成纤维细胞之间基质金属蛋白酶的表达和活性受到不同调节。成纤维细胞的这种基质重塑增加了肿瘤细胞的侵袭能力,从而说明了肿瘤微环境如何促进转移。这些发现为基质成纤维细胞进行的一种新型基质重塑过程提供了证据,这种过程比传统侵袭伪足有效得多,在结构组织上不同,且受不同分子机制调节。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0915/4651864/84319e3922b0/nihms-674515-f0008.jpg
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