MT1-MMP 调控人骨髓间充质干细胞的迁移和分化。
MT1-MMP controls human mesenchymal stem cell trafficking and differentiation.
机构信息
College of Pharmacy, Harbin Medical University, Harbin, China.
出版信息
Blood. 2010 Jan 14;115(2):221-9. doi: 10.1182/blood-2009-06-228494. Epub 2009 Nov 9.
Abstract
Human mesenchymal stem cells (hMSCs) localized to bone marrow, nonhematopoietic organs, as well as perivascular niches are postulated to traffic through type I collagen-rich stromal tissues to first infiltrate sites of tissue damage, inflammation, or neoplasia and then differentiate. Nevertheless, the molecular mechanisms supporting the ability of hMSCs to remodel 3-dimensional (3D) collagenous barriers during trafficking or differentiation remain undefined. Herein, we demonstrate that hMSCs degrade and penetrate type I collagen networks in tandem with the expression of a 5-member set of collagenolytic matrix metalloproteinases (MMPs). Specific silencing of each of these proteases reveals that only a single membrane-tethered metalloenzyme, termed MT1-MMP, plays a required role in hMSC-mediated collagenolysis, 3D invasion, and intravasation. Further, once confined within type I collagen-rich tissue, MT1-MMP also controls hMSC differentiation in a 3D-specific fashion. Together, these data demonstrate that hMSC invasion and differentiation programs fall under the control of the pericellular collagenase, MT1-MMP.
摘要
人骨髓间充质干细胞(hMSCs)定位于骨髓、非造血器官以及血管周围龛,被认为通过富含 I 型胶原的基质组织在体内迁移,从而首先渗透到组织损伤、炎症或肿瘤部位,然后再分化。然而,支持 hMSCs 在迁移或分化过程中重塑 3 维(3D)胶原屏障的分子机制仍未明确。在此,我们证明 hMSCs 在表达一系列 5 种胶原降解基质金属蛋白酶(MMPs)的同时降解和穿透 I 型胶原网络。对这些蛋白酶中的每一种进行特异性沉默表明,只有一种膜结合的金属蛋白酶,称为 MT1-MMP,在 hMSC 介导的胶原降解、3D 浸润和血管内渗中发挥必需作用。此外,一旦局限在富含 I 型胶原的组织中,MT1-MMP 也以 3D 特异性方式控制 hMSC 的分化。总之,这些数据表明 hMSC 的浸润和分化程序受细胞周胶原酶 MT1-MMP 的控制。
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