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纤连蛋白中的结构域间关联:对隐蔽位点和纤维形成的见解。

Interdomain association in fibronectin: insight into cryptic sites and fibrillogenesis.

作者信息

Vakonakis Ioannis, Staunton David, Rooney Luke M, Campbell Iain D

机构信息

The Department of Biochemistry, University of Oxford, Oxford, UK.

出版信息

EMBO J. 2007 May 16;26(10):2575-83. doi: 10.1038/sj.emboj.7601694. Epub 2007 Apr 26.

DOI:10.1038/sj.emboj.7601694
PMID:17464288
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1868906/
Abstract

The process by which fibronectin (FN), a soluble multidomain protein found in tissue fluids, forms insoluble fibrillar networks in the extracellular matrix is poorly understood. Cryptic sites found in FN type III domains have been hypothesized to function as nucleation points, thereby initiating fibrillogenesis. Exposure of these sites could occur upon tension-mediated mechanical rearrangement of type III domains. Here, we present the solution structures of the second type III domain of human FN ((2)FNIII), and that of an interaction complex between the first two type III domains ((1-2)FNIII). The two domains are connected through a long linker, flexible in solution. A weak but specific interdomain interaction maintains (1-2)FNIII in a closed conformation that associates weakly with the FN N-terminal 30 kDa fragment (FN30 kDa). Disruption of the interdomain interaction by amino-acid substitutions dramatically enhances association with FN30 kDa. Truncation analysis of (1-2)FNIII reveals that the interdomain linker is necessary for robust (1-2)FNIII-FN30 kDa interaction. We speculate on the importance of this interaction for FN function and present a possible mechanism by which tension could initiate fibrillogenesis.

摘要

纤连蛋白(FN)是一种存在于组织液中的可溶性多结构域蛋白,其在细胞外基质中形成不溶性纤维网络的过程尚不清楚。III型结构域中发现的隐蔽位点被认为可作为成核点,从而启动纤维形成。这些位点的暴露可能发生在III型结构域受张力介导的机械重排过程中。在此,我们展示了人FN的第二个III型结构域((2)FNIII)以及前两个III型结构域之间的相互作用复合物((1-2)FNIII)的溶液结构。这两个结构域通过一个在溶液中具有柔性的长连接子相连。一种微弱但特异的结构域间相互作用使(1-2)FNIII保持在一种与FN N端30 kDa片段(FN30 kDa)弱结合的封闭构象。通过氨基酸替换破坏结构域间相互作用会显著增强与FN30 kDa的结合。对(1-2)FNIII的截短分析表明结构域间连接子对于稳定的(1-2)FNIII-FN30 kDa相互作用是必需的。我们推测了这种相互作用对FN功能的重要性,并提出了一种张力可能启动纤维形成的机制。

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