Department of Medicine, UCSD School of Medicine, La Jolla, CA, USA.
J Investig Med. 2009 Dec;57(8):856-60. doi: 10.2310/JIM.0b013e3181c5e61f.
How the myocardium undergoes geometric, structural, and molecular alterations that result in an end phenotype as might be seen in patients with dilated cardiomyopathy or after myocardial infarction is still poorly understood. Structural modification of the left ventricle, which occurs during these pathological states, results from long-term changes in loading conditions and is commonly referred to as "remodeling." Remodeling may occur from increased wall stress in the face of hypertensive heart disease, valvular disease, or, perhaps most dramatically, after permanent coronary occlusion. A fundamental derangement of myocyte function is the most common perception for the basis of remodeling, but the role of cells in the heart other than the muscle cell must, of course, be considered. Although studies of the myocyte have been extensive, cardiac fibroblasts have been studied less than myocytes. The fibroblast has a broad range of functions in the myocardium ranging from elaboration and remodeling of the extracellular matrix to communication of a range of signals within the heart, including electrical, chemical, and mechanical ones. Integrins are cell surface receptors that are instrumental in mediating cell-matrix interactions in all cells of the organism, including all types within the myocardium. This review will focus on the role of integrins and related proteins in the remodeling process, with a particular emphasis on the cardiac fibroblast. We will illustrate this function by drawing on 2 unique mouse models with perturbation of proteins linked to integrin function.
心肌如何发生几何、结构和分子改变,最终导致扩张型心肌病或心肌梗死后可能出现的终末表型,目前仍知之甚少。这些病理状态下左心室的结构改变是长期负荷条件变化的结果,通常称为“重构”。重构可能是由于高血压性心脏病、瓣膜病或更严重的永久性冠状动脉闭塞导致的壁应力增加引起的。心肌细胞功能的基本紊乱是重构基础的最常见认识,但心脏中除心肌细胞以外的细胞的作用当然必须考虑。虽然对心肌细胞的研究已经很广泛,但对心肌细胞的研究却比心肌细胞少。成纤维细胞在心肌中有广泛的功能,从细胞外基质的产生和重塑到心脏内各种信号(包括电、化学和机械信号)的传递。整合素是细胞表面受体,在包括心肌在内的所有机体细胞中都介导细胞-基质相互作用。这篇综述将重点介绍整合素及其相关蛋白在重构过程中的作用,特别强调心脏成纤维细胞。我们将通过 2 个具有与整合素功能相关的蛋白扰动的独特小鼠模型来说明这一功能。