Cell-ECM interactions in development

Seminars in Developmental Biology Pub Date : 1995-04-01 DOI:10.1016/S1044-5781(06)80024-1

M. Martins-Green , M.J. Bissell

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引用次数: 47

Abstract

Interactions of cells with extracellular matrix molecules play a crucial role in development. There is continuous crosstalk between cells and molecules of the extracellular matrix which leads to development of patterns, morphogenesis, differentiation and maintenance of the differentiated phenotype. Many specific receptors for matrix molecules have been identified but we propose here that most processes resulting from matrix-receptor interactions fall into three categories which correspond to different developmental events: (i) cell adhesion/de-adhesion during migration mostly involves interactions via integrin and proteoglycan receptors and their association with cytoskeletal elements; (ii) expression of specific genes during differentiation involves interaction with basement membrane components via integrin recptors and with soluble factors via their receptors; (iii) morphogenesis of epithelial organs, morphogenesis involving cell death, and epithelial-to-mesenchymal transitions involve interactions with ECM that is undergoing remodeling via receptors for enzymes, integrins, proteoglycans and soluble factors

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细胞- ecm在发育过程中的相互作用

细胞与细胞外基质分子的相互作用在发育过程中起着至关重要的作用。细胞与细胞外基质分子之间存在着连续的串扰，导致了模式的发展、形态发生、分化和分化表型的维持。许多基质分子的特异性受体已经被确定，但我们在这里提出，大多数由基质-受体相互作用引起的过程可分为三类，它们对应于不同的发育事件:(i)迁移过程中的细胞粘附/去粘附主要涉及通过整合素和蛋白聚糖受体及其与细胞骨架元件的相互作用;(ii)分化过程中特定基因的表达涉及通过整合素受体与基底膜组分的相互作用，以及通过其受体与可溶性因子的相互作用;(iii)上皮器官的形态发生，涉及细胞死亡的形态发生，以及上皮向间质转变涉及与正在通过酶、整合素、蛋白聚糖和可溶性因子受体进行重塑的ECM的相互作用

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Seminars in Developmental Biology

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