Plasminogen activators and matrix metalloproteinases in angiogenesis.

Enzyme & protein Pub Date : 1996-01-01 DOI:10.1159/000468621
P Mignatti, D B Rifkin
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引用次数: 342

Abstract

In the initial stages of capillary formation (angiogenesis) microvascular endothelial cells of preexisting blood vessels locally degrade the underlying basal lamina and invade into the stroma of the tissue to be vascularized. A consistent body of experimental evidence has shown that this process requires a wide array of dedradative enzymes. Components of the plasminogen activator (PA)-plasmin system and of the matrix metalloproteinase (MMP) family play important roles. PAs trigger a proteinase cascade that results is the generation of high local concentrations of plasmin and active MMPs. This increase in proteolytic activity has three major consequences: it permits endothelial cell degradation and invasion of the vessel basal lamina, generates extracellular matrix (ECM) degradation products that are chemotactic for endothelial cells, and activates and mobilizes growth factors localized in the ECM. In addition, urokinase-type PA modulates some endothelial cell functions, including proliferation and migration, with a mechanism independent of proteolytic activity. PA and MMP activities are modulated in endothelial cells by complex mechanisms, including transcriptional regulation by a variety of growth factors and cytokines with angiogenic activity, extracellular control of the proteolytic activities by tissue inhibitors, and interaction with binding sites on the cell membrane and ECM.

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血管生成中的纤溶酶原激活剂和基质金属蛋白酶。
在毛细血管形成(血管生成)的初始阶段,先前存在的血管的微血管内皮细胞局部降解下的基底层,并侵入待血管化组织的基质。一致的实验证据表明,这一过程需要广泛的降解酶。纤溶酶原激活剂(PA)-纤溶酶系统和基质金属蛋白酶(MMP)家族的组成部分起着重要的作用。PAs触发一个蛋白酶级联反应,其结果是产生高浓度的局部纤溶蛋白和活性MMPs。这种蛋白水解活性的增加有三个主要后果:它允许内皮细胞降解和侵入血管基板,产生对内皮细胞具有趋化作用的细胞外基质(ECM)降解产物,激活和动员定位于ECM的生长因子。此外,尿激酶型PA调节一些内皮细胞功能,包括增殖和迁移,其机制独立于蛋白水解活性。PA和MMP活性在内皮细胞中通过复杂的机制进行调节,包括多种生长因子和具有血管生成活性的细胞因子的转录调节,组织抑制剂对蛋白水解活性的胞外控制,以及与细胞膜和ECM结合位点的相互作用。
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Mechanisms controlling the transcription of matrix metalloproteinase genes in normal and neoplastic cells. What structure and function of avian plasminogen activator and matrix metalloproteinase-2 reveal about their counterpart mammalian enzymes, their regulation and their role in tumor invasion. Proteases associated with invadopodia, and their role in degradation of extracellular matrix. Cooperation between matrix metalloproteinases and the plasminogen activator-plasmin system in tumor progression. Urokinase plasminogen activator as a predictor of aggressive disease in breast cancer.
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