细胞外基质降解中尿激酶生成细胞和受体生成细胞之间的互补。

P H Quax, N Pedersen, M T Masucci, E J Weening-Verhoeff, K Danø, J H Verheijen, F Blasi
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引用次数: 81

摘要

研究了尿激酶纤溶酶原激活物(u-PA)和u-PA受体在细胞外基质降解中的作用。人前u-PA和人u-PA受体分别在两种不同的小鼠LB6细胞系中独立表达。研究了这些细胞系单独或共培养对基质的降解能力。虽然在纤溶酶原存在的情况下,产生u- pa原的细胞单独降解基质,但产生u- pa受体的细胞不会降解基质。一小部分产生前u- pa的细胞与产生受体的细胞共培养可使基质降解率增加至少三倍。免疫沉淀法表明,两种细胞系的共培养增加了无活性的前u-PA向活性的双链u-PA的转化。基质降解和pro-u-PA活化的增强需要pro-u-PA与其受体的实际结合,因为它被u- pa受体拮抗剂抑制。u-PA受体必须与细胞相关,因为在纤溶酶原存在的情况下,前u-PA与磷脂酰肌醇特异性磷脂酶C从细胞表面溶解的受体结合并没有增强前u-PA的激活。当u-PA与其受体结合时,即使受体是由不同的细胞产生,其活性也会增强,这一发现可能对体内u-PA诱导的细胞外蛋白水解机制具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Complementation between urokinase-producing and receptor-producing cells in extracellular matrix degradation.

The respective roles of urokinase plasminogen activator (u-PA) and the u-PA receptor in extracellular matrix degradation was investigated. Human pro-u-PA and the human u-PA receptor were expressed independently by two different mouse LB6 cell lines. The matrix degradation capacity of these cell lines individually or in coculture was studied. Although pro-u-PA-producing cells alone degrade the matrix in the presence of plasminogen, u-PA-receptor producing cells do not. Cocultivation of a small fraction of pro-u-PA-producing cells with the receptor-producing cells increases the rate of matrix degradation at least threefold. By immunoprecipitation it was shown that cocultivation of the two cell lines increases the conversion of the inactive pro-u-PA to the active two chain u-PA. The enhancement of matrix degradation and of pro-u-PA activation requires actual binding of pro-u-PA to its receptor because it is inhibited by u-PA-receptor antagonists. The u-PA receptor must be cell associated, as binding of pro-u-PA to a receptor solubilized from the cell surface with phosphatidyl-inositol specific phospholipase C did not enhance the activation of pro-u-PA in the presence of plasminogen. The finding that activity of u-PA is enhanced when it is bound to its receptor, even when the receptor is produced by a different cell, might have important implications for the mechanisms of u-PA-induced extracellular proteolysis in vivo.

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