Direct Evidence for Active Metalloproteinases Mediating Matrix Degradation in Interleukin 1-Stimulated Human Articular Cartilage

Matrix (Stuttgart, Germany) Pub Date : 1993-03-01 DOI:10.1016/S0934-8832(11)80068-5

John S. Mort , George R. Dodge , Peter J. Roughley , Jane Liu , Susan J. Finch , Gene Dipasquale , A. Robin Poole

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引用次数: 96

Abstract

When adult human articular cartilage was maintained in organ culture in the presence of interleukin 1β, increased destruction of the extracellular matrix was observed, as judged by increased type II collagen degradation in situ determined immunohistochemically and the increased release of proteoglycan into the culture medium. Concomitant with these changes was the increased release of latent metalloproteinases into the culture medium. Culture of cartilage in the presence of a peptidylhydroxamate metalloproteinase inhibitor indicated a key role for the active forms of these enzymes in situ, since it produced a marked reduction in both proteoglycan release and collagen degradation. This compound had no detectable cytotoxic effects in organ culture and did not reduce the secretion of the metalloproteinases. The results of this study provide direct evidence that the latent metalloproteinase precursors, whose release is greatly stimulated by interleukin 1, are indeed activated to some degree and participate in cartilage matrix degradation.

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活性金属蛋白酶介导白细胞介素1刺激的人关节软骨基质降解的直接证据

当成人关节软骨在白细胞介素1β存在的情况下维持在器官培养中时，观察到细胞外基质的破坏增加，通过免疫组织化学原位测定的II型胶原降解增加和蛋白多糖释放到培养基中的增加来判断。伴随这些变化的是潜在金属蛋白酶释放到培养基中的增加。在存在肽基羟酸金属蛋白酶抑制剂的情况下，软骨的培养表明，这些酶的活性形式在原位发挥了关键作用，因为它显著减少了蛋白多糖的释放和胶原蛋白的降解。该化合物在器官培养中没有检测到细胞毒性作用，也没有减少金属蛋白酶的分泌。本研究结果直接证明了潜伏的金属蛋白酶前体确实在一定程度上被激活并参与软骨基质降解，其释放受到白细胞介素1的极大刺激。

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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Matrix (Stuttgart, Germany)

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