Moore A R, Appelboam A, Kawabata K, Da Silva J A, D'Cruz D, Gowland G, Willoughby D A
Department of Experimental Pathology, St Bartholomew's, London.
Ann Rheum Dis. 1999 Feb;58(2):109-13. doi: 10.1136/ard.58.2.109.
Neutrophil elastase accounts for the ability of some fresh rheumatoid synovial fluids to degrade cartilage matrix in vitro. The aim of this study was to determine if enzyme activity could result from depletion of synovial fluid inhibitors or protection of the enzyme from inhibition.
The ability of synovial fluids to inhibit porcine pancreatic elastase was investigated together with chemical pretreatments capable of inactivating alpha 1 protease inhibitor (alpha 1PI) or preventing formation of alpha 2 macroglobulin (alpha 2M) elastase complexes. Subsequently, complexes of human neutrophil elastase with alpha 2M were prepared and applied to frozen sections of cartilage. Proteoglycan loss was quantified by alcian blue staining and scanning and integrating microdensitometry. Parallel studies were carried out using a low molecular weight chromogenic elastase substrate. The effects of alpha 1PI and SF on these systems were investigated. Finally, synovial fluids were subjected to gel filtration and the fractions assayed for elastase activity. High molecular weight fractions were pooled, concentrated, and tested for their ability to degrade cartilage sections.
All synovial fluids reduced the activity of porcine pancreatic elastase, the inhibition mainly being attributable to alpha 1PI, whereas remaining activity resulted from complexes of elastase with alpha 2M. Complexes of human neutrophil elastase with alpha 2M were shown to cause proteoglycan degradation in frozen sections of human articular cartilage. Alpha 1PI prevented alpha 2M elastase complexes from degrading cartilage but not the chromogenic substrate. The data suggested that alpha 1PI does not inhibit elastase bound to alpha 2M but sterically hinders the complex. However, only one of five synovial fluids was able to completely block the actions of alpha 2M elastase complexes against cartilage. Gel filtration of rheumatoid synovial fluids showed elastase and cartilage degrading activity to be associated with fractions that contained alpha 2M, and not with fractions expected to contain free enzyme.
The data suggest that synovial fluid alpha 2M elastase complexes can degrade cartilage matrix in rheumatoid arthritis.
中性粒细胞弹性蛋白酶可导致某些新鲜类风湿性滑液在体外降解软骨基质。本研究旨在确定酶活性是否源于滑液抑制剂的消耗或酶免受抑制的保护作用。
研究了滑液抑制猪胰弹性蛋白酶的能力,以及能够使α1蛋白酶抑制剂(α1PI)失活或阻止α2巨球蛋白(α2M)弹性蛋白酶复合物形成的化学预处理方法。随后,制备了人中性粒细胞弹性蛋白酶与α2M的复合物,并将其应用于软骨冰冻切片。通过阿尔新蓝染色以及扫描和积分显微密度测定法定量蛋白聚糖损失。使用低分子量发色弹性蛋白酶底物进行平行研究。研究了α1PI和滑液对这些系统的影响。最后,对滑液进行凝胶过滤,并对各馏分进行弹性蛋白酶活性测定。合并高分子量馏分,浓缩后测试其降解软骨切片的能力。
所有滑液均降低了猪胰弹性蛋白酶的活性,这种抑制主要归因于α1PI,而剩余活性则源于弹性蛋白酶与α2M的复合物。已证明人中性粒细胞弹性蛋白酶与α2M的复合物可导致人关节软骨冰冻切片中的蛋白聚糖降解。α1PI可阻止α2M弹性蛋白酶复合物降解软骨,但不能阻止发色底物降解。数据表明,α1PI不会抑制与α2M结合的弹性蛋白酶,而是在空间上阻碍该复合物。然而,五种滑液中只有一种能够完全阻断α2M弹性蛋白酶复合物对软骨的作用。类风湿性滑液的凝胶过滤显示,弹性蛋白酶和软骨降解活性与含有α2M的馏分相关,而与预期含有游离酶的馏分无关。
数据表明,滑液α2M弹性蛋白酶复合物可在类风湿性关节炎中降解软骨基质。