Weak binding and removal of extrinsic proteinase activities of myelin membranes.

U Haas, H H Berlet
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引用次数: 1

Abstract

The concurrent release of myelin basic protein (MBP) and extrinsic proteinases from isolated myelin membranes by aqueous solvents of high ionic strength is considered circumstantial evidence of a presumptive mutual interaction in situ. The joint release of proteins and proteinases from myelin membranes of bovine brain, depending on the ionic strength of aqueous solvents, was therefore examined; 25 mM Tris buffer released an average 1.4% of total myelin protein. It was attributable to about 25 different electrophoretic bands, but no apparent MBP. However, the extract potently mediated the limited proteolysis of added MBP at pH 4.0, 5.6, and 9.0. Because of the pH and the effects of specific inhibitors, proteolysis appears to be owing to activities of cathepsin B and D, and an alkaline metalloproteinase. The subsequent extraction of myelin membranes with buffered 300 mM NaCl released an additional 20% of total myelin protein, mainly MBP. The extracts, unlike those of untreated myelin membranes, no longer cleaved MBP at pH 5.6 and 9.0, and did so only slightly at pH 4.0. The results indicate that the bulk of soluble myelin-associated proteinases is much less tightly bound than MBP. The weak binding of the former and the prevalence of lysosomal cathepsin B- and D-like activities suggest that during their isolation, myelin membranes may adsorb soluble cellular proteins of tissue homogenates. At any rate the washing of myelin membranes with dilute buffer was found to largely remove soluble proteinase activities that are otherwise associated with salt-soluble MBP of myelin.

髓鞘膜外蛋白酶活性的弱结合和去除。
髓鞘碱性蛋白(MBP)和外源性蛋白酶在高离子强度水溶液中从分离的髓鞘膜同时释放,被认为是推测相互作用的间接证据。因此,研究了蛋白质和蛋白酶从牛脑髓鞘膜的联合释放,这取决于水溶剂的离子强度;25 mM Tris缓冲液平均释放总髓磷脂蛋白的1.4%。这可归因于大约25个不同的电泳带,但没有明显的MBP。然而,提取物在pH 4.0、5.6和9.0时能有效介导添加的MBP的有限蛋白水解。由于pH值和特定抑制剂的作用,蛋白质水解似乎是由于组织蛋白酶B和D以及碱性金属蛋白酶的活性。随后用缓冲的300 mM NaCl提取髓鞘膜,释放出20%的髓鞘蛋白,主要是MBP。与未处理的髓鞘膜不同,提取物在pH 5.6和9.0时不再裂解MBP,在pH 4.0时仅轻微裂解。结果表明,大部分可溶性髓磷脂相关蛋白酶的结合紧密程度远低于MBP。前者的弱结合和溶酶体组织蛋白酶B和d样活性的普遍存在表明,在它们的分离过程中,髓鞘膜可能吸附组织匀浆中的可溶性细胞蛋白。无论如何,用稀释缓冲液洗涤髓鞘膜被发现在很大程度上去除可溶性蛋白酶活性,否则与髓鞘的盐溶性MBP相关。
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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