组织蛋白酶对软骨蛋白聚糖的降解。蛋白聚糖的异质性及蛋白水解降解途径。
The degradation of cartilage proteoglycans by tissue proteinases. Proteoglycan heterogeneity and the pathway of proteolytic degradation.
作者信息
Roughley P J
出版信息
Biochem J. 1977 Dec 1;167(3):639-46. doi: 10.1042/bj1670639.
Abstract
- CaCl2-extracted proteoglycan from bovine nasal cartilage was degraded by four tissue proteinases till no further decrease in hydroynamic size was obtained. The proteoglycan and its final degradation products were then fractionated by Sepharose 2B chromatography. 2. The average size of the degradation products was least for cathepsin B and lysosomal elastase, and greatest for cathepsin D and cathepsin G. The latter two proteinases also produced degradation products that showed the widest range of sizes. 3. The structure of the degradation products ranged from peptides containing a single glycosaminoglycan chain to those containing twelve or more chains. Of the four proteinases, only cathepsin B produced peptides that contained a single chondroitin sulphate chain. 4. The proteoglycan was very heterogeneous with respect to size and chemical composition. Its behaviour on electrophoresis suggested that at least two genetically distinct core proteins might exist. 5. Irrespective of their structural variations, all proteoglycan molecules were able to interact with hyaluronic acid. In contrast, none of the degradation products were capable of this type of interaction. 6. A pathway for the proteolytic degradation of proteoglycans is postulated in which the sites of initial cleavage may be common to the majority of proteinases, whereas the production of the final clusters is dependent on the specificity of the proteinase. Only those proteinases of broadest specificity can produce single-chain chondroitin sulphate-peptides.
摘要
- 从牛鼻软骨中提取的氯化钙蛋白聚糖被四种组织蛋白酶降解,直至流体力学尺寸不再减小。然后通过琼脂糖2B柱色谱法对蛋白聚糖及其最终降解产物进行分级分离。2. 降解产物的平均尺寸对于组织蛋白酶B和溶酶体弹性蛋白酶最小,对于组织蛋白酶D和组织蛋白酶G最大。后两种蛋白酶还产生了尺寸范围最广的降解产物。3. 降解产物的结构范围从含有单个糖胺聚糖链的肽到含有十二个或更多链的肽。在这四种蛋白酶中,只有组织蛋白酶B产生了含有单个硫酸软骨素链的肽。4. 该蛋白聚糖在大小和化学组成方面非常不均一。其电泳行为表明可能存在至少两种遗传上不同的核心蛋白。5. 无论其结构如何变化,所有蛋白聚糖分子都能够与透明质酸相互作用。相比之下,没有一种降解产物能够进行这种类型的相互作用。6. 推测了蛋白聚糖的蛋白水解降解途径,其中初始切割位点可能是大多数蛋白酶共有的,而最终簇的产生取决于蛋白酶的特异性。只有那些特异性最广的蛋白酶才能产生单链硫酸软骨素肽。
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本文引用的文献
1
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Biochim Biophys Acta. 1961 Dec 9;54:213-26. doi: 10.1016/0006-3002(61)90360-2.
2
Proteinpolysaccharide complex from bovine nasal cartilage. The function of glycoprotein in the formation of aggregates.来自牛鼻软骨的蛋白多糖复合物。糖蛋白在聚集体形成中的作用。
J Biol Chem. 1969 May 10;244(9):2384-96.
3
Properties of fractionated chondroitin sulphate from ox nasal septa.来自牛鼻中隔的硫酸软骨素分级分离物的特性
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4
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Arch Biochem Biophys. 1974 Nov;165(1):427-41. doi: 10.1016/0003-9861(74)90182-9.
5
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J Biol Chem. 1974 Jul 10;249(13):4250-6.
6
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7
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Biochem J. 1970 Dec;120(4):777-85. doi: 10.1042/bj1200777.
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9
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10
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