Studies on cartilage formation. XXII. Investigations of certain oxidative metabolic processes in regenerating articular cartilage.

C Hadházy, M B László, T Glant, E H Oláh
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Abstract

The distal articular surface of the femur was surgically removed in 57 dogs. Succinate dehydrogenase and cytochrome oxidase activities were assayed on postoperative days 7, 20, 26, 33 and 70 in the regenerating, chondrifying articular surface and in the granulation tissue adhering to the capsule. In the 70-day samples, the cyanide-induced inhibition of oxygen consumption was determined and enzyme histochemical reactions (cytochrome oxidase, monoamine oxidase, xanthine oxidase, peroxidase and "catalase") were performed. The succinate dehydrogenase activity was the highest in the early postoperative stage in both tissues. This was followed by a definite decrease and a subsequent significant increase in activity when chondrification took place. Measurement of cytochrome oxidase activity could not reveal any convincing result, presumably because of the properties of the tissues studied. The oxygen consumption by the chondrifying articular surface at 70 days was inhibited to about 50% by cyanide, and about 90% inhibition was observed in the tissue adhering to the capsule. The cells of the regenerating articular surface possess cytochrome oxidase and a cyanide- (and sodium azide-) resistant oxidase activity. The enzyme activity of the cartilaginous islets exceeded that of their connective tissue environment. The cytochrome oxidase activity increased in the cells during cartilage differentiation. Presumably, some further cyanide-sensitive and cyanide-resistant oxidases are present in chondroblasts and young chondrocytes.

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软骨形成的研究。第二十二。关节软骨再生中某些氧化代谢过程的研究。
57只狗股骨远端关节面手术切除。术后第7、20、26、33和70天测定再生软骨关节面和粘附在胶囊上的肉芽组织的琥珀酸脱氢酶和细胞色素氧化酶活性。在70天的样品中,测定氰化物诱导的氧气消耗抑制作用,并进行酶组织化学反应(细胞色素氧化酶、单胺氧化酶、黄嘌呤氧化酶、过氧化物酶和过氧化氢酶)。术后早期两组组织中琥珀酸脱氢酶活性最高。当软骨化发生时,活动明显减少,随后显著增加。细胞色素氧化酶活性的测量无法显示任何令人信服的结果,可能是因为所研究组织的性质。氰化物对70 d软骨关节表面耗氧量的抑制作用约为50%,对胶囊粘附组织的抑制作用约为90%。再生关节表面的细胞具有细胞色素氧化酶和抗氰化物(和叠氮化钠)氧化酶活性。软骨胰岛的酶活性高于其结缔组织环境。细胞色素氧化酶活性在软骨分化过程中增加。据推测,在成软骨细胞和幼年软骨细胞中还存在一些对氰化物敏感和抗氰化物的氧化酶。
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