Correlation of lysozyme activity with proteoglycan biosynthesis in epiphyseal cartilage.

Calcified Tissue Research Pub Date : 1978-12-08 DOI:10.1007/BF02013252

A Schmidt, U Rodegerdts, E Buddecke

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引用次数: 2

Abstract

Pig epiphyseal cartilage (proximal ulna epiphysis) previously incubated into vitro in the presence of sodium [35S]sulfate or [3H]thymidine was either analyzed by autoradiography or separated into 9 morphologically defined consecutive layers and investigated for 35S-incorporation into the guanidinium chloride-extractable proteoglycans and for lysozyme activity. The lowest 35S incorporation and lysozyme activity were determined in the zone of resting cells, but there is a consecutive increase in the rate of proteoglycan synthesis and lysozyme activity toward the diaphyseal cartilage-bone junction, with the maximum at the lower columnar cell zone and a sharp reduction of both parameters at the hypertrophic zone. The maxima of 35S incorporation and [3H]thymidine incorporation do not coincide. The guanidinium chloride-soluble proteoglycans exhibit macromolecular polydispersity. Fractions excluded from as well as retarded by Sepharose 2B gel could be separated and were detected in all zones. The results indicate a correlation of proteoglycan biosynthesis and lysozyme activity in epiphyseal cartilage.

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溶菌酶活性与骨骺软骨蛋白多糖生物合成的关系。

猪骨骺软骨(近端尺骨骺)先前在硫酸钠[35S]或胸苷[3H]存在下体外培养，通过放射自显影分析，或将其分成9个形态学上确定的连续层，并研究35S与氯胍可提取的蛋白聚糖的结合情况和溶菌酶活性。在静息细胞区35S掺入和溶菌酶活性最低，但在骨干软骨-骨连接处蛋白多糖合成率和溶菌酶活性连续增加，在下柱状细胞区最高，在肥大区这两个参数急剧降低。35S掺入和[3H]胸苷掺入的最大值不一致。氯胍可溶性蛋白多糖表现出大分子多分散性。Sepharose 2B凝胶排除和阻滞的部分均可分离，各区均可检测。结果表明，骨骺软骨中蛋白多糖的生物合成与溶菌酶活性存在相关性。

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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Calcified Tissue Research

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