透明质酸和硫酸软骨素与肝内皮细胞的结合。

Binding of hyaluronate and chondroitin sulphate to liver endothelial cells.

作者信息

Laurent T C, Fraser J R, Pertoft H, Smedsrød B

出版信息

Biochem J. 1986 Mar 15;234(3):653-8. doi: 10.1042/bj2340653.

DOI:10.1042/bj2340653

PMID:3087347

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1146621/

Abstract

Hyaluronate is taken up and metabolized in liver endothelial cells by means of a receptor. To characterize the interaction with the receptor, two preparations of 3H-labelled hyaluronate, of Mr 4 X 10(5) and 6.4 X 10(6), and a series of hyaluronate oligosaccharides were bound to cultured liver endothelial cells at 7 degrees C. The dissociation constant varied between 4.6 X 10(-6) M for an octasaccharide and 9 X 10(-12) M for the largest polymer. The Mr-dependence for the series of oligosaccharides was explained by the increased probability of binding due to the repetitive sequence along the chain. The high affinity of high-Mr hyaluronate for the receptor could also be mainly ascribed to this effect, which rules out any major contribution of co-operative multiple-site attachment to the cell surface. Each liver endothelial cell can bind 10(5) oligosaccharides, about 10(4) molecules with Mr 4 X 10(5) and about 10(3) molecules with Mr 6.4 X 10(6). This is explained by mutual exclusion of large molecules from the cell surface. Chondroitin sulphate is also bound to liver endothelial cells. Inhibition studies showed that it binds to the same receptor as hyaluronate and with an affinity that is about 3-fold higher than that of hyaluronate of the same degree of polymerization.

摘要

透明质酸盐通过一种受体在肝内皮细胞中被摄取和代谢。为了表征与该受体的相互作用，将两种分子量分别为4×10⁵和6.4×10⁶的³H标记透明质酸盐制剂以及一系列透明质酸寡糖在7℃下与培养的肝内皮细胞结合。解离常数在八糖的4.6×10⁻⁶M和最大聚合物的9×10⁻¹²M之间变化。该系列寡糖对分子量的依赖性可通过链上重复序列导致结合概率增加来解释。高分子量透明质酸盐对受体的高亲和力也主要归因于这种效应，这排除了协同多位点附着于细胞表面的任何主要贡献。每个肝内皮细胞可以结合10⁵个寡糖，约10⁴个分子量为4×10⁵的分子和约10³个分子量为6.4×10⁶的分子。这可通过大分子从细胞表面的相互排斥来解释。硫酸软骨素也与肝内皮细胞结合。抑制研究表明，它与透明质酸盐结合到相同的受体上，并且亲和力比相同聚合度的透明质酸盐高约3倍。

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