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葡萄糖苷酶抑制剂野尻霉素和脱氧野尻霉素对膜糖蛋白和分泌性糖蛋白生物合成的影响。

Effects of the glucosidase inhibitors nojirimycin and deoxynojirimycin on the biosynthesis of membrane and secretory glycoproteins.

作者信息

Peyrieras N, Bause E, Legler G, Vasilov R, Claesson L, Peterson P, Ploegh H

出版信息

EMBO J. 1983;2(6):823-32. doi: 10.1002/j.1460-2075.1983.tb01509.x.

DOI:10.1002/j.1460-2075.1983.tb01509.x
PMID:6227481
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC555196/
Abstract

The glucosidase inhibitors nojirimycin (NM) and 1-deoxynojirimycin (dNM) interfere with N-linked glycosylation. The effects of NM and dNM on the biosynthesis of secretory glycoproteins (IgD and IgM) and membrane glycoproteins (HLA-A, B, C and -DR antigens) have been examined. Whereas treatment of IgD- and IgM-producing cells with NM results in the transfer of drastically shortened oligosaccharide side chains, treatment with dNM inhibits trimming, most probably through interaction with glucosidase I and/or II. A comparison of NM and dNM with tunicamycin and the mannosidase inhibitor swainsonine (SW) show that each of the inhibitors interferes with N-linked glycosylation in a distinct manner. For both Ig and HLA antigens, the effects of SW are discernible at the final stages of glycan maturation only, whereas the effects of dNM are observed quite early in the biosynthetic process. The secretion of IgD, but not IgM, was blocked in dNM-treated cells. The HLA-A, B, C heavy chains synthesized by the Daudi cell line were degraded in an accelerated fashion in dNM-treated cells, but no effects were seen on the HLA-DR antigens in these cells. Although both SW and dNM interfere with trimming, further modifications of the oligosaccharide side chains occur, and show that the two processes are not obligately coupled. Glucosidase inhibitors such as NM and dNM, as well as the mannosidase inhibitor SW, allow modification of glycan structure, and may be used to study the biological role of glycoprotein oligosaccharides and their modifications.

摘要

葡萄糖苷酶抑制剂野尻霉素(NM)和1-脱氧野尻霉素(dNM)会干扰N-连接糖基化。已研究了NM和dNM对分泌性糖蛋白(IgD和IgM)及膜糖蛋白(HLA-A、B、C和-DR抗原)生物合成的影响。用NM处理产生IgD和IgM的细胞会导致寡糖侧链大幅缩短,而用dNM处理则会抑制修剪,很可能是通过与葡萄糖苷酶I和/或II相互作用实现的。将NM和dNM与衣霉素及甘露糖苷酶抑制剂苦马豆素(SW)进行比较表明,每种抑制剂都以独特的方式干扰N-连接糖基化。对于Ig和HLA抗原,SW的作用仅在聚糖成熟的最后阶段才可察觉,而dNM的作用在生物合成过程的早期即可观察到。在dNM处理的细胞中,IgD的分泌受到阻断,但IgM不受影响。Daudi细胞系合成的HLA-A、B、C重链在dNM处理的细胞中以加速方式降解,但这些细胞中的HLA-DR抗原未受影响。尽管SW和dNM都干扰修剪,但寡糖侧链会发生进一步修饰,这表明这两个过程并非必然耦合。像NM和dNM这样的葡萄糖苷酶抑制剂以及甘露糖苷酶抑制剂SW可用于修饰聚糖结构,并且可用于研究糖蛋白寡糖及其修饰的生物学作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9b04/555196/deed3bda0280/emboj00259-0029-b.jpg
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