甲状腺刺激素中寡糖链的生化作用，甲状腺刺激素是一种由糖蛋白激素亚基α2（GPA2）和β5（GPB5）组成的异二聚体激素。

Biochemical roles of the oligosaccharide chains in thyrostimulin, a heterodimeric hormone of glycoprotein hormone subunits alpha 2 (GPA2) and beta 5 (GPB5).

作者信息

Okajima Yoshiki, Nagasaki Hiroshi, Suzuki Chizuko, Suga Hidetaka, Ozaki Nobuaki, Arima Hiroshi, Hamada Yoji, Civelli Olivier, Oiso Yutaka

机构信息

Department of Endocrinology and Diabetes, Nagoya University Graduate School of Medicine, Japan.

出版信息

Regul Pept. 2008 Jun 5;148(1-3):62-7. doi: 10.1016/j.regpep.2008.03.002. Epub 2008 Mar 18.

DOI:10.1016/j.regpep.2008.03.002

PMID:18433898

Abstract

Thyrostimulin is a heterodimeric hormone composed of GPA2 and GPB5, and shares the thyroid-stimulating hormone receptor (TSHR). Thyrostimulin has three N-linked oligosaccharide chains, two in GPA2 and one in GPB5. The roles of these N-linked oligosaccharides in secretion, heterodimer formation and signal transduction were analyzed. Recombinant GPA2s lacking either of the two oligosaccharides were obtained from conditioned medium, whereas dual site-disrupted GPA2 and the GPB5 mutant were not expressed in either the conditioned medium or cell lysate. The binding between GPA2 and GPB5 was weaker than that between TSH subunits GPA1 and TSH beta. Neither of the oligosaccharides in GPA2 had significant effects on heterodimerization. Disruption of either of the oligosaccharides in GPA2 significantly decreased receptor activation, suggesting their critical role in receptor activation.

摘要

甲状腺刺激素是一种由GPA2和GPB5组成的异源二聚体激素，与促甲状腺激素受体（TSHR）共享。甲状腺刺激素有三条N-连接寡糖链，两条在GPA2中，一条在GPB5中。分析了这些N-连接寡糖在分泌、异源二聚体形成和信号转导中的作用。从条件培养基中获得了缺少两条寡糖中任何一条的重组GPA2，而双位点破坏的GPA2和GPB5突变体在条件培养基或细胞裂解物中均未表达。GPA2和GPB5之间的结合比促甲状腺激素亚基GPA1和促甲状腺激素β之间的结合弱。GPA2中的两种寡糖对异源二聚化均无显著影响。GPA2中任何一种寡糖的破坏都会显著降低受体激活，表明它们在受体激活中起关键作用。

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甲状腺刺激素中寡糖链的生化作用，甲状腺刺激素是一种由糖蛋白激素亚基α2（GPA2）和β5（GPB5）组成的异二聚体激素。

Biochemical roles of the oligosaccharide chains in thyrostimulin, a heterodimeric hormone of glycoprotein hormone subunits alpha 2 (GPA2) and beta 5 (GPB5).

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