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内源性β-聚糖对于促性腺激素细胞中高效抑制素拮抗作用至关重要。

Endogenous betaglycan is essential for high-potency inhibin antagonism in gonadotropes.

作者信息

Wiater Ezra, Lewis Kathy A, Donaldson Cynthia, Vaughan Joan, Bilezikjian Louise, Vale Wylie

机构信息

Clayton Foundation Laboratories for Peptide Biology, The Salk Institute for Biological Studies, La Jolla, California 92037, USA.

出版信息

Mol Endocrinol. 2009 Jul;23(7):1033-42. doi: 10.1210/me.2009-0021. Epub 2009 Apr 16.

DOI:10.1210/me.2009-0021
PMID:19372236
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2703594/
Abstract

Inhibins are endocrine hormones that regulate gametogenesis and reproduction through a negative feedback loop with FSH. Inhibin action involves antagonism of signaling by activin or other TGFbeta family ligands. In transfection assays, antagonism by inhibin can be potentiated by betaglycan, a coreceptor for selected TGFbeta family ligands. We tested whether betaglycan is an obligate inhibin coreceptor through disruption of betaglycan function by RNA interference-mediated knockdown and immunoneutralization. Betaglycan knockdown and anti-betaglycan IgG each independently prevented inhibin-A binding to betaglycan and reversed functional effects of transfected betaglycan. Neither betaglycan immunoneutralization nor knockdown affected activin responsiveness in cell lines or in rat anterior pituitary cultures. Betaglycan knockdown decreased the potency of inhibin antagonism of activin-induced FSH secretion in primary gonadotropes. Similarly, anti-betaglycan IgG decreased the potency of inhibin antagonism in primary gonadotropes in a dose-dependent manner, with a reduction in the sensitivity to inhibin-A of greater than 1000-fold. These data establish that betaglycan is an endogenous inhibin coreceptor required for high-sensitivity inhibin antagonism of activin signaling in rat anterior pituitary gonadotropes.

摘要

抑制素是一种内分泌激素,通过与促卵泡激素(FSH)形成负反馈回路来调节配子发生和生殖。抑制素的作用涉及对激活素或其他转化生长因子β(TGFβ)家族配体信号传导的拮抗作用。在转染实验中,β聚糖(一种选定的TGFβ家族配体的共受体)可增强抑制素的拮抗作用。我们通过RNA干扰介导的敲低和免疫中和来破坏β聚糖的功能,以此测试β聚糖是否为抑制素的必需共受体。β聚糖敲低和抗β聚糖IgG各自独立地阻止了抑制素A与β聚糖的结合,并逆转了转染的β聚糖的功能效应。β聚糖免疫中和或敲低均未影响细胞系或大鼠垂体前叶培养物中的激活素反应性。β聚糖敲低降低了原代促性腺激素细胞中抑制素对激活素诱导的FSH分泌的拮抗效力。同样,抗β聚糖IgG以剂量依赖性方式降低了原代促性腺激素细胞中抑制素的拮抗效力,对抑制素A的敏感性降低了1000倍以上。这些数据表明,β聚糖是大鼠垂体前叶促性腺激素细胞中激活素信号传导的高敏感性抑制素拮抗作用所需的内源性抑制素共受体。

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