Belville Corinne, Van Vlijmen Herman, Ehrenfels Christian, Pepinsky Blake, Rezaie Alireza R, Picard Jean-Yves, Josso Nathalie, di Clemente Nathalie, Cate Richard L
Unité de REcherches sur l'Endocrinologie du Développement (Institut National de la Santé et de la Recherche Médicale), Clamart, France.
Mol Endocrinol. 2004 Mar;18(3):708-21. doi: 10.1210/me.2003-0358. Epub 2003 Dec 12.
Anti-Müllerian hormone (AMH), a TGF-beta family member, determines whether an individual develops a uterus and Fallopian tubes. Mutations in the AMH gene lead to persistent Müllerian duct syndrome in males. The wild-type human AMH protein is synthesized as a disulfide-linked dimer of two identical 70-kDa polypeptides, which undergoes proteolytic processing to generate a 110-kDa N-terminal dimer and a bioactive 25-kDa TGF-beta-like C-terminal dimer. We have studied the biosynthesis and secretion of wild-type AMH and of seven persistent Müllerian duct syndrome proteins, containing mutations in either the N- or C-terminal domain. Mutant proteins lacking the C-terminal domain are secreted more rapidly than full-length AMH, whereas single amino acid changes in both domains can have profound effects on protein stability and folding. The addition of a cysteine in an N-terminal domain mutant, R194C, prevents proper folding, whereas the elimination of the cysteine involved in forming the interchain disulfide bond, in a C-terminal domain mutant, C525Y, leads to a truncation at the C terminus. A molecular model of the AMH C-terminal domain provides insights into how some mutations could affect biosynthesis and function.
抗苗勒管激素(AMH)是转化生长因子-β(TGF-β)家族的成员之一,它决定个体是否发育出子宫和输卵管。AMH基因的突变会导致男性出现持续性苗勒管综合征。野生型人类AMH蛋白由两个相同的70 kDa多肽通过二硫键连接形成二聚体合成,该二聚体经过蛋白水解加工后产生一个110 kDa的N端二聚体和一个具有生物活性的25 kDa的TGF-β样C端二聚体。我们研究了野生型AMH以及七种持续性苗勒管综合征蛋白的生物合成和分泌情况,这些突变蛋白的N端或C端结构域存在突变。缺少C端结构域的突变蛋白比全长AMH分泌得更快,而两个结构域中的单个氨基酸变化都可能对蛋白质的稳定性和折叠产生深远影响。在N端结构域突变体R194C中添加一个半胱氨酸会阻止正确折叠,而在C端结构域突变体C525Y中消除形成链间二硫键的半胱氨酸会导致C端截短。AMH C端结构域的分子模型为一些突变如何影响生物合成和功能提供了见解。
