有袋类动物和人类：雄性性分化中的“后门”二氢睾酮合成。

Of marsupials and men: "Backdoor" dihydrotestosterone synthesis in male sexual differentiation.

机构信息

Department of Medicine, Division of Endocrinology, University of Fribourg, Chemin du Musee 5, 1700 Fribourg, Switzerland.

出版信息

Mol Cell Endocrinol. 2013 May 22;371(1-2):124-32. doi: 10.1016/j.mce.2013.01.017. Epub 2013 Jan 31.

DOI:10.1016/j.mce.2013.01.017

PMID:23376007

Abstract

Following development of the fetal bipotential gonad into a testis, male genital differentiation requires testicular androgens. Fetal Leydig cells produce testosterone that is converted to dihydrotestosterone in genital skin, resulting in labio-scrotal fusion. An alternative 'backdoor' pathway of dihydrotestosterone synthesis that bypasses testosterone has been described in marsupials, but its relevance to human biology has been uncertain. The classic and backdoor pathways share many enzymes, but a 3α-reductase, AKR1C2, is unique to the backdoor pathway. Human AKR1C2 mutations cause disordered sexual differentiation, lending weight to the idea that both pathways are required for normal human male genital development. These observations indicate that fetal dihydrotestosterone acts both as a hormone and as a paracrine factor, substantially revising the classic paradigm for fetal male sexual development.

摘要

在胎儿双潜能性腺发育为睾丸后，男性生殖器分化需要睾丸雄激素。胎儿睾丸间质细胞产生睾酮，在生殖器皮肤中转化为二氢睾酮，导致阴唇阴囊融合。在有袋动物中已经描述了一种替代的二氢睾酮合成“后门”途径，可以绕过睾酮，但它与人类生物学的相关性尚不确定。经典途径和后门途径共享许多酶，但 3α-还原酶 AKR1C2 是后门途径所特有的。人类 AKR1C2 突变导致性分化障碍，这进一步支持了两种途径都需要正常男性生殖器发育的观点。这些观察结果表明，胎儿二氢睾酮既是一种激素，也是一种旁分泌因子，这极大地修正了经典的胎儿男性性发育模式。

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有袋类动物和人类：雄性性分化中的“后门”二氢睾酮合成。

Of marsupials and men: "Backdoor" dihydrotestosterone synthesis in male sexual differentiation.

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