红耳龟Amh基因在温度依赖型性别决定中的功能

FUNCTIONAL ANALYSIS OF AMH IN TEMPERATURE DEPENDENT SEX DETERMINATION IN TRACHEMYS SCRIPTA

  • 摘要: 为研究Amh基因在TSD(Temperature-dependent sex determination, 温度依赖型性别决定)中的功能, 文章以红耳龟Trachemys scripta为TSD动物模型, 分析了Amh在胚胎性腺中的精细表达特征和细胞定位; 通过基因功能缺失和获得研究手段, 验证了Amh在TSD中的具体功能。表达分析结果显示, Amh基因在性腺分化启动前的第15期便已呈现产雄温度(Male-producing temperature, MPT)性腺高表达; AMH蛋白主要定位在MPT性腺sertoli前体细胞上, 而在各个发育时期的FPT(Female-producing temperature, 产雌温度)性腺中仅检测到极其微弱的Amh mRNA和蛋白表达信号。RNA干扰实验显示, 敲低Amh后的MPT性腺出现了雄性向雌性完全性逆转, 雄性分化因子Sox9明显下调, 雌性分化因子Foxl2Cyp19a1显著上调; 相反地, 异位表达Amh后的FPT性腺则转向睾丸方向分化, Foxl2Cyp19a1表达被抑制, Sox9表达上升。上述研究表明, Amh是启动红耳龟早期睾丸分化必需且充分的关键因子, 处于TSD雄性分化分子通路上游。

     

    Abstract: The regulatory role of Amh in early sex determination and gonadal differentiation has been studied in some GSD (genetic sex determination) animals, such as fish, however, the biological function of this gene in species with temperature-dependent sex determination (TSD) has not been reported. In this study, the red-eared slider turtle Trachemys scripta was used as an animal model of TSD to analyze the expression characteristics and cellular localization of Amh in embryonic gonads. Then, the specific function of Amh in TSD was identified by means of gene loss- and gain-of-function studies (LV-Amh-shRNA and LV-Amh-OE vector systems) . The expression analysis showed that Amh was highly expressed in MPT (male-producing temperature) gonads of stage 15, prior to the onset of gonadal differentiation. AMH protein was mainly localized in the precursor sertoli cells of MPT gonads, however, the FPT (female-producing temperature) gonads exhibited extremely low expression levels of Amh mRNA and protein throughout the embryogenesis. RNA interference experiments showed complete male-to-female sex reversal in MPT gonads with Amh knockdown, characterized by obvious feminization of gonads, female-styled germ cell distribution, significant downregulation of testicular marker Sox9, and remarkable upregulation of ovarian markers Foxl2 and Cyp19a1. Conversely, ectopic expression of Amh led to largely masculinized FPT gonads, a decline in Foxl2 and Cyp19a1, and production of Sox9. The statistical results showed that the sex reversal rates induced by LV-Amh-shRNA and LV-Amh-OE were 92.86% (26/28) and 66.67% (26/39), respectively. These data provided evidence that Amh is both necessary and sufficient to initiate early testicular differentiation in T. scripta, and it is located upstream of the male molecular pathway of TSD, laying the foundation for the analysis of the TSD molecular mechanism.

     

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