The forkhead transcription factor Foxl2 plays a major role in ovarian development and function in mice and fish, and acts as a female sex-determining gene in goat. Its functional role in the sex determination and gonadal differentiation has not yet been investigated in reptiles. Here, we characterized Foxl2 gene in Chinese soft-shelled turtle Pelodiscus sinensis, exhibiting ZZ/ZW sex chromosomes. Foxl2 exhibited a female-specific embryonic expression pattern throughout the critical sex determination periods in P. sinensis. The expression of Foxl2 was induced at early stage in ZZ embryonic gonads that were feminized by estrogen treatment. Most importantly, Foxl2 knockdown in ZW embryos by RNA interference resulted in female-to-male sex reversal, characterized by obvious masculinization of gonads, significant up-regulation of testicular markers Dmrt1 and Sox9, and remarkable down-regulation of ovarian regulator Cyp19a1. Conversely, gain-of-function study showed that overexpression of Foxl2 in ZZ embryos led to largely feminized genetic males, production of Cyp19a1, and a decline in Dmrt1 and Sox9. These findings demonstrate that Foxl2 is both necessary and sufficient to initiate ovarian differentiation in P. sinensis, thereby acting as a key upstream regulator of the female pathway in a reptilian species.
Keywords: Female pathway; Foxl2; Ovarian differentiation; Pelodiscus sinensis; Sex reversal.
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