Cyp17a1 is Required for Female Sex Determination and Male Fertility by Regulating Sex Steroid Biosynthesis in Fish.

In teleost fish, sex steroids are involved in sex determination, sex differentiation, and fertility. Cyp17a1 (Cytochrome P450 family 17 subfamily A member 1) is thought to play essential roles in fish steroidogenesis. Therefore, to further understand its roles in steroidogenesis, sex determination, and fertility in fish, we constructed a cyp17a1 gene mutant in Nile tilapia (Oreochromis niloticus). In XX fish, mutation of the cyp17a1 gene led to a female-to-male sex reversal with a significant decline in 17ß-estradiol (E2) and testosterone (T) production, and ectopic expression of male-biased markers (Dmrt1 and Gsdf) in gonads from the critical window of sex determination. Sex reversal was successfully rescued via T or E2 administration, and ovarian characteristics were maintained after termination of E2 supplementation in the absence of endogenous estrogen production in cyp17a1-/- XX fish. Likewise, deficiencies in T and 11-ketotestosterone (11-KT) production in both cyp17a1-/- XX sex-reversed males and cyp17a1-/- XY mutants resulted in meiotic initiation delays, vas deferens obstruction and sterility due to excessive apoptosis and abnormal mitochondrial morphology. However, 11-KT treatment successfully rescued the dysspermia to produce normal sperm in cyp17a1-/- male fish. Significant increases in gonadotropic hormone (gth) and gth receptors in cyp17a1-/- mutants may excessively upregulate steroidogenic gene expression in Leydig cells through a feedback loop. Taken together, our findings demonstrate that Cyp17a1 is indispensable for E2 production, which is fundamental for female sex determination and differentiation in XX tilapia. Additionally, Cyp17a1 is essential for T and 11-KT production, which further promotes spermatogenesis and fertility in XY males.

The role of StAR2 gene in testicular differentiation and spermatogenesis in Nile tilapia (Oreochromis niloticus).

Sex steroids play critical roles in sex differentiation and gonadal development in teleosts. Steroidogenic acute regulatory protein (StAR), transporting cholesterol (the substrate for steroidogenesis) from the outer mitochondrial membrane to the inner membrane, is the first rate-limiting factor of steroidogenesis. Interestingly, two StAR genes (named as StAR1 and StAR2) have been isolated from non-mammalian vertebrates. To characterize the functions of the novel StAR2 gene in the gonadal differentiation and fertility, we generated a StAR2 homozygous mutant line in Nile tilapia (Oreochromis niloticus). StAR2 gene knockout in male tilapia impeded meiotic initiation, associate with the down-regulation of meiosis related gene expressions of vasa, sycp3 and dazl at 90 days after hatching (dah). Meanwhile, cyp11b2 expression and serum 11-KT production significantly declined in StAR2-/- XY fish at 90 dah. From 120-300 dah, spermatogenesis gradually recovered, and so did the expressions of vasa, sycp3 and dazl in StAR2-/- XY fish testes. However, seminiferous lobules arranged disorderly in StAR2-/- XY fish testes at 300 dah. The number of Leydig cells and expressions of downstream steroidogenesis enzymes including cyp11a1, 3ß-HSD-I, 3ß-HSD-II, cyp17a1 and cyp17a2 decreased in StAR2-/- XY fish testes at 300 dah. Serum testosterone and 11-KT levels were significantly lower in StAR2-/- XY fish than that of their control counterparts. Furthermore, significantly elevated ar, fsh and lh expressions in StAR2-deficient XY fish testes and pituitaries were found when compared with the control XY fish. Testes degeneration and spermatogenic cell apoptosis were observed, while no sperm were squeezed out in StAR2-/- XY fish testes at 540 dah. Taken together, our results suggest that StAR2 has a role in testicular development, spermatogenesis and spermiation by regulating androgen production in tilapia, but may not be essential and could be compensated.