Two cyp17 genes perform different functions in the sex hormone biosynthesis and gonadal differentiation in Japanese flounder (Paralichthys olivaceus).

P450c17, a key enzyme in the steroid generation pathway, plays an important role in the production of sex steroid and cortisol. In this study, two cyp17 gene isoforms, Pocyp17-I and Pocyp17-II were isolated from Paralichthys olivaceus gonads. Domain architecture analysis of Pocyp17-I and Pocyp17-II revealed that they had three regions important to enzymatic function. Structural analysis showed that Pocyp17-I and Pocyp17-II had 8 and 9 exons respectively, and the difference was caused by the insertion of an extra intron (intron1) in the latter. Quantitative real-time polymerase chain reaction results indicated that the expression of these two genes showed sexually dimorphism that Pocyp17-I and Pocyp17-II were highest expressed in testis and ovary, respectively. The in situ hybridization analysis of gonads indicated that Pocyp17-I and Pocyp17-II mRNA were both detected in oocytes, spermatocytes and Sertoli cells. After injection of androgen and estrogen (17α-methyltestosterone, 17β-estradiol) of different concentrations, the expression level of Pocyp17-I decreased significantly (P < 0.01), whereas estrogen had no influence on Pocyp17-II, but androgen upregulated the expression of Pocyp17-II (P < 0.05). Moreover, Pocyp17-I expression level was down-regulated significantly by NR0b1 but up-regulated by NR5a2 (P < 0.05), whereas Pocyp17-II expression level was down-regulated significantly by NR0b1 and NR5a2 (P < 0.05). All these results demonstrated that there were differences in expression patterns, feedback actions of sex hormones and transcriptional regulations between cyp17-I and cyp17-II, which revealed that cyp17-I and cyp17-II might perform different functions in sex hormones biosynthesis and gonadal differentiation in Japanese flounder.