Suppression of P450 aromatase gene expression in sex-reversed males produced by rearing genetically female larvae at a high water temperature during a period of sex differentiation in the Japanese flounder (Paralichthys olivaceus)

The phenotypic sex of many teleost fishes including flounders can be experi mentally altered by treating embryos or larvae with varied temperatures or sex-steroid hormones. To analyse the sex determination mechanism, especiall y the role of cytochrome P450 aromatase (P450arom), an enzyme that catalyse s the conversion of androgens to estrogens, in temperature-dependent gonada l sex differentiation in the Japanese flounder, we generated two population s of larvae, both having XX (genetic females) but each growing up to displa y all phenotypic females or males, by rearing the larvae at normal (18 degr ees C) or high (27 degrees C) water temperatures from days 30 to 100 after hatching respectively. The larvae (XX) were produced artificially by mating normal females (XX) with gynogenetic diploid males (XX) which had been sex -reversed to phenotypic males by 17 alpha-methyltestosterone. To study the role of P450arom in sex determination in the flounder, we firs t isolated a P450arom cDNA containing the complete open reading frame from the ovary. RT-PCR showed that P450arom mRNA was highly expressed in the ova ry and spleen but weakly in the testis and brain. Semi-quantitative analyse s of P450arom mRNA in gonads during sex differentiation showed that there w as no difference in the levels of P450arom mRNA between the female and male groups when the gonad was sexually indifferent (day 50 after hatching). Ho wever, after the initiation of sex differentiation (day 60), the mRNA level s increased rapidly in the female group, whereas they decreased slightly in the male group. Similarly, estradiol-17 beta levels rose remarkably in the female group, yet remained constant in the male group. These results suggest that induction of sex reversal of genetically female larvae to phenotypic males by rearing them at a high water temperature caus ed a suppression of P450arom gene expression. Furthermore, we suggest that the maintenance of P450arom mRNA at very low levels is a prerequisite for t esticular differentiation, while the increased levels are indispensable for ovarian differentiation.