Morphological and hormonal alterations in the gonads and pituitary of the dusky grouper Epinephelus marginatus (Teleostei: Serranidae) during the sex inversion

The sex inversion in sequential hermaphrodite fish (protandrous or protogynous) occurs due to several factors, including physiological, genetics, and also can be associated with the social behavior. In marine hermaphrodite fish, the sex alterations are followed by anatomic and functional alterations in the gonads, color patterns and animal behavior. The species Epinephelus marginatus (dusky grouper), a native serranid and broadly distributed in the Brazilian coast, is a protogynous with problems in maintaining males in the shoal and, additionally, this species is part of the overexploited marine fish red list. Induction of sex change, in captivity, using aromatase inhibitors (AI) and 17α-methyltestosterone (MT) has been conducted with the purpose to study the morphophysiological alteration in some endocrine tissues in juveniles. During 90 experimental days, the use of AI and MT promoted an apparent disorganization of the standard gonad architecture, a massive degeneration of the female germ cells, the appearance of melanomacrophagic centers, a proliferation of the structures associated with the male sex (interstitial tissue and male germ cells) and the maturation of male germ cells. The use of the synthetic androgen, MT (alone or combined with AI) allowed the obtaining of gonads in a more advanced spermatogenesis phase, including an initial spermiogenesis phase, with a significant reduction of gonadossomatic index (GSI). With the use of AI, the gonads were found in a more classic intersex process after 90 days of experiment. The immunostaining analysis of the gonadotropic cells were viable using salmon antibodies and the results showed that FSH and LH cells were distributed in proximal pars distalis and pars intermedia in adenohypophysis. The immunohistochemistry analysis of the pituitary showed a low intensity of staining with the anti-βFSH in the AI group, after 90 experimental days. The analysis of the gonad steroids showed that in the animals from the AI group, there was no decrease in estradiol levels after 90 days, so the negative feedback loop probably was activated, the FSH secretion decreased, allowing the increase of plasma 11- ketotestosterone (11KT) (through LH action). In the MT groups there was a decrease in plasma estradiol, what probably decreased the intensity of the negative feedback loop in the pituitary, and in this case, the action of the synthetic androgen was predominant in spermiogenesis. The analysis of the gonads and pituitary suggest the action of FSH in the beginning of the sex transition, with the proposal that this glycoprotein acts triggering the sex inversion in protogynous hermaphrodites. We suggest that more detailed studies during the 90 days of gonad transition in E. marginatus must be done in order to find the real involvement of FSH in sex inversion and to elucidate the actual role of LH with 11KT production, the full spermiogenesis and spermiation (AU)