Control of hypothalamus-pituitary-gonad axis of the surubim do Paraíba Steindachneridion parahybae (Siluriformes: Pimelodidae) in relation to reproductive cycle and induced spawning in captivity

Steindachneridion parahybae (Siluriformes) is a freshwater catfish, endemic to the Paraíba do Sul River Basin (Brazil), and seriously threatened. S. parahybae females, when reared in captivity, exhibit failures in final maturation, ovulation and spawning. This study aimed to analyze the hypothalamus-pituitary-gonads axis, responsible for the neuroendocrine control of reproduction, with the goal to increase the knowledge of this system in domesticated animals. Adult females were sampled monthly (except in winter months) from January/2008 to March/2009 in the Companhia Energética de Sao Paulo fish farm. The macroscopic and microscopic analyses of the ovaries allowed classifying the ovarian development in three maturation stages: pre-vitellogenic (primary growth), vitellogenic (secondary growth) and regression; and five oocyte development phases: oogonia, perinucleolar oocyte, cortical alveolar oocyte, vitellogenic oocyte and atretic oocyte. After the artificial induction to reproduction, the final maturation was achieved and the post-ovulatory follicles were identified. In S. parahybae, the reproductive period was evidenced from November to February and the oocyte development was synchronic in group, suggesting that this species shows multiple spawns during this period. The plasma profiles of 17Beta-estradiol (E2) and testosterone (T) were essential in oocytes development, and the production of these sexual steroids seems not to be the cause of reproduction failure in captivity. However, the 17Alpha- hydroxyprogesterone (17Alpha-OHP) concentration profile during the reproductive cycle and after the induced spawning, suggests that reproductive failure of S. parahybae can be related to progestogens dysfunction, mainly in the conversion of 17Alpha-OHP in 17Alpha, 20Beta-dihydroxy-4- pregnen-3-one (Maturation-Inducing Steroid, MIS), the latter considered as the final maturation and ovulation hormone in teleosts. The androgen 11-ketotestosterone (11-KT) level was higher in the vitellogenic stage and in the females induced to spawn, suggesting an involvement of this androgen in S. parahybae reproduction. However, the site of synthesis and action, and the possible role of 11-KT remain unknown in females. In the brain system, two forms of gonadotropin-releasing hormone (GnRH) were characterized, catfish GnRH (cfGnRH) and chicken-II GnRH (cGnRH-II). cfGnRH was identified throughout the ventral forebrain and cGnRH-II was observed in the midbrain tegument, close to the third ventricle. cfGnRH is closely related to the modulation of the pituitary activity, unlike that, cGnRH-II (which does not innervate the pituitary gland), is probably related to neuromodulation and/or reproductive behavior in S. parahybae. The pituitary is composed by the neurohypophysis (NH) and the adenohypophysis (ADH), whereas, the ADH is subdivided into: \"rostral pars distal\" (RPD), \"proximal pars distal\" (PPD) and \"pars intermedia\" (PI). In these ADH sub regions the following hormones were characterized: the follicle-stimulating hormone (FSH- 18KDa), the luteinizing hormone (LH-19KDa), the growth hormone (GH-21KDa), the prolactin (PRL-22KDa), and the somatolactin (SL-26KDa). The semi-quantitative data of GH, PRL and SL suggest that these hormones are indirectly involved in reproduction and may have a physiological role in regulating and/or modulation of the mechanisms associated with reproduction of S. parahybae. The pattern of synthesis/release of FSH during the reproductive cycle was adequate to stimulate the synthesis/release of E2 to promote the vitellogenesis, which was confirmed in the ovaries, due to the presence of vitellogenic oocytes. Therefore, it is suggested that the reproductive failure in S. parahybae females when reared in captivity, was probably due to dysfunctions in progestogens synthesis/release, modulated by LH, and/or failure in the conversion of 17Alpha-OHP in MIS in vitellogenic females. Likewise, our data proposed that cfGnRH, responsible for the modulation of LH, is synthesized in the vitellogenic stage, but, as decreased in females induced to spawn, it is suggested that cfGnRH was also not synthesized/released sufficiently. These data, together with the knowledge of the events that followed the larvae development, subsidies the improvement of the artificial reproduction method of S. parahybae in conservation fish farms, contributing to a better reproductive performance of this species in captivity, which will allow the establishment of a more effective re-introduction program in the Paraíba do Sul River Basin. (AU)