Koichiro Gen

Unique expression of gonadotropin-I and -II subunit genes in male and female red seabream (Pagrus major) during sexual maturation.

Abstract Two distinct gonadotropins (GTHs) have been demonstrated in a number of teleost fishes. Although the physiological roles of GTHs have been extensively studied in salmonids, little is known about their biological functions in nonsalmonid fishes. In this study, to elucidate the role of GTH-I and GTH-II in reproduction, we cloned the α-glycoprotein subunit (αGSU) and gonadotropin β subunits (Iβ and IIβ) of red seabream using the 5′- and 3′-RACE methods and used these cDNA probes to reveal changes in mRNA levels of each subunit during sexual maturation of both male and female red seabream. The nucleotide sequences of αGSU, Iβ, and IIβ are 629, 531, and 557 base pairs long, encoding peptides of 117, 120, and 146 amino acids, respectively. The deduced amino acid sequence of each mature subunit showed high homology with those of other teleosts. Northern blot analysis showed that Iβ mRNA levels of males increase in association with gonadal development, whereas those of females remain low throughout sexual maturation, indicating sexual dimorphism in the expression pattern of Iβ. In contrast, IIβ mRNA levels of both sexes are maintained at high levels from the beginning of gametogenesis to spawning season. These results are different than those of salmonids and suggest that GTH-I may have important roles in male, but not female, gametogenesis. GTH-II may be involved in regulation of early and late gametogenesis in both male and female red seabream.

Effects of Luteinizing Hormone and Follicle-Stimulating Hormone and Insulin-Like Growth Factor-I on Aromatase Activity and P450 Aromatase Gene Expression in the Ovarian Follicles of Red Seabream, Pagrus major

Abstract To clarify the mechanism of estradiol-17β production in the ovarian follicle of red seabream, in vitro effects of luteinizing hormone (LH), follicle-stimulating hormone (FSH), and insulin-like growth factor (IGF-I) on aromatase activity (conversion of testosterone to estradiol-17β) and cytochrome P450 aromatase (P450arom) mRNA expression in ovarian fragments of red seabream were investigated. Of the growth factors used in the present study, only IGF-I stimulated both aromatase activity and P450arom gene expression in the ovarian fragments of red seabream. LH from red seabream pituitary, but not FSH, stimulated both aromatase activity and P450arom gene expression. IGF-I slightly enhanced the LH-induced aromatase activity and P450arom gene expression. These data and our previous results indicate that LH, but not FSH, stimulates estradiol-17β production in the ovarian follicle of red seabream through stimulation of aromatase activity and P450arom gene expression and IGF-I enhances the LH-stimulated P450arom gene expression.

Correlation Between Messenger RNA Expression of Cytochrome P450 Aromatase and Its Enzyme Activity During Oocyte Development in the Red Seabream (Pagrus major)

Abstract In teleosts, estradiol-17β (E2) is an important hormone responsible for oocyte development. To elucidate the molecular mechanisms underlying E2 biosynthesis, we characterized the structure of red seabream (Pagrus major) cytochrome P450 aromatase (P450arom) that is directly involved in E2 biosynthesis and found changes in mRNA levels of P450arom during oocyte development induced by implantation of gonadotropin-releasing hormone analogue. A cDNA clone encoding P450arom is 1779 base pairs in length and encodes a protein of 519 amino acids in length, with a calculated molecular weight of 58.9 kDa. Northern blot analysis showed that P450arom mRNA levels increased gradually from Day 8, when oocytes reached the secondary yolk globule stage, and were maintained at high levels at the day of spawning (Day 15). The P450arom mRNA levels increased in association with an increase of the gonadosomatic index (gonad weight/body weight × 100%), serum E2, and P450arom enzyme activity (in vitro conversion of testosterone to E2 in the ovarian fragments). Furthermore, an increase in mRNA levels of the LHβ, but not FSHβ, correlated with increased P450arom mRNA levels during the course of ovarian development. In addition, the levels of P450arom mRNA increased in isolated ovarian follicles during the course of vitellogenic oocyte growth and became undetectable in follicles at the migratory nucleus and the mature stages. These findings, together with those of the previous studies, suggest that LH, not FSH, may regulate E2 biosynthesis via increased levels of P450arom mRNA during oocyte development of red seabream.

Effects of gonadotropin-releasing hormone agonist and dopamine antagonist on hypothalamus–pituitary–gonadal axis of pre-pubertal female red seabream (Pagrus major)

The effects of GnRH agonist (GnRHa) on the hypothalamus-pituitary-gonadal axis were studied in female pre-pubertal red seabream. Sexually immature 16-month-old fish were implanted intramuscularly with cholesterol pellets containing GnRHa or GnRHa in combination with domperidone, putative dopamine antagonist, and reared for 10-20 days. In both GnRHa and GnRHa+domperidone implanted groups, vitellogenesis was observed on Day 10 and ovulation was observed on Day 20, while ovarian development was not observed in the control fish throughout the experimental period. The levels of GnRH receptor mRNA were significantly higher in both GnRHa implanted groups than in the control. The expressions of all three gonadotropin subunit genes were up-regulated and serum luteinizing hormone levels were increased by the GnRHa implantation. Serum testosterone and estradiol-17beta levels were also increased on Day 10 and maintained high levels on Day 20. On the other hand, seabream (sb) GnRH mRNA levels in the brain were relatively low and unchanged in all experiment groups. The present study first shows that GnRH alone can induce precocious puberty in red seabream. These results indicate that the system of pituitary-gonadal axis has already been developed in 16-month-old fish and the commencement of sbGnRH secretion may be an important physiological event for the onset of puberty in the red seabream.

Seasonal variation of the three native gonadotropin-releasing hormone messenger ribonucleic acids levels in the brain of female red seabream

We studied the seasonal variation of the expression of genes encoding the three native gonadotropin-releasing hormones (GnRHs), namely salmon(s) GnRH, chicken(c) GnRH-II, and seabream(sb) GnRH in red seabream, Pagrus (Chrysophrys) major, in order to better understand the regulatory mechanisms of GnRH gene expression by environmental and endocrine factors. Female red seabream, reared under natural conditions, were collected monthly or bimonthly from October to June, and the levels of the three distinct GnRH messenger ribonucleic acids (mRNAs) in the brains of those fish (n = 4-6) were determined by ribonuclease (RNase) protection analysis. The levels of sbGnRH mRNA correlated well with the observed ovarian histology; the levels of sbGnRH mRNA of immature fish in October and December were low, and increased in February and March in conjunction with active vitellogenesis. The sbGnRH mRNA levels reached a maximum level in April (spawning season), after which they rapidly decreased together with the observed ovarian regression in June. In contrast, the levels of sGnRH mRNA showed no variation, while those of cGnRH-II mRNA were elevated only slightly in March and April. The increase in sbGnRH mRNA levels correlates with the increase in day length, water temperature and serum steroids levels, suggesting that these factors are candidates for regulators of sbGnRH synthesis.

Physiological roles of FSH and LH in red seabream, Pagrus major

The duality of gonadotropins (GTHs), follicle-stimulating hormone (FSH) and luteinizing hormone (LH), has been confirmed in most teleost species, but very little is known about their biological functions. To elucidate the physiological roles of FSH and LH in fish reproduction, the expression profiles of GTH subunit genes during gonadal development were analyzed in both male and female red seabream. Furthermore, in vitro studies were carried out to examine the effects of GTHs on steroid hormone production and cytochrome P450 aromatase (P450arom) expression in red seabream gonads. In both sexes, LHβ mRNA was maintained at high levels from the early gametogenesis until spawning season, and declined with gonadal regression. Interestingly, FSHβ mRNA levels in males increased in parallel with testicular development, whereas those in female were remained low throughout oocyte development. From in vitro studies using purified red seabream FSH and LH, both GTHs had a similar potency in stimulating 11-ketotestosterone production by testicular slices, while the biological activity of FSH was much lower than that of LH in stimulating production of estradiol-17β by vitellogenic follicles. Moreover, expression of P450arom mRNA was induced by LH, but not FSH, in ovarian follicles in vitro. FSH was also ineffective in inducing maturational competence and final oocyte maturation. These results suggest that, unlike salmonids, FSH may play an important role during gametogenesis in male, but not female, red seabream, whereas LH may be involved in regulation of both early and late gametogenesis in both sexes.

Effects of water temperature on the gonadal development and expression of steroidogenic enzymes in the gonad of juvenile red seabream, Pagrus major

The effects of water temperature on the development of hermaphroditic gonads in red seabream (Pagrus major) and on mRNA expression of cytochrome P450 aromatase (P450arom) and 11β-hydroxylase were examined. High water temperature suppressed both expression of P450arom and 11β-hydroxylase and the development of oocytes in ovarian portion of hermaphroditic gonads.

Biosynthesis of steroids in ovarian follicles of red seabream, Pagrus major (Sparidae, Teleostei) during final oocyte maturation and the relative effectiveness of steroid metabolites for germinal vesicle breakdown in vitro

The steroid synthesis pathway in the ovarian follicles of the red seabream during final oocyte maturation (FOM) was investigated by incubating intact follicles with different radioactively labeled steroid precursors. During FOM, the steroidogenic shift from estradiol-17beta to 20 beta-hydroxylated progestin production occurred mainly due to a combination of inactivation of C 1720-lyase and activation of 20 beta-hydroxysteroid dehydrogenase. Of the steroids produced, 1720 beta-dihydroxy-4-pregnen-3-one (1720 beta-P) and 1720 beta,21-trihydroxy-4-pregnen-3-one (20 beta-S) exhibited the greatest effect on germinal vesicle breakdown (GVBD) in vitro. 1720 beta-P was further converted to its 5 beta-reduced form, 1720 beta-dihydroxy-5 beta-pregnan-3-one (1720 beta-P-5 beta), which had lower GVBD activity, suggesting that 5 beta-reduction plays a role in the inactivation of the maturation-inducing ability of 1720 beta-P. In contrast, no 5 beta-reduced metabolite of 20 beta-S was found. Serum levels of 1720 beta-P and 20 beta-S, measured by ELISA, showed that circulating levels of both progestins increased during FOM, and 20 beta-S levels were approximately twice as high as 1720 beta-P levels. This study clarified the complete steroidogenesis pathway during FOM in red seabream ovarian follicles and showed that two 20 beta-hydroxylated progestins, 1720 beta-P and 20 beta-S, act as maturation-inducing hormones in this species. The catabolites of these two progestins and their physiological roles in reproduction are also discussed.

High water temperature impairs ovarian activity and gene expression in the brain–pituitary–gonadal axis in female red seabream during the spawning season

Temperature plays a pivotal role in the control of seasonal reproduction in temperate fish species. It is well known that temperatures that exceed a certain threshold impair gonadal development, maturation, and spawning. However, the endocrine mechanisms that underlie these effects are poorly understood. We evaluated the effect of high water temperature on the brain-pituitary-gonadal (B-P-G) axis of a perciform fish, red seabream, Pagrus (Chrysophrys) major during its spawning season (April-May). Fish were reared at either high (24 °C: H-group) or optimal/control (17 °C: C-group) temperatures for 5 or 10 d. After 5 d, the transcript abundance of gonadotropin-releasing hormone-1 (GnRH1) in the brain and GnRH receptor (GnRH-R) and FSH-β in the pituitary were significantly lower in H-group than in C-group. Conversely, there was no difference in pituitary LH-β mRNA levels, serum concentrations of estradiol-17β (E₂), or the gonadosomatic index (GSIs) between H- and C-groups on Day 5. After 10 d, the ovaries of all H-group fish had completely regressed and were filled with only perinucleolar stage primary oocytes and atretic oocytes. The brain GnRH1 expression, pituitary GnRH-R and pituitary LH-β expression, serum E₂ concentrations, and the GSI were significantly lower in the H-group on Day 10. Our results suggest that high water temperature is the proximate driver of the termination of the spawning season of female red seabream. The effect appears to be mediated by suppression of gene expression in the B-P-G axis.

Molecular Characterization and Gene Expression of Japanese Eel (Anguilla japonica) Gonadotropin Receptors

A luteinizing hormone receptor (lhr) cDNA with high identity to other fish lhrs was fully cloned from the ovary of the Japanese eel (Anguilla japonica). The genes for two gonadotropin receptors (Gthr), follicle-stimulating hormone receptor (fshr) and lhr, were differentially expressed during oogenesis, which was artificially induced by salmon pituitary extract, a gonadotropin-rich source. Transcript abundance of fshr was significantly elevated at the early vitellogenic stage and peaked at the late vitellogenic stage, while lhr gene expression rapidly induced at the late vitellogenic stage and thereafter remained at a high level. The abundance of fshr and lhr transcripts was highest in the ovary in female eels. In addition to the ovary, forebrain was a major site for the fshr transcript, although the level did not change with reproductive status. Furthermore, it was examined how eel Gthrs were activated by two mammalian chrionic gonadtropin (CG), equine CG (eCG) and human CG (hCG), that have been used for study of fish reproduction as substitutes for homologous Gths. Both CGs specifically activated eel Lhr, but not Fshr, although the degree of effectiveness was different; thus the concentration of hCG (0.1 ng/ml) required for significant activation of Lhr was much lower than that of eCG (100 ng/ml). These data on gene expression and ligand-activation of Gthrs suggest that Fsh and Lh act differentially in the regulation of reproductive function in Japanese eel.