Fundulus heteroclitus gonadotropins.5: Small scale chromatographic fractionation of pituitary extracts into components with different steroidogenic activities using homologous bioassays.

Fractionation and characterization of gonadotropins (GtH) from Fundulus heteroclitus pituitary extracts were carried out using a biocompatible liquid chromatographic procedure (Pharmacia FPLC system). Chromatographic fractions were monitored for gonadotropic activities (induction of oocyte maturation and steroid production) using homologous follicle bioassays in vitro. Size-exclusion chromatography eluted gonadotropic activity in one major protein peak (Mr approximately 30,000). Anion-exchange and hydrophobic-interaction chromatography (HIC) yielded two distinct peaks of 17beta-estradiol (E2)- and 17alpha-hydroxy,20beta-dihydroprogesterone (DHP)-promoting activity with associated oocyte maturation. Two-dimensional chromatography (chromatofocusing followed by HIC) resolved pituitary extracts into two active fractions; both induced E2 synthesis, but one was relatively poor in eliciting DHP and testosterone production. Thus, using homologous bioassays, at least two quantitatively different gonadotropic (steroidogenic) activities: an E2-promoting gonadotropin (GtH I-like) and a DHP-promoting gonadotropin (GtH II-like), which has a lower isoelectric point but greater hydrophobicity than the former, can be distinguished from F. heteroclitus pituitaries by a variety of chromatographic procedures. This study complements previous biochemical and molecular data in F. heteroclitus and substantiates the duality of GtH function in a multiple-spawning teleost.

Studies on the Mechanism of Action of Estradiol in Regulating Follicular Progesterone Levels: Effects on cAMP Mediated Events and 3ß-Hydroxysteroid Dehydrogenase: (ovarian steroidogenesis/cAMP, 3ß-hydroxysteroid dehydrogenase/progesterone/estradiol regulation/Rana pipiens).

Previous studies demonstrated that estradiol interferes with pituitary-induced progesterone production and oocyte maturation in cultured amphibian (Rana pipiens) ovarian follicles. To elucidate the mode of action of estradiol in modulating follicular progesterone accumulation we have examined its effects on cAMP-induced progesterone production and enzymatic conversion of pregnenolone to progesterone by 3ß-hydroxysteroid dehydrogenase (3ß-HSD). Follicular cAMP levels were manipulated with forskolin (an adenylate cyclase activator), isobutyl methyl xanthine (IBMX-phosphodiesterase inhibitor) and exogenously added cAMP. Progesterone production induced by forskolin alone or forskolin in combination with frog pituitary homogenate (FPH) was inhibited by estrogen. Addition of estradiol to culture medium markedly inhibited follicular progesterone accumulation following treatment of follicles with cAMP and IBMX. In the presence of exogenous pregnenolone, non-FPH stimulated ovarian follicles effectively converted the 3ß-HSD substrate to progesterone. Treatment of follicles with estradiol inhibited conversion of pregnenolone to progesterone. The results indicate that estradiol acts, following FPH stimulation, at one or more steps subsequent to elevation of cAMP levels to regulate intrafollicular progesterone accumulation and oocyte maturation. Estrogen appears to directly influence the enzymatic (3ß-HSD) conversion of pregnenolone to progesterone.