Effects of isoquinolinesulfonamide H-8 on Fundulus heteroclitus ovarian follicles: role of cyclic nucleotide-dependent protein kinases on steroidogenesis and oocyte maturation in vitro.

The possible role of cyclic nucleotide-dependent protein kinases in mediating the stimulatory actions of Fundulus heteroclitus pituitary extract (FPE) during ovarian steroidogenesis and oocyte maturation in vitro was investigated. Follicle-enclosed oocytes were cultured in the presence of FPE and/or N-[2-Methylamino)ethyl]-5-isoquinolinesulfonamide (H-8), a compound that inhibits protein kinase A (PKA) and cGMP-dependent protein kinase. H-8 alone (0.1-1 mM) promoted oocyte germinal vesicle breakdown (GVBD) in a dose-dependent manner. However, the process of GVBD initiated by H-8 was much slower that that triggered by 17 alpha, 20 beta-dihydroxy-4-pregnen-3-one (17,20 betaP), the natural inducer of oocyte maturation in F. heteroclitus. Treatment with H-8 also increased 17,20 betaP production by the follicles and the accumulation of this steroid in the media was much slower than that initiated by FPE. However, in contrast to the FPE action on the oocyte, which is mediated by 17,20 betaP, the stimulatory action of H-8 on GVBD appears to be independent of follicular steroid production, since aminoglutethimide (AGI), an inhibitor of steroidogenesis, did not-block H-8-induced GVBD while inhibiting H-8 induced 17, 20 betaP production. Moreover, addition of H-8 to FPE-treated follicles significantly reduced 17,20 betaP secretion and the percentage of GVBD. These results provide further support for the involvement of PKA in the mechanism by which FPE stimulates ovarian steroidogenesis in F. heteroclitus. Furthermore, the fact that H-8 alone increased 17,20 betaP levels may imply that basal follicular production of this steroid could be induced by inactivation of cyclic nucleotide-dependent protein kinases. Data also indicate that inhibition of PKA and/or c-GMP-dependent protein kinase in the oocyte may be involved in the mechanism leading to resumption of meiosis in this species.

Protein synthesis involvement in regulating pituitary-induced progesterone levels in ovarian follicles of Rana pipiens.

Involvement of protein synthesis in frog pituitary homogenate (FPH)-induced progesterone production and/or accumulation in ovarian follicles was investigated. In amphibians, cycloheximide (C), an inhibitor of protein synthesis, inhibits progesterone and FPH-induced germinal vesicle breakdown (GVBD). However, the site and mechanisms of action of cycloheximide within ovarian follicles have not been elucidated. Intrafollicular progesterone produced by FPH is considered to mediate oocyte maturation; thus, cycloheximide may interfere with production and/or action of progesterone. Simultaneous treatment of FPH-stimulated follicles with cycloheximide inhibited FPH-induced progesterone accumulation (measured by RIA) and the accompanying-GVBD in a dose-dependent fashion. Inhibitory effects of cycloheximide on either FPH-induced progesterone production or GVBD were not reversed when follicles were washed and returned to fresh medium devoid of FPH and cycloheximide. However, subsequent restimulation of washed follicles with FPH resulted in increased progesterone levels and oocyte maturation. The extent of reversibility, in terms of GVBD and progesterone production, after FPH restimulation varied between animals. Pretreatment of follicles with cycloheximide for 6 hours, without FPH, had little or no effect on progesterone production when follicles were washed and treated with FPH. Delayed addition of cycloheximide to follicles following FPH stimulation blocked further progesterone accumulation as indicated by measurement of intrafollicular progesterone at the time of cycloheximide addition and at the end of the incubation period. The results indicate that cycloheximide rapidly inhibits progesterone production and that continuous protein synthesis is required for progesterone accumulation. Furthermore, protein synthesis does not appear to be required for progesterone metabolism since intrafollicular progesterone declined with prolonged culture even in the presence of cycloheximide. The nature of protein(s) involved in follicular progesterone production remains to be elucidated. FPH mediation of oocyte maturation within ovarian follicles appears to depend upon protein synthesis in somatic follicle cells, which is required for progesterone production, and in the oocyte, to mediate the response to the steroid trigger.

Protein synthesis and steroidogenesis in amphibian (Rana pipiens) ovarian follicles: studies on the conversion of pregnenolone to progesterone.

Previous experiments demonstrated that protein synthesis was involved in frog pituitary homogenate (FPH)-induced follicular progesterone production. In this study the metabolic conversion of pregnenolone to progesterone, and involvement of protein synthesis in this specific step of the progesterone synthetic pathway, was investigated in vitro cultured ovarian follicles of Rana pipiens. Fully grown follicles were incubated with frog pituitary homogenates or exogenous pregnenolone and progesterone content of follicle extracts and medium were measured by radioimmunoassay. In the absence of FPH, fully grown follicles converted exogenously added pregnenolone into progesterone in a dose-dependent fashion. Follicular progesterone concentrations were consistently higher than medium levels of steroid throughout the culture period. The conversion of pregnenolone to progesterone at different stages of follicle development was also investigated. The amount of follicular progesterone accumulated after culture with exogenous pregnenolone increased proportionally with follicle size. When fully grown follicles were cultured in the presence of cycloheximide, the inhibitor of protein synthesis blocked FPH-induced progesterone production, but conversion of exogenously added pregnenolone to progesterone was not affected. However, progesterone production was inhibited when cyanoketone (CK), an irreversible inhibitor of the 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD), was added in combination with FPH or exogenous pregnenolone. FPH addition after CK pretreatment did not restore the capacity of follicles to convert pregnenolone to progesterone. These results suggest that conversion of pregnenolone to progesterone occurs efficiently even in the absence of FPH over the course of follicle and oocyte growth (vitellogenesis). Furthermore, in fully grown follicles the 3 beta-HSD activity is independent of protein synthesis. The dependence on protein synthesis in the acute action of FPH appears to be prior to conversion of pregnenolone to progesterone and does not involve de novo synthesis of 3 beta-HSD.

Functional heterologous gap junctions in Fundulus ovarian follicles maintain meiotic arrest and permit hydration during oocyte maturation.

The physiological significance of heterologous gap junctions between granulosa cells and the oocyte was investigated in late vitellogenic ovarian follicles of the teleost Fundulus heteroclitus. Lucifer Yellow injected into the oocyte readily passed to the overlying granulosa cells, demonstrating effective dye-coupling. Passage of the fluorescent dye, and hence intercellular communication, was inhibited both by the tumor-promoting phorbol ester phorbol 12-myristate 13-acetate (PMA) and by 1-octanol, known uncouplers of gap junctions in a variety of invertebrate and vertebrate cell types. Octanol alone also initiated resumption of meiosis in follicle-enclosed oocytes, indicating that granulosa cells normally maintain meiotic arrest, as apparently occurs in mammalian and amphibian follicles. Both PMA and octanol also consistently inhibited the hydration process that normally accompanies meiotic maturation. These results support a previously suggested hypothesis that K+, which is the primary osmotic effector for oocyte hydration, is translocated via gap junction from granulosa cells to the maturing oocyte.

Steroidogenesis in Fundulus heteroclitus. IV. Dichotomous effects of a phorbol ester on ovarian steroid production and oocyte maturation.

The possible role of protein kinase C (PKC) activation in mediating the stimulatory actions of a Fundulus pituitary extract (FPE) on ovarian steroidogenesis and oocyte maturation was investigated. The phorbol ester, phorbol 12-myristate 13-acetate (PMA), alone slightly increased basal 17 alpha-hydroxy,20 beta-dihydroprogesterone (DHP) and 17 beta-estradiol (E2) synthesis and significantly stimulated germinal vesicle breakdown (GVBD). Addition of FPE promoted synthesis of DHP, testosterone (T), and E2, and initiated GVBD. Phorbol ester inhibited FPE-induced steroidogenesis but increased the number of oocytes that underwent GVBD. Phorbol ester also markedly impeded induction of steroidogenesis by dibutyryl cAMP and differentially affected the conversion of 25-hydroxycholesterol, pregnenolone, or progesterone to DHP, T, and E2: DHP production was not affected; T production diminished; and E2 synthesis increased (T aromatization also increased). These results suggest an inhibitory role for the PKC pathway on FPE-induced ovarian steroid production, with PMA appearing to affect various steroidogenic steps. The stimulatory action of PMA on oocyte maturation seems to be independent of follicular steroid production since aminoglutethimide, an inhibitor of steroidogenesis, did not block PMA-induced GVBD. Moreover, PMA had a marked stimulatory effect on GVBD in denuded oocytes. Thus, in contrast to the inhibitory role found for the PKC pathway on ovarian follicular steroidogenesis, activation of PKC in the oocyte may serve as a signal-transducing mechanism leading to GVBD.

Oogenesis in Fundulus heteroclitus. VI. Establishment and verification of conditions for vitellogenin incorporation by oocytes in vitro.

A procedure was developed for studying vitellogenin (VTG) incorporation by vitellogenic oocytes of Fundulus heteroclitus in vitro. Since homologous VTG can be obtained from this animal only with great difficulty, the use of [32P]VTG from Xenopus laevis was explored as an alternative. Vitellogenic as well as maturational-stage oocytes were found to sequester X. laevis [32P]VTG from the medium, and incorporation was found to be linear with time for at least up to 12 hr. Once incorporated into the oocyte, [32P]VTG did not appear to undergo turnover. The effect of different [32P]VTG concentrations on incorporation indicated that the uptake mechanism was saturable. Unlabeled F. heteroclitus VTG and X. laevis VTG were also found to compete effectively with X. laevis [32P]VTG, whereas bovine serum albumin did not. These results represent the first documentation of a successful culture system for receptor-mediated VTG incorporation by teleost oocytes.

Steroidogenesis in Fundulus heteroclitus. I. Production of 17 alpha-hydroxy,20 beta-dihydroprogesterone, testosterone, and 17 beta-estradiol by prematurational follicles in vitro.

In order to understand better the mechanism of gonadotropin action on steroidogenesis in prematurational follicles of Fundulus heteroclitus, follicle synthesis of 17 alpha-hydroxy, 20 beta-dihydroprogesterone (17 alpha-OH,20 beta-DHP), testosterone (T), and 17 beta-estradiol (E2) from a variety of precursors and the maturational response of oocytes were simultaneously followed in vitro. The addition of 25-hydroxycholesterol, pregnenolone, or progesterone to unstimulated follicles increased media 17 alpha-OH,20 beta-DHP, T, and E2, as well as oocyte germinal vesicle breakdown (GVBD) in a dose-dependent manner. Inhibition of cholesterol side-chain cleavage by aminoglutethimide blocked 25-hydroxycholesterol-promoted steroid accumulation and GVBD, indicating that 25-hydroxycholesterol does not directly induce GVBD, but rather is metabolized in the follicle to an active steroid (presumably 17 alpha-OH,20 beta-DHP). Likewise, trilostane, an inhibitor of delta 5-3 beta-hydroxysteroid dehydrogenase, blocked pregnenolone action. Both inhibitors also completely abolished steroid accumulation and GVBD promoted by a F. heteroclitus pituitary extract (FPE), but not GVBD induced by exogenous 17 alpha-OH,20 beta-DHP. FPE also significantly depressed T but enhanced E2 production from exogenous precursors. We have concluded from these observations that (1) cholesterol side-chain cleavage and pregnenolone conversion to progesterone are essential for gonadotropin-promoted follicle steroid production and the resulting reinitiation of meiosis by the oocyte, (2) the enzymes necessary for the conversion of cholesterol to 17 alpha-OH,20 beta-DHP, T, and E2 are present in the unstimulated, prematurational follicle, and (3) gonadotropin initiates steroidogenesis by acting at a step prior to the conversion of cholesterol to pregnenolone; it also appears to enhance aromatase activity.

Steroidogenesis in Fundulus heteroclitus. II. Production of 17 alpha-hydroxy-20 beta-dihydroprogesterone, testosterone, and 17 beta-estradiol by various components of the ovarian follicle.

Fundulus heteroclitus prematurational follicles (1.3-1.4 mm) were dissected into various components and cultured in vitro to examine the type of cells involved in the synthesis of steroids upon F. heteroclitus pituitary extract (FPE) stimulation or addition of exogenous precursors (25-hydroxycholesterol or pregnenolone). Culture media and follicular tissue extracts were assayed for 17 alpha-hydroxy-20 beta-dihydroprogesterone (17 alpha-OH.20 beta-DHP), testosterone (T), and 17 beta-estradiol (E2) content using specific radioimmunoassays. Complete removal of the follicle wall (denuded oocytes) eliminated steroid accumulation induced by FPE treatment. Removal of the theca/epithelium layer (defolliculated oocytes) did not affect the steroidogenic response (17 alpha-OH,20 beta-DHP, T, E2 production) of the follicles to FPE or exogeneously added precursors (25-hydroxycholesterol or pregnenolone). Isolated theca/epithelium layers secreted only T. Isolated follicular preparations that did not contain the oocyte (theca/epithelium layers or follicle cells) secreted higher levels of steroids to the culture media than did intact follicles. We conclude from these results that (1) the follicle cells (granulosa cells) are the primary source of the various steroids produced by the F. heteroclitus ovarian follicle in response to FPE stimulation: (2) the synthesis of 17 alpha-OH,20 beta-DHP and E2 does not require the involvement of two cell types as shown in other teleosts; (3) the theca/epithelium layer is able to produce T but lacks the aromatase activity necessary for E2 synthesis; and (4) steroids synthesized in the follicle wall are both secreted to the medium and accumulated in the oocyte.

Pharmacology of the serotonergic inhibition of steroid-induced reinitiation of oocyte meiosis in the teleost Fundulus heteroclitus.

Serotonin (5-HT) was found to inhibit steroid (17 alpha,20 beta-dihydroxy-4-pregnen-3-one; 17,20 beta P)-induced resumption of oocyte meiosis (oocyte maturation) in vitro in the teleost Fundulus heteroclitus. Serotonin inhibited both follicle-enclosed and denuded oocytes, which indicates the presence of oocyte-associated 5-HT sensitive sites. The response of oocytes to 5-HT was characterized pharmacologically, i.e., the capacity of serotonergic agonists and antagonists to mimic or block the 5-HT inhibition of the steroid-induced oocyte maturation was assessed by the changes in the percentage of oocyte germinal vesicle breakdown (GVBD). Dose-response curves for each compound were drawn and compared. The rank order of potency among the agonists was: 5-HT > 5-methoxytryptamine > tryptamine = 5,6-diHT = 5-carboxidotryptamine > 5,7-diHT = 5-methoxy-dimethyltryptamine > alpha-methyl-5HT > 2-methyl-5HT. Incubation of ovarian follicles with high doses of some antagonists (mianserin and metergoline) induced oocyte GVBD, although this effect was associated with high levels of oocyte atresia during GVBD or shortly after maturation. Consequently, doses of the antagonist too low to induce GVBD were tested for their ability to block the 5-HT inhibitory action; the rank order of potency was: MDL-72222 = metoclopramide > metergoline > propanolol > ketanserin. Dopamine, acetylcholine, epinephrine, and norepinephrine could also inhibit 17,20 beta P-induced GVBD, although at doses much higher than those of 5-HT; melatonin and histamine had no effect on oocyte maturation. These results suggest that specific receptors mediate the inhibitory action of 5-HT on the steroid-triggered meiosis resumption. The pharmacological profile of these 5-HT receptors is different from those of any known mammalian 5-HT receptor, although they showed some similarities to the 5-HT1A, 5-HT2, and 5-HT3 receptors, as well as to 5-HT receptors on oocytes of some bivalve molluscs.

Steroidogenesis in Fundulus heteroclitus V.: purification, characterization, and metabolism of 17 alpha,20 beta-dihydroxy-4-pregnen-3-one by intact follicles and its role in oocyte maturation.

In vitro steroidogenesis of ovarian follicles incubated with radioactive precursors or a Fundulus heteroclitus pituitary extract (FPE) was investigated. Steroids were extracted from both the medium and follicular tissue and fractionated by liquid or thin-layer chromatography. A similar pattern of steroid metabolites was obtained with either [14C]pregnenolone or [14C]progesterone as exogenous precursor. Several metabolites comigrated with known reference steroids and thus were tentatively identified. Some have been previously reported to induce germinal vesicle breakdown (GVBD) in this and other species, particularly 17 alpha,20 beta-dihydroxy-4-pregnen-3-one (DHP). [3H]DHP added to intact follicles or denuded oocytes was also extensively metabolized. All the DHP metabolites produced by the intact follicle were tested for biological activity. Three of the metabolites were almost as effective inducers of GVBD as DHP itself, and two were tentatively identified as 5 alpha-pregnan-3 alpha,17 alpha,20 beta-triol and 5 alpha-pregnan-3 beta,17 alpha,20 beta-triol. However, DHP was the most potent and the quickest inducer of GVBD, indicating that its maturational action is not due to metabolic conversion to a more active form. In addition, we found two very active fractions after HPLC analysis of steroid extracts from FPE-stimulated follicles: one that corresponded to and was further identified (mass spectroscopy) as DHP and a second tentatively identified as the DHP metabolite 5 alpha-pregnan-3 beta,17 alpha,20 beta-triol. This study provides strong evidence that DHP plays the major role as a maturation inducing-steroid in F. heteroclitus, even though DHP is not the only active steroid produced by maturing follicles.