Maturation-Inducing Substances in Asteroid and Echinoid Oocytes

In starfish a hormonal peptide, gonad-stimulating substance(GSS), which is released from nervous tissue, acts on the gonadto produce a maturation-inducing substance (MIS), an inducerof oocyte maturation and spawning. MIS is 1-methyladenine (1-MA).This substance acts on the surface of the oocyte. Cytoplasmicmaturation as revealed by fertilizability is also induced by1-MA. The amount of 1-MA can be determined very accurately witha bioassay method using isolated oocytes. In 1-MA formation,GSS seems to enhance the methylation of some compound whichcontains a purine nucleus at its N1 site. The methyl donor isprobably S-adenosylmethionine. 1-Methylated precursor seemsto be transformed to 1-methyl AMP and then hydrolyzed into 1-methyladenosineand phosphate by phosphomonoesterase. 1-Methyladenosine is finallysplit into 1-MA and ribose by 1-methyladenosine ribohydrolase.So-called spontaneous maturation of oocytes isolated in seawater is due to the action of 1-MA produced in follicle cellseven in the absence of GSS. 1-MA is present in echinoid gonadsand seems to act as MIS also in these animals. Disulfidereducingagents such as dithiothreitol and 2,3-dimercapto-1-propanolinduce starfish oocyte maturation. On the other hand, sulfhydrylreagents such as p-chloromercuribenzoate, iodoacetamide, andN-ethylmaleimide suppressed 1-MA-induced oocyte maturation.Since Concanavalin A acts on the follicle cells to produce 1-MA,the action of this substance seems to be quite similar to thatof GSS.     

Extrafollicular mediation of oocyte maturation by radial nerve factor in starfish Pisaster ochraceus

In starfish ovaries follicle cells that envelop each oocyte are thought to mediate the production of a maturation inducing substance (MIS), identified as 1-methyladenine, that induces maturation and spawning of oocytes after exposure to a gonadotropic substance secreted by the radial nerve (RNF). Studies were carried out to assess the possible role of extrafollicular cells within the ovarian wall in mediating this signal transduction process in the ovary of Pisaster ochraceus. Oocyte maturation and spawning occurred following the addition of RNF to intact ovarian tissue in vitro whereas no maturation occurred following the addition of RNF to germinal vesicle (GV) oocytes or GV oocytes surrounded by follicle cells. In contrast, oocyte maturation occurred when small ovarian wall fragments, lacking mature follicles, were incubated with GV oocytes and RNF. Neither actinomycin D nor cycloheximide altered RNF induction of oocyte maturation in the presence of the ovarian wall tissue whereas preheating (boiling water for 5 min) the tissue obliterated its response to RNF. Non-ovarian tissues failed to produce MIS in response to RNF. Results suggest that ovarian components other than the follicle cells that envelop fully grown immature oocyte are responsive to RNF and represent a significant and previously unrecognised intra-ovarian source of MIS.     

In-vitro Production of Meiosis Inducing Substance (MIS) by Isolated Amphibian (Rana pipiens) Follicle Cells*

Previous studies indicated that pituitary hormone induced oocyte maturation in preovulatory amphibian ovarian follicles is mediated by somatic elements of the follicle. In this study procedures were developed for isolating and culturing follicle cells and their ability to produce meiosis inducing substance (MIS) was assessed. Defolliculated oocytes surrounded by a single layer of follicle cells but not denuded oocytes matured in response to frog pituitary hormone (FPH) stimulation. Cultured follicle cells secreted MIS following stimulation with FPH. The amount of MIS activity produced was related to the number of follicle cells cultured and the dose of FPH utilized. Radioimmunoassay (RIA) analysis of medium from follicle cell cultures demonstrated that FPH stimulated steroid (progesterone) secretion from these cells. Addition of cAMP to follicle cell cultures enhanced FPH stimulated steroid production. The results indicate that follicle cells retain FPH responsiveness when uncoupled from the immature oocyte and exhibit both MIS and steroid secretory functions.     

Meiotic competence in horse oocytes: interactions among chromatin configuration, follicle size, cumulus morphology, and season

Horse oocytes were collected from an abattoir over a 15-mo period. After classification of follicle size and cumulus morphology, oocytes were either fixed immediately (0 h) or matured in vitro (24 h). There was no effect of season on the number of antral follicles present on the ovaries, or on oocyte maturation rate for any class of oocyte. The proportion of oocytes having condensed chromatin at 0 h increased with increasing follicle size. The oocyte maturation rate also increased with follicle size, and for follicles 相似文献   

Spontaneous maturation of starfish oocytes: Role of follicle cells and calcium ions

Starfish oocytes released from the ovary into sea water during the breeding season underwent spontaneous meiotic maturation. In the absence of calcium ions, follicle cells surrounding the oocyte were dispersed and oocyte maturation did not occur. Immature oocytes in the absence of follicle cells did not mature even when calcium was available. Calcium ions stimulated the release of a meiosis-inducing substance from follicle cells which had been isolated in calcium-free sea water. Increasing numbers of follicle cells produced a parallel increase in the amount of meiosis inducing substance released. Spontaneous oocyte maturation appeared to be initiated and mediated in part by calcium sensitive processes in the follicle cells rather than the oocyte.     

MECHANISM OF STARFISH SPAWNING. III. PROPERTIES AND ACTION OF MEIOSIS-INDUCING SUBSTANCE PRODUCED IN GONAD UNDER INFLUENCE OF GONAD-STIMULATING SUBSTANCE

The gonad-stimulating substance (GSS) contained in nerve extract of the starfish, Asterina pectinifera, acts on the ovary to produce an active substance responsible for oocyte maturation, meiosis-inducing substance (MIS). MIS was successfully separated from GSS by gel-filtration on Sephadex. The MIS fraction had also spawning-inducing activity. Starfish testis also produced MIS under the influence of GSS. MIS production was shown in six starfish species. Although some species specificity characterizes GSS, this was not observed in MIS. Production of MIS in the ovary was found to begin immediately after the addition of GSS. The amount of MIS produced increased as the concentration of GSS was raised, and the longer the time of treatment with GSS, the greater was the amount of MIS produced. MIS was rather heatstable, insoluble in ether, benzene and petroleum ether but soluble in 95% ethanol. Its activity was not destroyed by pronase. Injection of MIS into the coelomic cavity induced gamete-shedding in both male and female. However, MIS failed to induce spawning when applied from the outside of the body. Both GSS and MIS were found in the coelomic fluid only when the starfish were undergoing natural spawning. A mechanism of starfish spawning, based on the action of GSS and MIS is discussed.     

Effects of gonadotropins on oocyte maturation and progesterone production by porcine ovarian follicles cultured in vitro

Effects of gonadotropins on the maturation of isolated oocytes and production of progesterone by porcine ovarian follicles from gonadotropin treated gilts have been studied in vitro. The addition of gonadotropins (2 I. U./ml, PMSG, HGC or 2 mg/ml FSH) to the culture medium resulted in increasing the number (84 - 90 %) of isolated oocytes which reached metaphase II. Expansion of the whole cumulus mass was observed only in media containing PMSG, whereas FSH or HCG alone did not cause these marked changes in the cumulus cells. Denudation of the eggs prior to culture gave no significant differences in the maturation rates between oocytes cultured in media with or without gonadotropins. In vitro maturation of follicle-enclosed oocytes took place only in HCG treated animals. Removing the ovary at 15 or 60 minutes after intravenous HCG administration induced oocyte maturation only in 22% and 17% respectively. A sharp increase in the number of oocytes which resume meiosis during follicle culture was observed 4 hours after HCG injection (84 %) and all of the oocytes of the gilts ovariectomized at 8 hours after HCG injection matured during the culture period. The progesterone production of isolated follicles from control gilts (only PMSG injected) increased slowly during a 96-hour culture period (from 48 to 240 ng progesterone/follicle), whereas the secretion of progesterone was drastically increased after a 15 minute interval between HCG injection and ovariectomy (from 42 to 950 ng progesterone/follicle). Follicles removed 24 hours after HCG injection showed a further increase in steroid production (2000 ng progesterone/follicle) and consistently secreted large amounts of progesterone during the culture period.     

Aspects of follicle and oocyte stage that affect in vitro maturation and development of bovine oocytes

Success of in vitro maturation (IVM) and production of bovine embryos as related to aspects of follicle source and oocyte size were evaluated. First, it was determined that bovine oocytes continue growing in all follicular sizes studied, including >1- to 15-mm follicles. Populations of oocytes were collected from surface visible (peripheral) and cortical follicles from the same ovaries. When the number of oocytes from both peripheral and cortical follicles was combined, the yield of oocytes was approximately double that collected from 1 ovarian site alone. Oocytes from cortical follicles were smaller than those from the surface population, and the smaller cortical oocytes had a lower potential for both meiotic maturation and embryo development Only cortical oocytes with the largest diameters underwent IVM and subsequently developed to blastocysts at rates comparable to oocytes from peripheral follicles. As the diameter of the oocytes recovered from peripheral follicles increased, so did their developmental potential. When the stage of the estrous cycle was observed, it was found to have no effect on developmental potential. Finally, oocytes which extruded polar bodies at an earlier time during maturation were, on average, larger than those which extruded polar bodies later. The results serve a practical purpose in assisting selection of oocytes capable of developing into blastocysts and they give useful correlates of oocyte competencies based on knowledge of follicle source and oocyte stage.     

In vitro inhibition of oocyte and follicular maturation and spawning in starfish (Asterias forbesi) by 2-4-dinitrophenol

The in vitro effects of 2-4-dinitrophenol (DNP) on spawning and follicular and oocyte maturation in starfish ovaries and its various cellular components were investigated. Spawning and oocyte and follicular maturation induced by starfish gonadotropin radial nerve factor (RNF) in isolated ovarian fragments were all inhibited by appropriate doses of DNP. DNP inhibits processes which occur shortly after addition of the gonadotropin; in ovarian fragments insensitivity to DNP inhibition occurred shortly after addition of RNF but prior to initiation of spawning. Spontaneous follicular and oocyte maturation which occurred following release of ovarian follicles into sea water was prevented by DNP. In non-spontaneously maturing follicles released from the ovary, DNP inhibited both follicle and oocyte maturation induced by the secondary stimulator of spawning and maturation, 1-methyladenine (1-MA). DNP also inhibited 1-MA induced meiotic maturation in isolated immature oocytes incubated in the absence of follicle cells. Inhibition of oocyte maturation was not associated with inhibition of 3H-1-MA incorporation by isolated oocytes. Immature oocytes incubated in the presence of DNP underwent maturation following washing and subsequent exposure to 1-MA. Immature oocytes initially exposed to both 1-MA and DNP, however, showed decreased maturation responsiveness following washing and re-exposure to 1-MA. The results suggest that the inhibitory effects of DNP on spawning and oocyte maturation are the result of direct effects on the oocytes and possibly other cells and tissues within the ovary.     

Evidence that Meishan and Large-White hybrid preovulatory follicles may differentially affect oocyte in vitro maturation and fertilization

Two experiments were carried out to test the hypothesis that follicles recovered from Meishan animals may provide a more favourable environment for oocyte maturation in vitro than follicles recovered from Large-White hybrid animals. In Experiment 1, all follicles ≥4 mm were recovered from six Meishan and seven Large-White hybrid gilts in the late follicular phase and healthy oocyte cumulus complexes recovered. Cumulus oocyte complexes were randomly divided into two groups, and each group cultured for 27 or 34 h (62 and 64; 56 and 56 for Meishan and Large-White hybrid, respectively) in defined medium in the presence of either of the two largest follicle shells per animal. Subsequent examination of oocyte nuclear maturation showed that although maturation did not differ significantly between the breeds after 27 h, more (P<0.01) Meishan oocytes co-cultured with Meishan follicles developed to metaphase II stage than Large-White hybrid oocytes co-cultured with Large-White hybrid follicles after 34 h. The next eight largest follicles per animal were cultured for 34 h to produce conditioned media. In Experiment 2, oocytes recovered from the slaughterhouse were matured for 46 h in the presence of conditioned media from Meishan (612 oocytes) or Large-White hybrid (731 oocytes) follicles, or in fresh medium in the presence of a follicle shell from slaughterhouse ovaries. Oocytes were then inseminated and 12 h later examined for penetration and male pronuclear formation. A higher (P<0.05) percentage of oocytes cultured in Meishan follicle conditioned medium underwent sperm penetration and male pronuclear formation than oocytes cultured in conditioned media from Large-White hybrid animals. Concentrations of oestradiol and progesterone in the conditioned media did not differ between the breeds (P>0.1). In conclusion, these results suggest that (1) Meishan oocytes have advanced maturational capacity when cultured with Meishan preovulatory follicle shells and (2) differences in follicle maturation in the Meishan compared to the Large-White hybrid pig may result in an improved ability of the follicles, via conditioned media, to support oocyte maturation and fertilization in vitro.     

Developmental stage of the oocyte during antral follicle growth and cumulus investment determines in vitro embryo development of sow oocytes

The aim of the study was to determine the contribution of cumulus cells on the developmental competence of porcine oocytes during follicle growth. Oocytes from large (5-8mm) and small (2-3mm) follicles were cultured with or without follicle stimulating hormone (FSH), subsequently examined for nuclear stage and spindle morphology, or fertilized and cultured for embryo development, or analyzed for glutathione content. Additionally, the significance of cumulus investment, corona radiata cells, cumulus cell number and origin of cumulus cells for oocyte maturation were investigated. Small follicle oocytes cultured without FSH exhibited the highest incidence of spindle aberrations. Oocytes cultured without FSH exhibited reduced sperm penetration and blastocyst rates, and a higher proportion monospermic oocytes developed to the blastocyst stage when derived from large follicles. The glutathione content in oocytes increased during follicle growth and oocyte maturation, but no direct correlation between oocyte glutathione content and oocyte developmental capacity was observed. Oocytes with a bigger cumulus investment exhibited better embryo development. Oocytes with a single corona radiata cell layer (CROs) exhibited similar progression through meiosis to oocytes with more cumulus cell layers, but showed reduced embryo development. More blastocysts were observed when CROs were cultured with disconnected cumulus cells during IVM, but no blastocyst increase was observed when CROs were cocultured with a higher number of cumulus cells or with cumulus cells from large follicles. We conclude that increased developmental capacity of oocytes during follicle growth is intrinsic and whether cumulus cells originate from large or small follicles, their contribution to oocyte maturation remains unchanged. Further, cumulus investment can be used as a variable to predict oocyte developmental capacity.     

Extracellular and intracellular factors affecting nuclear and cytoplasmic maturation of porcine oocytes collected from different sizes of follicles

Nuclear and cytoplasmic maturation of porcine oocytes collected from different sizes of follicles were examined. Oocyte-cumulus complexes were collected from small (1-2 mm in diameter), medium (3-6 in diameter) and large (7-8 mm in diameter) follicles and cultured in a modified tissue culture medium 199 for 44 h. Nuclear maturation was evaluated after orcein staining, and cytoplasmic maturation was evaluated by intracellular glutathione (GSH) assay. Oocyte diameter, cumulus morphology, steroid hormones and glutathione in the follicular fluid (FF), were also examined. Significantly higher proportions of oocytes collected from large and medium follicles reached metaphase II than did oocytes from small follicles. Oocytes from small follicles also had a smaller size. GSH content was significantly higher (p < 0.05) in oocytes from large (14.24 +/- 2.1 pmol/oocyte) and medium (13.69 +/- 1.5 pmol/oocyte) follicles than in oocytes from small (9.44 +/- 1.28 pmol/oocyte) follicles just after collection. After maturation, oocytes from medium follicles had a higher GSH concentration than oocytes from small follicles. It was found that between 49.7 +/- 5.18 nM and 52.25 +/- 0.78 nM GSH was present in FF but there was no statistical difference between follicle sizes. A significantly higher (p < 0.001) estradiol level was present in FF from large follicles (299.2 +/- 68.6 ng/ml) than from medium (40.0 +/- 6.4 ng/ml) and small (41.2 +/- 3.7 ng/ml) follicles. Progesterone concentrations in FF from large (281.6 +/- 45.9 ng/ml) and medium (267.5 +/- 38.6 ng/ml) follicles were significantly higher than that (174.7 +/- 22.0 ng/ml) from small follicles. These results indicate that the oocyte's ability to accumulate intracellular GSH during maturation, and extracellular steroid hormones and cumulus cells, affect the competence of porcine oocytes to undergo nuclear and cytoplasmic maturation.     

In vitro Inhibition of Oocyte and Follicular Maturation and Spawning in Starfish (Asterias forbesi) by 2-4-Dinitrophenol

The in vitro effects of 2-4-dinitrophenol (DNP) on spawning and follicular and oocyte maturation in starfish ovaries and its various cellular components were investigated. Spawning and oocyte and follicular maturation induced by starfish gonadotropin radial nerve factor (RNF) in isolated ovarian fragments were all inhibited by appropriate doses of DNP. DNP inhibits processes which occur shortly after addition of the gonadotropin; in ovarian fragments insensitivity to DNP inhibition occurred shortly after addition of RNF but prior to initiation of spawning. Spontaneous follicular and oocyte maturation which occurred following release of ovarian follicles into sea water was prevented by DNP. In non-spontaneously maturing follicles released from the ovary, DNP inhibited both follicle and oocyte maturation induced by the secondary stimulator of spawning and maturation, 1-methyladenine (1-MA). DNP also inhibited 1-MA induced meiotic maturation in isolated immature oocytes incubated in the absence of follicle cells. Inhibition of oocyte maturation was not associated with inhibition of ³H-1-MA incorporation by isolated oocytes. Immature oocytes incubated in the presence of DNP underwent maturation following washing and subsequent exposure to 1-MA. Immature oocytes initially exposed to both 1-MA and DNP, however, showed decreased maturation responsiveness following washing and re-exposure to 1-MA. The results suggest that the inhibitory effects of DNP on spawning and oocyte maturation are the result of direct effects on the oocytes and possibly other cells and tissues within the ovary.     

Preimplantation embryonic development of spontaneous mouse parthenotes after oocyte meiotic maturation in vitro

Of eggs ovulated in LT/Sv mice, 10–20% undergo spontaneous parthenogenetic activation, and 40–50% of the parthenotes develop to blastocysts when cultured in simple defined medium from the one-cell stage. Similar percentages of oocytes isolated from Graafian follicles undergo parthenogenetic activation after spontaneous maturation in simple defined medium, but embryonic development proceeds no further than the two-cell stage. The simple defined medium that supported preimplantation development of ovulated eggs and spontaneous maturation of extrafollicular oocytes contained no serum, free amino acids, or vitamins. The present experiments were conducted to determine what conditions during spontaneous maturation of extrafollicular oocytes could promote the ability of oocytes to develop to blastocysts after parthenogenetic activation and mimic the environment of preovulatory follicles. Cumulus-enclosed oocytes that were matured in simple medium supplemented with fetal bovine serum (FBS) developed to blastocysts after spontaneous parthenogenetic activation. Furthermore, minimum essential medium (MEM), a complex medium containing free amino acids and vitamins, could substitute completely for FBS for maturing oocytes from (C57BL/6J × LT/Sv)F₁ mice, and to a lesser extent for maturing LT/Sv oocytes. Therefore, even though germinal vesicle breakdown in mouse oocytes and preimplantation development of mouse eggs can occur in the absence of an exogenous supply of free amino acids and vitamins, a complete, or normal, mouse oocyte maturation cannot. These results also demonstrated that gonadotropins are not necessary during oocyte meiotic maturation for parthenogenetically activated eggs to develop through the preimplantation stages. Luteinizing hormone or 17β-estradiol in MEM during oocyte maturation had no effect on the subsequent development of parthenotes. In contrast, follicle stimulating hormone (FSH) and progesterone in the maturation medium decreased the number of ova that subsequently cleaved, and FSH decreased the number of cleaved eggs that developed to blastocysts.     

Effects of gonadotrophins, growth hormone, and activin A on enzymatically isolated follicle growth, oocyte chromatin organization, and steroid secretion

So far, standard follicle culture systems can produce blastocyst from less than 40% of the in vitro matured oocytes compared to over 70% in the in vivo counterpart. Because the capacity for embryonic development is strictly associated with the terminal stage of oocyte growth, the nuclear maturity status of the in vitro grown oocyte was the subject of this study. Mouse early preantral follicles (100-130 microm) and early antral follicles (170-200 microm) isolated enzymatically were cultured for 12 and 4 days, respectively, in a collagen-free dish. The serum-based media were supplemented with either 100 mIU/ml FSH (FSH only); 100 mIU/ml FSH + 10 mIU/ml LH (FSH-LH); 100 mIU/ml FSH + 1 mIU/ml GH (FSH-GH) or 100 mIU/ml FSH + 100 ng/ml activin A (FSH-AA). Follicle survival was highest in follicle stimulating hormone (FSH)-AA group in both cultured preantral (91.8%) and antral follicles (82.7%). Survival rates in the other groups ranged between 48% (FSH only, preantral follicle culture) and 78.7% (FSH only, antral follicle culture). Estradiol and progesterone were undetectable in medium lacking gonadotrophins while AA supplementation in synergy with FSH caused increased estradiol secretion and a simultaneously lowered progesterone secretion. Chromatin configuration of oocytes from surviving follicles at the end of culture revealed that there were twice more developmentally incompetent non-surrounded nucleolus (NSN) oocytes (>65%) than the competent surrounded nucleolus (SN) oocytes (<34%). We conclude that the present standard follicle culture system does not produce optimum proportion of developmentally competent oocytes.     

Characterization and action of meiotic maturation inhibitors in starfish ovary

Mechanical release of oocytes from the ovary of the starfish Asterias amurensis into sea water results in “spontaneous” meiotic maturation of the oocytes. The substances blocking the maturation of Asterias oocytes have been purified from the ovary and shown to be steroid glycosides named asterosaponins A and B. The extract prepared from isolated oocytes was incapable of inhibiting oocyte maturation. The ovarian extract inhibited the production of 1-methyladenine (1-MA) in follicle cells surrounding the oocyte. The ovarian extract failed to influence 1-MA-induced maturation of the oocyte with or without follicle cells. It can be concluded from the present results that the role of the ovarian extract containing steroid glycosides is to arrest “spontaneous” production of 1-MA in follicle cells. The suppression can be overcome by the action of a gonadotropic peptide hormone released from the nerve tissue.     

A reversible, hydrogen ion blockade of spontaneous oocyte maturation in the starfish: locus of action.

Starfish (Asterias forbesi) oocytes encased within their follicle cells mature spontaneously during a portion of the normal reproductive period when released from the ovary into seawater. A previous report has shown that oocytes isolated in acidic seawater do not mature spontaneously but retain the capacity to do so when returned to normal seawater. The object of this study was to determine the mechanism by which acidic pH reversibly blocks spontaneous oocyte maturation in isolated follicles. Incidence of spontaneous oocyte maturation in follicles isolated in acidic seawater decreased as pH decreased from 7 to 4. Oocytes in which spontaneous maturation was inhibited (ASW at pH 4.7 TO 5.4) underwent germinal vesicle breakdown with the addition of 1-methyladenine. Oocytes isolated in acidic seawater (pH 4 or 5) with intact follicle cells matured spontaneously when transferred immediately to normal seawater pH 8); after four hours, 60-65% of the follicles incubated in seawater at pH 5 matured spontaneously when returned to normal seawater as compared to less than 10% of the follicles maintained at pH 4. Inhibition of spontaneous maturation was not reversible in the absence of the follicle cells. Oocytes isolated in acidic seawater with their follicle cells did not spontaneously mature when transferred to calcium-free seawater at pH 8. The results obtained support the hypothesis that acidic seawater reversibly inhibits spontaneous oocyte maturation by interfering with the release of meiosis-inducing substance from the follicle cells.     

The role of follicle cells in Rana pipiens oocyte maturation induced by delta 5-pregnenolone.

Previous studies have indicated that pituitary-initiated oocyte maturation in the amphibian is mediated by steroidogenesis in the somatic portion of the follicle. This study compares the ability of (1) oocytes surrounded by a single layer of follicle cells, (2) denuded oocytes, and (3) isolated follicle cells to metabolize Δ⁵-pregnenolone, the common precursor of the steroids. Use of radiolabeled compounds demonstrates that the conversion of Δ⁵-pregnenolone to progesterone is confined to the follicle cells, while further reduction of progesterone takes place in the oocyte. The follicle cells also convert Δ⁵-pregnenolone to a form more potent in inducing meiotic maturation. Thus, the behavior of follicle cells in isolation is consistent with the suggested site of pituitary action leading to meiotic maturation as proposed by an earlier theory.     

Effect of 5-Hydroxytryptamine on Steroidogenesis and Oocyte Maturation in Pre-ovulatory Follicles of the Medaka Oryzias latipes

The effect of 5-hydroxytryptamine (5-HT) on steroidogenesis and oocyte maturation in pre-ovulatory follicles of the medaka Oryzias lalipes was examined using in vitro culture system. The earliest breakdown of the germinal vesicle of intrafollicular oocytes occurred about 17 hr after the beginning of incubation in the presence of 5-HT at concentration of 10 ng/ml or more. 5-HT induced oocyte maturation in a dose-dependent manner. Cyanoketone inhibited this stimulation. The concentration of 5-HT required to induce oocyte maturation corresponded to that required to enhance the production (secretion) of estradiol-17β and 17α,20β-dihydroxy-4-pregnen-3-one by pre-ovulatory follicle cells. At a concentration of 1 μg/ml, the follicle had to be exposed to 5-HT for at least 4 hr for oocyte maturation accompanied by ovulation to occur. These results indicate that 5-HT induces in vitro maturation of medaka oocytes by stimulating 17α,20β-dihydroxy-4-pregnen-3-one production by pre-ovulatory follicular cells.