Induction and inhibition of meiotic maturation of amphibian (Rana dybowskii) follicular oocytes by forskolin and cAMP in vitro

Previous studies have demonstrated that direct or indirect elevation of cAMP levels in cultured amphibian ovarian follicles simultaneously stimulated production of oocyte maturation-inducing steroid (progesterone) by the follicles and inhibited oocyte maturation induced by endogenous or exogenous hormone. The duration of cAMP stimulation influenced arrest and reinitiation of oocyte meiotic maturation in ovarian follicles of Rana dybowskii. Addition of forskolin (adenylate cyclase stimulator) to cultured follicles inhibited both progesterone- and frog pituitary homogenate (FPH)-induced oocyte maturation. Similar inhibitory results were obtained when hormone-treated follicles were cultured in the continual presence of cAMP. Oocyte maturation increasingly occurred in follicular oocytes when cAMP or forskolin addition was delayed following treatment with FPH or progesterone. Transient exposure (6-8 hr) of ovarian follicles to forskolin or cAMP markedly stimulated oocyte maturation as well as accumulation of progesterone as measured by radioimmunoassay within the ovarian follicles. Forskolin was more effective than cAMP, at the dose tested, in stimulating progesterone production and accumulation by the follicles. The data demonstrate that transient manipulation (elevation) of cAMP levels in cultured follicles, without added FPH or steroid, was sufficient to initiate oocyte maturation. Results suggest that, with transient exposure to forskolin or exogenous cAMP, there is a sequential increase and decrease in endogenous cAMP levels in the somatic cells and germ cell components of the ovarian follicle. These changes appear to mediate production of maturation-inducing steroid and secondarily allow its effects on the oocyte to be expressed.     

Cloning of ribosomal protein S6 kinase cDNA and its involvement in meiotic maturation in Rana dybowskii oocytes

Several protein kinases are involved in the meiotic maturation of frog oocytes in order to activate the maturation-promoting factor (MPF). Among these kinases, the 90 kDa ribosomal protein S6 kinase (p90Rsk or Rsk) is directly phosphorylated and activated by the mitogen-activated protein kinase (MAPK). During Xenopus oocyte maturation, the activation of Rsk closely parallels that of MAPK. Both enzymes are dephosphorylated when the cytostatic factor (CSF) disappears after fertilization. Therefore, Rsk seems to play an essential role in the activation of MPF. To evaluate it in other frog oocytes, we cloned and characterized Rsk cDNA in Rana dybowskii oocytes. The cloned Rana Rsk cDNA had 2,961 bp of nucleotides, which contained a complete single open-reading frame with ATG codon and polyadenylation signal. The deduced amino acid sequence of Rana Rsk is 733 amino acids with 83 kDa. Rana Rsk shows a high homology (about 88%) with Xenopus Rsk. It also had two well-conserved kinase domains with specific phosphorylation sites, which are known to be essential for the activation of Rsk. A Northern analysis showed that Rana Rsk mRNA was strongly expressed in ovary tissue, but weakly in other tissue. Rana Rsk protein is expressed with the pTYB1 vector and purified with the IMPACT-CN system. The purified Rana Rsk cross-reacted with Xenopus, a p90Rsk2 antiserum. Therefore, we examined the phosphorylation of Rana Rsk during Rana oocyte maturation. In P4-treated oocytes, Rana Rsk was phosphorylated about 6-9 h, which correlated well with the germinal vesicle breakdown of Rana oocytes. Therefore, it is likely that Rana Rsk plays an important role in the meiotic maturation of seasonal breeding animals.     

Spontaneous oocyte maturation in Rana pipiens: Estrogen and follicle wall involvement

Immature (germinal vesicle stage) Rana pipiens oocytes typically remain arrested in prophase I of meiosis even after extended periods of in-vitro culture, if not stimulated with hormones. We have, however, sporadically observed “spontaneous” occurrences of oocyte maturation in vitro without the addition of hormones. This study documents some of our observations on this phenomenon and presents experimental results concerning the effects and possible involvement of estrogen and follicle wall components in regulating spontaneous oocyte maturation. Estrogen was found to inhibit spontaneous oocyte maturation (GVBD) in a dose-dependent fashion. Follicles in which spontaneous maturation was inhibited by estrogen retained their responsiveness (GVBD) to both frog pituitary homogenate (FPH) and progesterone stimulation. Inhibitory effects of estrogen on spontaneous maturation, however, were not reversed following incubation of washed follicles in plain culture medium without added hormones. Possible involvement of progesterone synthesis in spontaneous oocyte maturation was ascertained by simultaneously monitoring endogenous progesterone synthesis and the occurrence of spontaneous GVBD over the course of the maturation process. In spontaneous maturing follicle there was a gradual increase in basal levels of progesterone synthesis that preceded GVBD. Significantly, addition of estrogen abolished both the spontaneous progesterone production and spontaneous oocyte maturation. When FPH was added to follicles exhibiting spontaneous oocyte maturation, progesterone production was augmented and the time course of oocyte maturation was greatly accelerated. Involvement of ovarian components in the maturation process was investigated by selective removal of various follicle layers by microdissection. Removal of follicle epithelium and theca layer (defolliculation) markedly decreased spontaneous and FPH-induced maturation, whereas removal of the entire follicle wall (denudation) completely blocked it. Our results suggest that both spontaneous and FPH-induced maturation involve an estrogen sensitive process in the follicle wall. Thus, somatic follicle cells appear to serve as a common mediator for both types of maturation, which are linked by some intrafollicular mechanism involving steroidogenesis. Hence, estrogen may play an important role as an endogenous intrafollicular regulator of oocyte meiotic maturation.     

In vitro maturation and fertilization of follicular oocytes in cattle

This work aims towards developing research concerning the improvement of animal reproduction, embryo development and genetic engineering. In our laboratory, an attempt has been made to standardize in vitro conditions able to optimally support bovine oocyte maturation and fertilization in order to yield viable embryos. Ovaries from cows and heifers, obtained from local slaughter-house, were used for recovery of oocytes from antral follicles. Cumulus-oocyte complexes were statically cultured for 24h at 39 degrees C in medium TCM 199 supplemented with fetal calf serum inactivated, hormones, glucose and granulosa cells under a 5% CO2 and 95% humidity atmosphere. A first group of oocytes was used for fixing and staining procedure for evidence of in vitro maturation. After culture 69.4% (77/111) of oocytes reached full maturation showing cumulus expansion, first polar body extrusion and the 2nd metaphase plate. A 2nd group was used for in vitro fertilization. In vitro semen capacitation was obtained with swim-up system (8.9) with separation of high motility fraction in Talp Hepes medium. Oocytes and spermatozoa were coincubated for 18-20h in Talp medium at 39 degrees C with 5% CO2 and 95% humidity. At the end of culture stereoscope and microscope observations were made for evidence of fertilization. After IVF 67.4% (58/86) resulted fertilized. Most of them showed two pronuclei and residual sperm tail. In few cases oocytes with 1 pronucleus and the swollen sperm head or with syngamy or polyspermic were found. In these experiments high percentages of in vitro matured and in vitro fertilized oocytes have been obtained. These bovine zygotes can be considered an essential step to develop new technologies in cattle breeding.     

Preovulatory follicular fluid during in vitro maturation decreases polyspermic fertilization of cumulus-intact porcine oocytes in vitro maturation of porcine oocytes

Porcine follicular fluid (pFF), as a supplement of maturation media, has been shown several times to improve the in vitro production (IVP) of porcine embryos. As a transudate of serum, pFF contains locally produced factors in addition to the ones derived from serum. The objective of this study was to determine the additional positive effects of these pFF specific factors on the nuclear and cytoplasmic maturation of porcine oocytes. Follicular fluid and autologous serum were collected from sows in the preovulatory phase of the estrous cycle. Subsequently, oocytes from prepubertal gilts were matured in NCSU23 supplemented with either 10% pFF or 10% autologous serum derived from the same sow. Oocytes were then fertilized and the putative zygotes were cultured for 7 days. Nuclear maturation and cumulus expansion were assessed after the maturation culture. For evaluation of cytoplasmic maturation, oocyte glutathione (GSH) content, fertilization parameters and embryonic development were evaluated. After in vitro maturation (IVM) of the oocytes, both cumulus expansion rate and oocyte GSH content were increased for oocytes matured in pFF (P<0.05). More monospermic penetration was found when cumulus-intact oocytes had been matured in 10% pFF but this effect was lost after fertilization of cumulus denuded oocytes indicating that the pFF was acting through the cumulus. We speculate that the increased cumulus expansion and increased glutathione content, which were prevalent after IVM in pFF, are responsible for the positive effects on fertilization and the pre-implantation development of the embryos.     

Recovery, morphological quality, and in vitro maturation of follicular oocytes from bitches with pyometra

The objective of this study was to collect oocytes from ovaries of bitches with pyometra and to characterize the quality of the oocytes recovered. In 10 of 12 cases of pyometra, follicles with a diameter of 500 microm to 1mm were observed in the ovaries. A total of 710 oocytes were collected from 10 bitches by puncturing individual follicles after slicing the ovarian tissues. Oocyte recovery was successful from a bitch with severe clinical signs of pyometra. Of the oocytes collected, 53.5% were surrounded by > or =2 layers of cumulus cells, and 55.0% of these cumulus-oocyte complexes (COCs) had a darkly pigmented ooplasm >110 microm in diameter (large-dark COCs). The number of large-dark COCs per bitch varied from 1 to 72. A germinal vesicle with fine filaments of chromatin (Type A) was observed in 51.8% (range 21.1-100%) of the oocytes of large-dark COCs. Out of 50 oocytes cultured for 72 h, 6.0% developed to Metaphase II. In conclusion, there were many follicles with a diameter of 500 microm to 1mm in ovaries of bitches with pyometra, and many oocytes recovered from these follicles underwent meiotic maturation in vitro. The number of oocytes and COCs, and the morphological quality of the germinal vesicles varied among individual bitches.     

Estradiol synergism and inhibition of insulin-induced meiotic maturation in Rana pipiens oocytes in vitro

Estradiol 17-β (E2) was found to either inhibit or synergize Na-insulin (Ins)-induced meiotic maturation of Rana oocytes. Inhibition of Ins activity occurred in the presence of the follicular investments of the oocyte; synergism with Ins occurred in oocytes denuded of the follicle wall. Similarly, co-incubation of E2 with frog pituitary homogenate (FPH) or pregnenolone (Pe) significantly decreased meiotic reinitiation as determined by germinal vesicle dissolution (GVD) in follicle-enclosed oocytes. By contrast, E2 had no consistently significant effect on progesterone (P)-induced meiosis in follicle-enclosed oocytes. Furthermore, E2 had no significant effect, either inhibitory or synergistic, on Pe- or P-induced GVD of denuded oocytes. Thus, of the meiotogens tested (Ins, P, Pe, FPH), all but P were consistently inhibited by E2 in the presence of the follicle wall. Na-insulin was the only meiotogen tested (Ins, P, Pe) which was potentiated by E2 in denuded oocytes, However, when E2 and Ins were spatially separated on the surface of individual intact follicles, the result was synergism of Ins-induced GVD rather than inhibition. These results suggest that Ins acts to induce GVD in the denuded oocyte through a mechanism distinct from that used by P (ie, Ins mechanism allows E2 synergism while the P mechanism does not). The E2 inhibitory effect on Ins-induced GVD appears to be dependent upon simultaneous exposure of follicle wall tissue to mixtures of E2 and Ins. The synergistic effect of E2 on Ins-induced GVD is dependent upon the simultaneous exposure of the oocyte surface to Ins and E2, either as a homogenous mixture in the case of denuded oocytes or as single substances at independent sites, for follicle-enclosed oocytes.     

Role of cAMP in modulating intrafollicular progesterone levels and oocyte maturation in amphibians (Rana pipiens)

The role of cAMP in regulating follicular progesterone levels and oocyte maturation was investigated following in vitro culture of amphibian (Rana pipiens) ovarian follicles. Intrafollicular levels of cAMP were manipulated with the use of a stimulator of cAMP synthesis (forskolin) or by exogenous addition of cAMP alone or either of these in combination with an inhibitor of cAMP catabolism (3-isobutyl-1-methyl xanthine, IBMX). Follicular progesterone content was determined by RIA and oocyte maturation was assessed cytologically. In the presence of increasing doses of forskolin (0-3 microM), cAMP (0-3 mM), or dibutyryl cAMP (dbcAMP, 0-2.5 mM) increasing but low levels of progesterone were detected. Increasing doses of IBMX (0-0.09 mM) alone had no significant effect on follicular steroid content. Exogenous cAMP, dbcAMP, or IBMX (0.09 mM) suppressed hormone-induced oocyte maturation. Simultaneous exposure of follicles to increasing doses of both forskolin (0-3 microM) and IBMX (0-0.09 mM) markedly increased intrafollicular progesterone levels to those produced by frog pituitary homogenate (FPH). A marked increase in progesterone levels also occurred when follicles were exposed to exogenous cAMP (3 mM) and IBMX (0.09 mM). These results indicate that exogenous cAMP is incorporated by follicle cells and that forskolin effects are mediated through cAMP. Changes in follicular progesterone levels (increase and decrease) over time following FPH or cAMP manipulation (cAMP + IBMX or forskolin + IBMX) were essentially identical. In contrast to cAMP, cGMP was inactive in inhibiting hormone induced GVBD or stimulating follicular progesterone accumulation. Elevation of follicular and medium levels of progesterone resulting from FPH or cAMP stimulation required the presence of the somatic follicular cells. The decrease in follicular progesterone levels with prolonged culture was not associated with a corresponding increase in progesterone levels in the medium. The decrease in follicular progesterone levels appears to reflect steroid catabolism rather than loss of steroid to the culture medium. The results suggest that the level of intracellular cAMP in the follicle cells is modulated by the relative activity of the adenylate cyclase system and phosphodiesterase and that FPH can affect both components. Thus, intracellular levels of cAMP play a key role in regulating follicular progesterone levels and FPH action on the follicle cells. The steroidogenic capacity of follicle cells can be manipulated independently of FPH stimulation.     

Spontaneous maturation in vitro of cumulus-enclosed rat oocytes is inhibited by forskolin

We have recently reported that the adenylate cyclase activator, forskolin, induces in the rat ovarian follicle both cAMP accumulation and oocyte maturation. We demonstrate here, on the other hand, that the spontaneous maturation in vitro of isolated rat cumulus-enclosed oocytes is inhibited by forskolin. The inhibitory effect of forskolin is dose dependent with an ED50 at 15 microM. Forskolin inhibition decreases gradually with time, being completely relieved by 20 h of culture. Methylisobutylxanthine significantly prolongs the duration of the inhibitory action of forskolin. In addition to its inhibitory effect on oocyte maturation, forskolin triggers the cumulus-oocyte complex to generate cAMP. Cyclic AMP accumulation is maximally stimulated by 100 microM of forskolin with an ED50 at 60 microM. The potency of the cumulus-oocyte complex to respond to forskolin in terms of cAMP accumulation decreases with time. The pattern of the decrease in the potency of the cumulus-oocyte complexes to generate cAMP corresponds with the relief of its inhibitory influence on the oocyte. These results indicate that inhibition of maturation of the cumulus-enclosed oocyte may be coupled to elevation of cAMP levels in the cumulus-oocyte complex. As isolated cumulus-free oocytes are not inhibited by forskolin, we suggest that in the cumulus-enclosed oocyte system, cAMP generated by the cumulus cells is apparently transferred to the oocyte and maintains it in a meiotically arrested state. Maturation in this system occurs upon relief of inhibition which results from cessation of cAMP generation by the cumulus cells.     

Rescue and maturation in vitro of follicular oocytes collected from nondomestic felid species.

The potential for rescuing immature oocytes from the ovaries of females of rare felid species which die or undergo medical ovariohysterectomy was evaluated. Ovaries were recovered from 13 species representing 35 individuals in good-to-poor health. Although the majority of females were 10 yr of age or older and in fair-to-poor health, a total of 846 oocytes were recovered of which 608 (71.9%) were classified as fair-to-excellent quality. One hundred of these oocytes were used for initial maturation classification and as parthogenetic controls. Overall, of the 508 fair-to-excellent quality oocytes placed in culture, 164 (32.3%) matured to metaphase II in vitro. For species in which 3 or more individuals yielded oocytes, mean oocyte maturation rates were as follows: 36.2%, tiger; 27.9% leopard; and 8.3%, cheetah. In vitro insemination of oocytes resulted in fertilization (2 polar bodies, 2 pronuclei, or cleavage) rates of 9.1% to 28.6% (leopard) using homologous fresh spermatozoa and 4.0% (lion) to 40.0% (puma) using homologous frozen-thawed spermatozoa. Inseminations using heterologous (domestic cat) spermatozoa also resulted in fertilized oocytes in the tiger, leopard, snow leopard, puma, serval, and Geoffroy's cat (range in fertilization rate, 5.0% for leopard to 46.2% for puma). Cleaved embryos resulted from the insemination of leopard oocytes with homologous sperm (n = 1 embryo) and puma oocytes with domestic cat sperm (n = 3 embryos). These results demonstrate that immature ovarian oocytes from rare felid species can be stimulated to mature in vitro despite an excision-to-culture interval as long as 36 h.(ABSTRACT TRUNCATED AT 250 WORDS)     

Influence of culture medium osmolality on maturation and ovulation of Rana temporaria oocytes stimulated in vitro by the pituitary gland extract or progesterone

The influence of diluted Ringer solution on ovulation and maturation of common frog oocytes stimulated in vitro by homologous pituitary extract (0.005 pit/ml) or progesterone (1 pg/ml) was studied. During wintering, the dilution of Ringer solution led to a decreased percentage of oocytes ovulated and matured under the influence of both inducers. As the season of reproduction approached, the dependence of oocyte maturation and ovulation on the Ringer solution dilution weakened. Possible causes of different dependence of the ovulation of amphibian and sturgeon oocytes stimulated by gonadotropic hormones or progesterone on the culture medium osmolality is discussed.     

In vitro maturation, fertilization and development of follicular oocytes from buffalo (Bubalus bubalis).

Cumulus-oocyte complexes, 5596, were cultured for 24 h in either TCM-199 or Ham's F-10 with or without gonadotrophins and supplemented with either 20% buffalo oestrous serum (BES) or fetal calf serum (FCS). The maturation rates of oocytes cultured in TCM-199 or Ham's F-10 medium supplemented with 20% BES were 47.4 +/- 17.8 and 44.8 +/- 25.6, respectively. Addition of luteinizing hormone (LH) (5 micrograms ml-1) significantly improved the maturation rate in the Ham's F-10 medium supplemented with 20% BES (76.8 +/- 18.3), but follicle-stimulating hormone (FSH) (0.5 micrograms ml-1) and oestradiol (1 microgram ml-1) failed to synergize with LH (71.7 +/- 19.5). In the TCM-199 system, LH failed to enhance the maturation rate but the addition of FSH and oestradiol significantly enhanced the proportion of mature oocytes (42.7 +/- 1.4 and 81.7 +/- 14.5, respectively; P less than 0.05). Frozen-thawed spermatozoa prepared in Bracket and Oliphant (BO) medium and treated with 5 mmol caffeine 1(-1) + 10 micrograms heparin showed a higher fertilization rate (29.8%) than those treated in Hepes-Talp and treated with 10 micrograms heparin ml-1 (19.6%). Fertilization rate was significantly improved when fresh ejaculated spermatozoa treated with 5 mmol caffeine 1-1 and 10 micrograms heparin in BO medium (50%) was used. Rate of cleavage and development were also higher when in vitro fertilization was carried out with fresh ejaculated spermatozoa treated with caffeine and heparin (34.1 and 36.8%, respectively) than with frozen-thawed spermatozoa (27.0 and 22.0%, respectively). Development rate was enhanced when fertilized ova were cultured in ligated rabbit oviduct (28.0%) than when co-cultured on oviductal cell monolayers (8.2%). The results indicate that oocytes cultured in medium supplemented with BES and gonadotrophins reveal high rates of maturation and development to the blastocyst stage after fertilization with fresh ejaculated spermatozoa.     

The maturation response of stage IV, V, and VI Xenopus oocytes to progesterone stimulation in vitro

Full-grown Xenopus oocytes, Stage VI (1200-1300 microns), undergo meiotic maturation when exposed to progesterone. Smaller stage IV (800 microns) and stage V (1000 microns) oocytes remain in prophase arrest when exposed to this steroid. The larger stage VI oocytes undergo an intracellular alkalization from 7.2 to 7.6, a six- to eightfold increase in the phosphorylation of the 40 S ribosomal protein S-6, and a two- to threefold increase in total protein synthesis when exposed to progesterone. It was found that 800- to 1000-microns oocytes do not undergo these physiological changes when exposed to progesterone. This lack of response could explain the failure of small oocytes to undergo germinal vesicle breakdown (GVBD). However, when stage IV and V oocytes were artificially alkalized to a pHi of 7.6 by the weak bases, trimethylamine, procaine, or methylamine, S-6 phosphorylation was stimulated four- to sixfold and protein synthesis was stimulated two- to threefold, but they still did not undergo GVBD. Stage IV and V oocytes are able to amplify MPF injected into their cytoplasm and undergo GVBD. Thus, 800- to 1000-microns oocytes appear to contain a store of inactive MPF in their cytoplasm. It seems that an additional physiological parameter(s), that is unique to steroid-treated stage VI oocytes, is responsible for activating this MPF which induces GVBD.     

Influence of luteinizing hormone and progesterone on maturation and fertilizability of rat oocytes in vitro

The effects of luteinizing hormone (NIH-bovine LH) and progesterone on maturation in vitro of oocyte-cumulus complexes from adult proestrous rats were studied by comparing proportions of oocytes showing germinal vesicle breakdown, mucification of the cumulus oophorus, and fertilizability. Addition of either or both of the hormones to the medium in concentrations between 1.25 and 10 μg/ml during maturation had no discernible effect on germinal vesicle breakdown or on fertilization. Mucification was stimulated by LH and even more by LH plus progesterone. It was concluded that maturation in vivo is the result of concerted action of the two hormones. However, addition of LH + progesterone had no effect on the fertilizability of these oocytes. We attribute this to a relative insensitivity of the system for fertilization in vitro to subtle changes in the oocyte.     

Effect of sheep and human follicular fluid on the maturation of sheep oocytes in vitro

This study examines the effect of sheep and human follicular fluid on the in vitro maturation (IVM) of sheep follicular oocytes. Oocyte cumulus complexes recovered post mortem were matured for 24 to 26 h at 38.6 degrees C, 5% CO(2) in air, in TCM-199 bicarbonate medium supplemented with 20% fetal calf serum (FCS) and, where stated, with maturation hormones, including FSH (5.0 ug/ml), LH (5.0 ug/ml) and estradiol (1 ug/ml), or with sheep follicular fluid recovered from large (>5mm) or small (2 to 5mm) ovarian follicles post mortem, or with human periovular follicular fluid obtained during routine IVF procedures. The matured oocytes were then denuded, and their maturation stage and developmental capacity were assessed by in vitro fertilization (IVF) and culture (IVC). It was found that inclusion of sheep or human follicular fluid or hormone supplements in the IVM media more than doubled the number of oocytes completing maturation (FCS alone 33%, compared with 76.2% for maturation hormones, 84.2% for fluid from large and 69.6% for fluid from small sheep follicles and 82.6% for human follicular fluid), and significantly increased fertilization rates (FCS alone 51.6%, compared with 71.9% for maturation hormones, 78.4% for fluid from the large and 75.7% for fluid from small sheep follicles and 73.1% for human follicular fluid) without discernible adverse effects on the development of the cleaving embryos to the morula or blastocyst stage in culture. Omission of FCS and supplements from the IVM medium resulted in a marked reduction (56%) in the number of oocytes maturing. This reduction could be offset to a large part, but not completely, by inclusion of human follicular fluid or human follicular fluid plus LH (5 ug/ml) in the medium. The results of this study show that addition of sheep or human follicular fluid to maturation medium can enhance rather than inhibit the maturation and fertilizability of sheep follicular oocytes in vitro.     

Pure preovulatory follicular fluid promotes in vitro maturation of in vivo aspirated equine oocytes

In the mare, rates of fertilization and development are low in oocytes matured in vitro, and a closer imitation of in vivo conditions during oocyte maturation might be beneficial. The aims of the present study were, therefore, to investigate whether (1) equine oocytes can be matured in vitro in pure equine preovulatory follicular fluid, (2) priming of the follicular fluid donor with crude equine gonadotrophins (CEG) before aspiration of preovulatory follicular fluid promotes the in vitro maturation rate, (3) the in vitro maturation rate differs between oocytes aspirated during estrus and those aspirated again 8 days after the initial follicular aspiration, and (4) high follicular concentrations of meiosis activating sterols (MAS) are beneficial for in vitro maturation of equine oocytes. During estrus, 19 pony mares were treated with 25 mg CEG. After 24 h (Al) and again after 8 days (A2), all follicles >4mm were aspirated and incubated individually for 30 h in the following culture media: standard culture medium (SM), preovulatory follicular fluid collected before CEG containing low MAS concentrations (FF1), preovulatory follicular fluid collected before CEG containing high MAS concentrations (FF2) or preovulatory follicular fluid collected 35 h after administration of CEG containing low MAS concentrations (FF3). Cumulus expansion rate was significantly affected by culture medium. The overall nuclear maturation rate was significantly higher for oocytes collected at A1 (67%) than for oocytes collected at A2 (30%). For oocytes collected at A1, the maturation rates were 71% (FF1), 61% (FF2), 79% (FF3) and 56% (SM). An electrophoretic protein analysis of the culture media revealed the presence of a 200-kDa protein in FF3. The results demonstrate that (1) equine oocytes can be matured during culture in pure equine preovulatory follicular fluid, (2) preovulatory follicular fluid collected after gonadotrophin-priming seems superior in supporting in vitro maturation than standard culture medium, (3) oocytes aspirated 8 days after a previous aspiration are less competent for in vitro maturation than oocytes recovered during the initial aspiration, and (4) the regulation of meiotic resumption during in vitro culture of equine oocytes might be related to the presence of a 200-kDa protein.     

Cyclic adenosine monophosphate (cAMP) production in avian theca cells during follicular maturation

LH was used to stimulate cAMP production in theca cells from the 5 largest preovulatory follicles of hens and this was related to LH-stimulated androstenedione production in the same cells. cAMP production was stimulated by LH to the same extent in theca cells from each follicle. However, LH was not effective in stimulating androstenedione production in theca cells from the largest follicle (T1), although androstenedione production was greatly increased by LH in the smaller follicles (T2-T5). Effects similar to those of LH on cAMP production were observed in response to forskolin, indicating that the intrinsic adenylate cyclase activity was similar in theca cells from each follicle. In addition, forskolin was unable to stimulate androstenedione production by T1 cells. Our results provide evidence that the levels of receptor-mediated and non-receptor-mediated cAMP production are similar in theca cells from the 5 largest follicles. We conclude that the step that restricts the ability of T1 cells to produce androgen is distal to cAMP generation.