Effect of prolactin in different culture systems on maturation of bovine oocytes and their ability for further development]

We studied the influence of bovine prolactin on the maturation of cumulus-enclosed bovine oocytes in different culture systems as well as on their capacity for subsequent development after in vitro fertilization. The prolactin effect on chromosome transformations in oocytes depended on the hormone concentration in the medium with fetal calf serum. Prolactin at 50 ng/ml proved to stimulate nuclear maturation of the oocytes. This concentration was used to compare various systems of oocytes cultivation. The prolactin effect on bovine oocytes maturation and their capacity for subsequent development depended on the composition of the cultivation medium. The introduction of prolactin into the medium with fetal calf serum, estradiol, and follicle-stimulating hormone had no effect on the reinitiation of meiosis in the oocytes but stimulated its completion, which increased the proportion of the oocytes at the telophase I and metaphase II stages as well as the proportion of the eggs cleft after fertilization. Prolactin affected neither the nuclear maturation nor the capacity for further development of the oocytes cultivated in the medium with serum of estrous cows. The addition of prolactin to the medium with calf serum where the oocytes and granulosa cells were cocultured increased the subsequent yield of the embryos developed to the morula and blastocyst stages. In this culture system, the hormone did not affect the rate of oocytes that reached the final stages of meiosis but inhibited their transition from telophase I to metaphase II. We propose that prolactin may favor the completion of cytoplasmic modifications going into the maturing oocyte.     

In vitro fertilization and development of bovine oocytes matured in serum-free medium

This study was undertaken to investigate the effects of supplementation of serum (fetal calf serum), gonadotropins (LH, FSH, prolactin) and estradiol-17 beta (E2) to culture medium during in vitro maturation of bovine cumulus oocyte complexes on subsequent fertilization and development to the blastocyst stage in vitro. Serum supplementation during bovine oocyte maturation was not required but hormonal supplementation, gonadotropins (LH + FSH) and E2, enhanced the fertilizability and developmental ability of bovine oocytes matured in vitro. The addition of prolactin to maturation medium containing LH, FSH, and E2 did not further enhance frequencies of fertilization and development.     

Influence of the culture medium composition on cattle oocyte maturation and embryogenesisin vitro

We studied the capacity of the cattle oocyte for the resumption of meiosis and the achievement of metaphase II in various protein-free culture media (DMEM, TCM-199, Ham’s F-10, and Ham’s F-12) and the pattern of influence of the estrous serum on thein vitro development of fertilized cattle oocytes, with special reference to the time of its addition to the synthetic oviduct fluid containing BSA. In the first experimental series, it was shown that the highest number of oocytes (76.1%) resumed meiosis in DMEM medium. Meiosis was not resumed in Ham’s F-12. Intermediate results were obtained for TCM-199 (55.1%), which is commonly used for the maturation of cattle oocytesin vitro and for Ham’s F-10 (51.7%). The oocytes reached metaphase II in DMEM at a higher rate (45.3%) than in TCM-199 or Ham’s F-10 (29.4 and 8.6%, respectively). In the second experimental series, the estrous serum was added to the culture medium within 20 h (control) or 42 h (experiment) after the beginning of fertilization. The estrous serum did not inhibit the first cleavage division (the percentage of cleaving embryos did not differ reliably: 32.7 and 37.9%, respectively). However, a later serum addition to the culture medium (within 42 h after the beginning of fertilization) reliably increased the percentage of embryos that reached the blastocyst stage (6.5% in the control and 17.8% in the experiment) and the hatched blastocyst stage (2 and 9.2%, respectively).     

Involvement of steroid hormones in bovine oocytes maturation in vitro.

Influences of steroid hormone additions or of their binding by specific antisera on nuclear maturation and subsequent fertilization and cleavage of bovine oocytes were studied in vitro. It was found that progesterone in doses of 50 ng/ml, 250 ng/ml, 1 μg/ml or 5 μg/ml stimulates reinitiation and in doses of 1 or 5 μg/ml stimulates further development of meiosis. Antiserum to progesterone had opposite effects on nuclear maturation, but has no influence on the ability of matured oocytes to subsequent fertilization and cleavage. Testosterone additions (10 ng, 100 ng, 1 μg or 5 μg/ml) did not influence nuclear maturation, but antiserum to this hormone inhibited both meiosis reinitiation and completion, as well as lowered the rate of oocytes fertilized and embryos obtained. Estradiol (5, 50, 100 or 500 ng or 5 μg/ml) treatment stimulated reinitiation, but not nuclear maturation. Antiserum to estradiol activated both reinitiation, development and completion of meiosis, but the cells matured by estradiol deficit were as a rule uncapable of fertilization and further cleavage. Estradiol addition (1 μg/ml) to maturation medium together with FSH (10 μg/ml) (but not of FSH alone) lead to a significantly higher rate of fertilization and cleavage of matured cells.

Results obtained suggest (1) relative independence of reinitiation, further development of nuclear maturation and cytoplasmic maturation regulation in bovine oocytes as well as (2) the involvement of steroid hormones in these three processes.     

The effect of pregnant mare's serum and chorionic gonadotropic hormone on the capacity of bovine oocytes, matured in vitro, for parthenogenetic activation by cycloheximide]

The effect of chorionic gonadotropic hormone (HG) and pregnant mare serum (PMS) on the capacity of cattle oocytes for spontaneous maturation and parthenogenetic formation of the female pronucleus was studied in situ and in vitro. HG added to the culture medium had no effect, irrespective of the dosage. However, perfusion of cow ovaries with HG at a dose of 2 micrograms/ml for 1 h abolished the block of meiosis I in 80% oocytes. About 25% oocytes reached metaphase II (MII) and telophase II (TII); 30% oocytes acquired the capacity to form female pronucleus upon the action of cycloheximide (25 Mg/ml). Perfusion of cow ovaries with PMS at a dose of 5 MU/ml for 1 h resulted in elimination of the block of meiosis I in 95% oocytes; 26% oocytes reached MII and TII, and about 17% oocytes acquired the capacity to form female pronucleus.     

Effect of prematuration, meiosis activating sterol and enriched maturation medium on the nuclear maturation and competence to development of calf oocytes

New strategies were proposed to improve the developmental competence of calf oocytes through in vitro technologies. Cumulus-oocyte complexes were first prematured for 24 h in the presence of meiosis inhibitors. Both Roscovitine alone (50 microM) or in combination with Butyrolactone-I (12.5 microM Rosco+6.25 microM BL-I) prevented the progression of meiosis. Their effect on nuclear maturation was reversible after a further 17 or 24 h maturation step. However, a dramatic decrease in embryo development was observed after fertilization (abattoir oocytes: 4-9% blastocyst rate versus 14-17% for control embryos). Similar results were obtained with oocytes collected by Ovum Pick Up from living donors. No pregnancy was obtained after single transfer of two blastocysts obtained from prematured oocytes (0/2 versus 4/12 for control embryos). Adding low concentrations (1, 3 or 10 microM) of follicular fluid-meiosis activating sterol (FF-MAS) during the maturation step had a beneficial effect on nuclear maturation (73-86% metaphase II versus 58% for control oocytes). However, subsequent embryo development was not improved. Enriching the maturation medium, namely with hormones, growth factors and precursors of glutathione, induced a sixfold increase in glutathione in the oocyte and had a beneficial effect on embryo development (38% increase in blastocyst rate). In conclusion, in opposition to the results reported with adult oocytes, prematuring calf oocytes had a negative impact on their developmental potential. Although FF-MAS improved nuclear maturation, its addition in the maturation medium did not increase embryo development. However, enriching the maturation medium had a positive effect on embryo development, indicating that cytoplasmic maturation was improved.     

Effects of gonadotropins and granulosa cell secretions on the maturation and fertilization of rat oocytes in vitro

Fully grown germinal vesicle-stage oocytes are induced to resume meiosis and acquire the capacity to undergo fertilization in response to a surge of gonadotropins. The present study examined possible direct and indirect roles of gonadotropins in the maturation and fertilization of rat oocytes by determining 1) the effect of exogenous administration of gonadotropins (priming) to immature rats prior to oocyte collection on the capacity of oocytes to undergo maturation and fertilization in vitro, 2) the effect of follicle-stimulating hormone (FSH) in the maturation media on the resumption of meiosis and subsequent capacity of oocytes to undergo fertilization, and 3) the capacity of oocytes to undergo maturation and fertilization following culture in preovulatory follicular fluid or in conditioned media obtained from gonadotropin-stimulated granulosa cell (GC) cultures. In the first experiment, oocytes from unprimed rats underwent spontaneous meiotic maturation in vitro and 17% underwent subsequent fertilization. Priming increased the proportion of oocytes undergoing fertilization. Maturation of oocytes in media supplemented with various concentrations of FSH or for various lengths of time (6-16 h) in medium with 500 ng FSH/ml indicated that FSH slowed the rate of meiotic maturation, but had no effect on the capacity of the oocytes to be fertilized. Oocytes obtained from primed animals and cultured in the presence of preovulatory follicular fluid were fertilized in proportions similar to those cultured in serum-containing medium. In the third experiment, medium conditioned by FSH-stimulated GC for 40 h slowed the rate of meiotic maturation; the addition of luteinizing hormone (LH) to the FSH-stimulated cells produced a medium in which the rate of oocyte maturation was not different from that of control oocytes (in medium from unstimulated cells). Medium conditioned by FSH- or LH-stimulated GC, but not fibroblasts, increased the proportions of oocytes undergoing fertilization following maturation in those media. FSH + LH stimulation of GC increased the fertilization of oocytes to proportions significantly higher than with either gonadotropin alone. These data suggest that GC respond to gonadotropin stimulation by providing a factor(s) that regulates the rate of oocyte maturation and promotes the capacity of oocytes to undergo fertilization.     

Effects of cyclic AMP on the spontaneous meiotic maturation of cumulus-free bovine oocytes cultured in chemically defined medium

The rate of spontaneous meiotic maturation and the period of commitment to this process were determined in bovine oocytes devoid of surrounding cumulus cells, cultured in chemically defined medium with bovine serum albumin in the absence of serum. The effects of compounds that are known to elevate levels of intracellular cyclic adenosine monophosphate (cAMP) on the resumption and progression of meiosis were investigated. Bovine oocytes were mass-harvested, denuded of cumulus cells, and cultured in 2A-BMOC medium supplemented with 0.5% bovine serum albumin. Intracellular cAMP levels were indirectly modified using 8-bromo-cAMP, dibutyryl cAMP (dbcAMP), forskolin, or 3-isobutyl-1-methyl xanthine (IBMX). Meiotic maturation was scored cytogenetically. Ninety percent of denuded bovine oocytes mature after 24 h, with 65% progressing beyond anaphase I. These oocytes remain at the germinal vesicle (GV) stage for up to 8 h in culture. GV breakdown (GVBD) occurs in 40.5% of oocytes at 9 h. The peak times for the different meiotic stages were 12 h for diakinesis, 15 h for late diakinesis to metaphase I, 20 h for metaphase I, and 24 h for telophase I. By 48 h, most had reached metaphase II. There is a 2-h lag period between the time at which they become irreversibly committed to mature (at 7 h) and when they demonstrate GVBD (at 9 h). Incubation for 12 h with high concentrations of 8-bromo-cAMP and forskolin significantly inhibited GVBD, while the effect of dbcAMP was similar but less pronounced.(ABSTRACT TRUNCATED AT 250 WORDS)     

Chromatin behaviour under influence of puromycin and 6-DMAP at different stages of mouse oocyte maturation

Preovulatory mouse oocytes were cultured in vitro up to each subsequent stages of maturation: germinal vesicle (GV), germinal vesicle breakdown (GVBD), groups of not yet individualized bivalents, circular bivalents, late prometaphase I, metaphase I, anaphase I and telophase I. The stages were identified in living oocytes by fluorescence microscopy using Hoechst 33342 as a specific vital dye. Oocytes from each stage of development developed in vitro and ovulated metaphase II oocytes were subsequently cultured in the presence of puromycin or 6-dimethylaminopurine (6-DMAP), an inhibitor of protein phosphorylation. The effects on chromatin of these drugs were studied during and at the end of culture by fluorescence and electron microscopy. We found that puromycin and 6-DMAP stop meiosis when applied at all stages of oocyte maturation, except for metaphase II. Oocytes at this stage are activated by puromycin. Reaction of the oocytes to the two drugs is different at GV and at metaphase II. All of the other stages react to the drugs by chromatin compaction, which can be followed by chromatin decondensation to form a nucleus. Our results suggest that late prophase chromatin condensation, bivalent individualization and retention of their individuality, as well as individualization of monovalents from telophase and retention of their individuality at metaphase II, are dependent on protein phosphorylation. The events occurring between metaphase I and telophase I are independent of protein synthesis and phosphorylation. The events occurring between metaphase II and formation of the nucleus are independent of protein synthesis.by U. Scheer     

Developmental potential of rabbit oocyte matured in vitro: the possible contribution of prolactin

The present study was undertaken to define hormonal conditions for in vitro maturation that support subsequent fertilization and embryonic development. Follicular oocytes were recovered from nonstimulated rabbit ovaries and cultured for 12 h in Brackett's medium supplemented with or without hormones. Matured oocytes were inseminated in vitro and transferred 12 h later to Ham's F-10 medium supplemented with 20% fetal calf serum. The initial cleavage frequency of matured oocytes in Brackett's medium was comparable to the frequency of development for in vitro-matured oocytes under various hormonal conditions. However, the addition of estradiol (E2, 1 microgram/ml) to incubation medium containing luteinizing hormone (LH) and follicle-stimulating hormone (FSH) increased significantly (p less than 0.001) the percentage of embryos achieving morula or blastocyst formation (16/98, 16.3%), as compared to the mature oocytes in medium containing LH, LH plus FSH, or no hormone. The addition of prolactin (PRL) to the maturation medium increased the percentage of development to organized embryos in a dose-dependent manner. In vitro-matured oocytes in medium containing LH, FSH, and PRL exhibited a significantly (p less than 0.001) lower incidence of developmental competence (5/95, 5.3%) than oocytes matured in the presence of E2 in conjunction with pituitary hormones (43/89, 48.3%). These results demonstrate that hormonal composition in the environment of the oocyte is critical for acquisition of developmental capacity. PRL as well as E2 appears to be an important constituent in the process of oocyte maturation, promoting preimplantation embryonic development.     

Effects of prolactin on intracellular stored calcium in the course of bovine oocyte maturation in vitro

At present there are divergent opinions as to the role of prolactin (PRL) in the mechanisms of meiotic regulation in mammals. We investigated the effects of bovine PRL (bPRL) on bovine oocyte maturation in different culture systems and varying levels of intracellular stored calcium ([Ca2+]is) in the oocytes. Cumulus-oocyte complexes (COC) were incubated in TCM 199 containing either 10% fetal calf serum (FCS) in the absence (System 1) or presence (System 2) of FSH and estradiol, or 6 mg/mL bovine serum albumin (BSA) in the presence of FSH and estradiol (System 3). Levels of [Ca2+]is in oocytes were determined by using the fluorophore chlortetracycline. The addition of 50 ng/mL bPRL to different culture media increased the percentage of oocytes at telophase I and metaphase II stages (Systems 1 and 2) and/or decreased the percentage of oocytes with degenerated chromosomes (Systems 1 and 3). Compared with the control, lower levels of [Ca2+]is were observed in oocytes cultured for 2.5 h in those systems in which bPRL decreased the rate of oocytes with degenerated chromosomes (1.27+/-0.11 vs. 1.67+/-0.09 arbitrary units (AU) in System 1, P<0.001 and 1.27+/-0.12 vs. 1.52+/-0.04 AU in System 3, P<0.001). These findings show that the effects of bPRL on bovine oocyte maturation depend on the composition of the culture system and that the decline in the rate of oocytes with degenerated chromosomes in response to bPRL may be the result of the decrease in [Ca2+ ]is levels at early stages of oocyte maturation.     

In vitro Maturation of Cattle Oocytes Taken from Ovaries with Different Morphofunctional State

We studied the capacity of cattle oocytes taken from ovaries with different morphofunctional state for development to metaphase II in vitro. A classification of ovaries has been proposed according to their morphofunctional state: (1) ovaries with a yellow body from the last cycle, without dominating follicle, with many follicles of varying diameter; (2) ovaries with a yellow body from the last cycle, with dominating follicle (from 10 mm in diameter); (3) ovaries with a large functioning yellow body and follicles of varying diameter; (4) ovaries with a follicular cystoid formation (more than 25 mm in diameter); (5) ovaries with a yellow body from past cycles and small (1–2 mm) follicles, supposedly with a weakened hormonal function. It was shown that the morphofunctional state of ovaries determined the total number of oocytes isolated from an ovary and number of morphologically normal oocytes feasible for cultivation. At the same time, no reliable differences in the capacity for extrusion of the first polar body between the oocytes from the ovaries of different types were found in the experiments on in vitro oocytes maturation. Since the coefficient of correlation between the extrusion of the first polar body and maturation to metaphase II was in 0.95, there is every reason to believe that the capacity for development to metaphase II does not depend on the morphofunctional state of ovaries.     

Kinetics of nuclear maturation and protein profiles of oocytes from prepubertal and adult cattle during in vitro maturation

The aim of this present study was to compare the kinetics of nuclear maturation between calf and cow oocytes in order to determine if there are differences between the 2 groups which could explain their disparate developmental capacity. The constitutive and neosynthetic protein patterns of cow and calf oocytes and of their corresponding cumulus cells were also compared during in vitro maturation. A total of 397 calf oocytes and 406 cow oocytes was matured in M199 + 10 ng/mL EGF. The first group of oocytes (n = 30) was immediately fixed and stained after removal from the follicle, and represent 0 h. The remaining oocytes were removed from the maturation medium at 4, 8, 12, 16, 20 and 24 h respectively. Half were denuded, fixed and stained for nuclear status; while the remainder were radiolabeled with methionine-(35S). Immediately after isolation, all the oocytes were at the GV stage. By 8 h, GVBD had occurred in most oocytes (calf: 97%; cow: 100%) and some had reached pro-metaphase I (calf: 49%; cow: 51%). By 12 h, most of the oocytes were at metaphase I (calf: 84%; cow: 94%). By 16 h, 54% of calf oocytes had reached telophase I or beyond compared with 71% of cow oocytes. This difference between the 2 groups became significant by 20 h, with 89% of cow oocytes (P < 0.05) at metaphase II and 71% of calf oocytes. By 24 h of culture, GVBD had occurred in all cases. Most oocytes completed meiosis I and were arrested at metaphase II with the first polar body extruded (calf: 72%; cow: 86%). No differences were noted in the constitutive and the neosynthetic protein profiles of cumulus cells in relation to the age of animal. Changes in neosynthetic protein patterns were observed both in cow and calf cumulus during IVM, and several proteins showed stage-specific synthesis. For the constitutive protein patterns of cow and calf oocytes, there were quantitative (38 and 40 kD) and qualitative (4, 10, 16, 17, 24, 25 and 26 kD) differences between the 2 groups. Only a few differences were observed in neosynthetic proteins between cow and calf oocytes, but there were changes in relation to nuclear status both in cow and calf oocytes. In conclusion, the difference in developmental capacity between cow and calf oocytes may be explained by a difference in the kinetics of nuclear maturation, which was significant at 20 h of culture (with 89% of cow oocytes at metaphase II and 71% of calf oocytes). At the biochemical level, our results indicate that nuclear progression during in vitro maturation of bovine oocytes is linked to changes in protein synthesis by the oocyte itself, while cumulus protein synthesis may either stimulate or modulate the process of oocyte maturation.     

Prolactin modulation of theophylline inhibitory action on maturation of bovine oocyte-cumulus complexes in vitro

The comparative investigation of the individual and joint impact of prolactin (PRL, 50 ng/ml) and theophylline (TP), a nonselective inhibitor of phosphodiesterases, on nuclear maturation of bovine oocytes and the expansion of cumulus cells enclosing the oocytes was carried out using a model of in vitro culturing. It has been shown that TP (5 mM) exerts a short-term inhibitory action on oocyte meiosis reinitiation and blocks it at diakinesis and metaphase I stages as well as inhibits the cumulus expansion. The addition of PRL to the medium containing TP caused the decrease in the rate of oocytes at diplotene stage after 6 h of culturing and the increase in the rate of oocytes attained the closing stages of maturation after 24 h of culturing. Furthermore, PRL suppressed partly the inhibitory impact of TP on the expansion of cumulus cells. The data obtained suggest the signal cascade induced by PRL in bovine oocyte-cumulus complexes to be compled with cAMP-dependent intracellular pathway.     

Effect of angiotensin II with follicle cells and insulin-like growth factor-I or insulin on bovine oocyte maturation and embryo development

The objective was to evaluate the effects of angiotensin II (Ang II), insulin-like growth factor-I (IGF-I) and insulin on the nuclear and cytoplasmic maturation of bovine oocytes in the presence of follicular cells. Cumulus-oocyte complexes (COCs) were cultured for 22h in the presence of follicular cells (control with cells) and Ang II, IGF-I or insulin (treatments), or in the absence of follicular cells (control without cells). Using these five groups, Experiment 1 was conducted with and without the addition of gonadotrophins. Only oocytes in the Ang II group resumed meiosis at rates (88.2+/-1.8% and 90.7+/-4.3% for oocytes cultured in the absence or presence of LH/FSH, respectively) similar to those observed for oocytes cultured in the absence of follicular cells (89.7+/-0.3% and 92.6+/-2.6%; P<0.01). In Experiment 2, the effect of Ang II alone and in combination with IGF-I or insulin on oocyte maturation for 7h (germinal vesicle breakdown), 12h (metaphase I) and 22h (metaphase II) was evaluated in a design similar to that of the first experiment. Ang II plus IGF-I or insulin induced the resumption of meiosis, irrespective of the presence of gonadotrophins (P<0.01). Experiment 3 used groups similar Experiment 2 to determine the rate of subsequent embryo development, using fetal calf serum (FCS) in the culture medium. The COCs were cultured in maturation medium for 1h (1+23h), 12h (12+12h) or 24h in the presence of follicular cells and the respective treatments and for the remaining period in the absence of follicular cells to complete 24h. In Experiment 4, BSA was used in lieu of serum in the maturation medium in a 12+12h maturation system. Oocytes matured using the 12+12h system with BSA or FCS in the presence of Ang II+IGF-I had higher rates of blastocyst formation than the other treatments (P<0.05). In conclusion, Ang II reversed the inhibitory effect of follicular cells on nuclear maturation of bovine oocytes, irrespective of the presence of gonadotrophins, IGF-I and insulin. However, oocyte cytoplasmatic maturation (i.e., subsequent embryo development), was higher when Ang II and IGF-I were present in the maturation medium containing follicular cells cultured for 12+12h.     

Kinetics of meiotic progression, M-phase promoting factor (MPF) and mitogen-activated protein kinase (MAP kinase) activities during in vitro maturation of porcine and bovine oocytes: species specific differences in the length of the meiotic stages

The kinetics of nuclear maturation, M-phase promoting factor (MPF) and mitogen-activated protein kinase (MAP kinase) activities during in vitro maturation of porcine and bovine oocytes were examined. A further objective was to determine the duration of the meiotic stages during the maturation process. Porcine and bovine cumulus-oocyte complexes (COCs) were incubated in TCM 199 supplemented with 20% (v/v) heat inactivated fetal calf serum (FCS), 0.05microg/ml gentamycin, 0.02mg/ml insulin, 2.5microg/ml FSH and 5microg/ml LH. COCs were removed from the culture media in hourly intervals starting immediately after recovery from the follicle until 24 (bovine) or 48h (porcine) of culture. Oocytes were either fixed to evaluate the maturation status or the activity of MPF, assessed by its histone H1 kinase activity, and MAP kinase were determined by a radioactive assay simultaneously. In oocytes of both species, the MPF activity oscillated during the culture period with two maxima corresponding with the two metaphases: between 27-32 and after 46h (porcine) and between 6-9 and after 22h (bovine). There was a temporary decline in activity after 33-38 (porcine) and after 19h (bovine), which corresponded with anaphase I and telophase I. MAP kinase activity increased during the whole culture period and reached maximum levels after 47 (porcine) and after 22h (bovine). In porcine oocytes, the MAP kinase was activated before GVBD and MPF activation. In bovine oocytes, MPF and MAP kinase were activated at approximately the same time as the GVBD (8-9h of incubation). In average porcine, oocytes remain 23.4h in the germinal vesicle (GV) stage (13h in GV I, 5.7h in GV II, 3.2h in GV III and 1.5h in GV IV), 0.9h in diakinese, 9.6h in the metaphase I, 2.8h in anaphase I and 1.9h in telophase I of the first meiotic division. In bovine oocytes, the temporal distribution of the meiotic stages were 8.5h for the GV stage, 1.2h for diakinese, 8.3h for metaphase I, 1.6h for anaphase I and 1.9h for telophase I. These results indicate that the duration of the meiotic stages differs between the species and that MAP kinase is activated before MPF and GVBD in porcine oocytes.     

Effect of sperm penetration in vitro on completion of first meiosis by bovine oocytes arrested at various stages in culture.

Bovine oocytes cultured for 12-20 h in TC-199 were incubated for 24 h in fertilization medium, Brackett and Oliphant medium with bovine serum albumin (10 mg ml-1), caffeine (5 mmoll-1) and heparin (10 micrograms ml-1), with or without frozen-thawed spermatozoa. High penetration rates (93-96%) and significantly (P < 0.001) higher maturation rates were obtained in oocytes incubated with (93-100%) than without (62-72%) spermatozoa. However, when oocytes at the germinal vesicle stage were cultured for 44 h fertilization medium, maturation of oocytes to metaphase II was reduced. However, all oocytes that were first cultured for 20 h and further for 24 h with spermatozoa were penetrated and 40% of the penetrated oocytes reached metaphase II. All of the remaining oocytes that did not mature arrested at the stages of condensed germinal vesicle (39%) or prometaphase I (22%). These results indicate that oocytes at metaphase I at and after sperm penetration are stimulated by sperm penetration to complete maturation.     

Realization pathways of prolactin modulating effect on the cAMP-dependent mechanism of meiosis regulation in bovine oocytes

Cyclic AMP is one of the key regulators of mammalian meiosis. In the present work, realization pathways of the previously revealed modulating effect of prolactin (PRL) on the cAMP-dependent mechanism of meiosis regulation in bovine oocytes were studied. A comparative investigation of individual and combined effects of PRL (50 ng/ml) and an activator of adenylate cyclase forskolin (FK, 20 μM) on the meiotic reinitiation and completion of nuclear maturation in cumulus-surrounded and cumulus-free oocytes was performed. It has been shown that the pattern of the effects of PRL on the meiotic resumption in oocytes devoid of cumulus cells depends on the presence of FK in the culture medium. Furthermore, the realization of this effect is not associated with the activation of cytoplasmic isoforms of protein kinase C. It has also been found that PRL inhibits the retarding action of FK on the completion of oocyte nuclear maturation both in the presence and absence of cumulus cells. These findings suggest that PRL may modulate the functioning of the cAMP-dependent mechanism of meiosis regulation by the direct action on bovine oocytes, with realization of this action being independent of the metabolic coupling of oocytes with cumulus cells.     

The effect of the composition of the culture media on bovine oocyte maturation and embryo development in vitro

We studied the capacity of the cattle oocyte for the resumption of meiosis and achievement of metaphase II in various protein-free culture media (DMEM, TCM-199, Ham's F-10, and Ham's F-12) and the pattern of influence of the estrous serum on in vitro development of fertilized cattle oocytes, with special reference to the time of its addition to the synthetic oviduct fluid containing BSA. In the first experimental series, it was shown that the highest number of oocytes (76.1%) resumed meiosis in DMEM medium. Meiosis was not resumed in Ham's F-12. Intermediate results were obtained for TCM-199 (55.1%), which is commonly used for maturation of cattle oocytes in vitro, and for Ham's F-10 (51.7%). The oocytes reached metaphase II in DMEM at a higher rate (45.3%) than in TCM-199 or Ham's F-10 (29.4 and 8.6%, respectively). In the second experimental series, the estrous serum was added to the culture medium within 20 h (control) or 42 h (experiment) after the beginning of fertilization. The estrous serum did not inhibit the first cleavage division (the percentage of cleaving embryos did not differ reliably: 32.7 and 37.9%, respectively). However, a later serum addition to the culture medium (within 42 h after the beginning of fertilization) reliably increased the percentage of embryos that reached the blastocyst stage (6.5% in the control and 17.8% in the experiment) and the hatched blastocyst stage (2 and 9.2%, respectively).     

Asymmetric division of spindle microtubules and microfilaments during bovine meiosis from metaphase I to metaphase III

The kinetics of spindle and chromosomes during bovine oocyte meiosis from meiosis I to meiosis III is described. The results of this study showed that (1) oocytes began to extrude the first polar body (Pb1) at the early anaphase I stage and the Pb1 totally separated from the mother cell only when oocytes reach the MII stage; (2) the morphology of the spindle changed from barrel-shaped at the metaphase stage to cylinder-shaped at early anaphase, and then to a thin, long triangle-shaped cone at late anaphase and telophase stages; (3) chromosome morphology went from an individual visible stage at metaphase to a less defined chromatin state during anaphase and telophase stages, and then back to visible individual chromosomes at the next metaphase; (4) chromatin that connected with the floor of the cone became the polar bodies and expelled, and almost all of the microtubules (MTs) and microfilaments (MFs) composing the spindles moved towards and contributed to the polar bodies; and (5) the size of the metaphase I (MI) spindle was larger than the metaphase II (MII) and metaphase III (MIII) spindles. The MII spindle, however, is more barrel-shaped than the MI spindle. This study suggests that spindle MTs and MFs during bovine oocyte meiosis are asymmetrically divided into the polar bodies.