Evidence that growth factors IGF-I, IGF-II and EGF can stimulate nuclear maturation of porcine oocytes via intracellular protein kinase A

The aim of our in vitro experiments was to study the role of growth factors and protein kinase A (PKA)-dependent intracellular mechanisms in the control of nuclear maturation of porcine oocytes. Oocytes were cultured with or without growth factors (IGF-I, IGF-II, EGF; 10 ng x mL(-1) medium) and inhibitors of PKA (Rp-cAMPS or KT5720; 100 ng x mL(-1)). Stages of meiosis were determined from the structure of chromosomes after staining with Giemza. Intracellular levels of PKA were evaluated immunocytochemically using primary antisera against the PKA regulatory and catalytic subunits and by Western immunoblotting using primary antiserum against the PKA catalytic subunit. It was found that after 24 h culture the majority of oocytes had resumed nuclear maturation (they were at a stage of meiosis after diplotene) and that after 48 h culture the majority of cells had completed maturation (they had reached metaphase II of meiosis). Addition of IGF-I, IGF-II or EGF, or a combination of IGF-I and EGF, significantly increased the proportion of oocytes which resumed and completed meiosis. Immunocytochemistry demonstrated a significant increase in the proportion of cells containing catalytic and, in some cases, the regulatory subunits of PKA after addition of IGF-I, IGF-II and EGF. Immunoblotting showed the presence of 2 forms of the PKA catalytic subunit within the oocytes (MW approximately 52 and 40 kD). EGF, but not IGF-I or IGF-II, increased the content of both isoforms. Inhibitors of PKA, when given alone, did not substantially influence the proportion of oocytes which resumed or completed meiosis. However, Rp-cAMPS and KT5720 both prevented the stimulatory effects of IGF-I, IGF-II and EGF on the resumption and completion of oocyte maturation. The present observations suggest (1) that IGF-I, IGF-II and EGF are potent stimulators of both resumption and completion of porcine oocyte nuclear maturation, (2) that PKA is present in oocytes, and (3) that PKA-dependent intracellular mechanisms can mediate the action of growth factors on porcine oocytes.     

Ovarian steroid synthesis in tissue culture after administration of hormones and epidermal growth factor

The features of steroidogenesis of immature mouse ovaries in culture under the influence of follicle-stimulating hormones (FSH), human chorionic gonadotropin (hCG), epidermal growth factor (EGF) and insulin have been investigated during the period of reinitiation of meiosis in the oocytes. Secretion of progesterone is stimulated after addition of FSH, hCG and of insulin and EGF combination to the medium. EGF increases FSH-stimulated progesterone secretion and inhibits estradiol secretion. The ratios progesterone/estradiol and testosterone/estradiol increase, when EGF is added to the culture medium. It is analogous to the action of hCG. It is suggested that EGF may be an intrafollicular EGF regulator of luteinizing hormone action on the sex and somatic cells of the mammalian ovaries.     

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.     

Involvement of the metabolic hormones leptin, ghrelin, obestatin, IGF-I and of MAP kinase in control of porcine oocyte maturation

The general aim of our in vitro experiments was to study the role of the metabolic hormones leptin, ghrelin, obestatin and IGF-I and mitogen-activated protein kinase (MAPK)-dependent intracellular mechanisms in the control of nuclear maturation of porcine oocytes. For this purpose, porcine oocytes were isolated from the ovary and cultured in the presence of leptin, ghrelin, obestatin, IGF-I, MAPK blocker PD98059 and the combinations of hormones with PD98059. Proportions of matured oocytes (at metaphase II of meiosis, determined by DAPI staining) and of oocytes containing MAPK/ERK1-2 (determined by immunocytochemistry) were measured before and after culture. It was observed that the majority of oocytes isolated from the ovary before culture were immature and did not contain visible MAPK, but some oocytes were mature, and the majority of these oocytes contained MAPK. Incubation of oocytes resulted in a significant increase in the proportion of matured oocytes and in the percentage of oocytes containing MAPK in both the matured and not matured groups. Addition of IGF-I to the culture medium increased the proportion of matured oocytes, addition of leptin decreased it, and ghrelin and obestatin did not oocyte maturation. Addition of hormones did not affect the expression of MAPK in either immature or mature oocytes. PD98059, when given alone, suppressed the maturation and accumulation of MAPK in both mature and immature oocytes. When given together with hormones, PD98059 was able to reduce the stimulatory effect of IGF-I, to invert the inhibitory action of leptin to stimulatory and to induce the stimulatory action of ghrelin and obestatin on meiosis. IGF-I, ghrelin and obestatin, but not leptin, when given together with PD98059, increased the accumulation of MAPK in both immature and mature oocytes. Association of nuclear maturation and expression of MAPK in oocytes before, but not after culture, as well as the prevention of oocyte maturation by MAPK blocker suggests the involvement of MAPK-dependent intracellular mechanisms in the promotion of reinitiation, but not completion of meiosis. The effect of hormonal additions on meiosis of oocytes suggests that IGF-I is a stimulator, leptin can be an inhibitor, while ghrelin and obestatin probably do not control oocyte maturation. The ability of PD98059 to modify the effect of hormones on oocyte maturation and on MAPK expression suggests possible interference of hormones and MAPK-dependent intracellular mechanisms in oocytes. However, no influence of hormones on MAPK and lack of association between action of hormones and PD98059 on MAPK and meiosis suggest that MAPK is probably not a mediator of effect of IGF-I, leptin, ghrelin and obestatin on porcine oocyte nuclear maturation.     

Effects of different kinases and phosphatases on nuclear and cytoplasmic maturation of bovine oocytes

Phosphorylation is considered as a common post-translational modification implicated in the control of various key enzymes. In somatic and germinal cells, important regulators of the cell cycle are controlled by their phosphorylation status, and some act as kinases or phosphatases themselves. Bovine oocytes are blocked in the germinal vesicle (GV) stage until either an LH surge occurs or until oocytes are released from the inhibitory influence of the follicle. Meiotic resumption in vitro is therefore an excellent model for the study of phosphorylation events that occur in the G2/M transition, a control point of the cellular cycle. To better understand this transition, we have modulated, either directly or indirectly, kinases using known effectors (epidermal growth factor, EGF; isobutyl-methylxanthine-forskolin, Bx-Fk; 6-dimethylaminopurine, 6-DMAP) or phosphatases (okadaic acid, OA) or cycloheximide, which is known to inhibit maturation through protein synthesis suppression. With this procedure, influence on meiotic resumption and phosphoprotein patterns was verified. Both EGF and OA accelerated nuclear maturation after 9 hr of culture. Only 23% (n = 140) and 9% (n = 111) of oocytes were still at GV stage with EGF and OA, respectively, compared to 41% (n = 105) of control oocytes. The different treatments changed the protein patterns in oocytes. In cumulus cells, the patterns were especially modified by the OA treatment. Characteristic changes that occur in germ cells were also identified. Nuclear maturation was inhibited by modulators of kinase (6-DMAP, GV = 74%, n = 126; cAMP dependent protein kinase (PKA) stimulators, Bx-Fk, GV = 71%, n = 129) likewise, phosphoprotein patterns were affected, especially in oocytes. The cycloheximide treatment was able to maintain nearly all oocytes in GV after 9 hr of culture (GV = 92%, n = 131). This analysis allowed the identification of substrates for the different effectors used in this study and also helped in determining the levels of phosphorylation required for nuclear maturation. © 1995 wiley-Liss, Inc.     

Effects of epidermal growth factor and hormones on granulosa expansion and nuclear maturation of dog oocytes in vitro

Gonadotropins, steroids and growth factors stimulate or inhibit cumulus expansion, nuclear maturation, or both, of most mammalian oocytes in vitro. The objective was to evaluate the effects of epidermal growth factor (EGF) and various hormone combinations on in vitro granulosa/cumulus (G-C) expansion and nuclear maturation of domestic dog oocytes derived from advanced preantral and early antral follicles. Follicles were collected after enzymatic digestion of ovarian tissue and cultured for 66 h in F-12/DME with 20% fetal bovine serum, 2mM glutamine and 1% antibiotic-antimycotic (Control). Treatments comprised the following groups; each was cultured both with and without EGF (5 ng/mL): Control, FSH (0.5 microg/mL), LH (5 microg/mL), estradiol-17beta (E2, 1 microg/mL), FSH+LH, and FSH+LH+E2. Granulosa/cumulus expansion was scored on a scale of 0 (no expansion) to +3 (maximum expansion). The interaction between EGF and hormone treatment affected (P=0.011) maximum G-C expansion. With the exception of the E2 group, EGF increased (P<0.05) the proportion of oocytes exhibiting +3 expansion. The synergism of E2 with FSH+LH enhanced maximum G-C expansion; compared to all other treatments, the greatest expansion was observed in the FSH+LH+E2+EGF group (83.5+/-3.5%). When cultured in EGF alone, oocytes failed to reach metaphase I-II (MI-MII) stages. The interaction between EGF and hormone treatment tended (P=0.089) to increase the proportion of oocytes resuming or completing nuclear maturation (GVBD-MII). In addition, supplementing culture media with hormones increased (P=0.010) the GVBD-MII rate. Therefore, EGF in combination with FSH and LH enhanced G-C expansion of cultured canine oocytes, with no significant effect on the proportion of oocytes derived from advanced preantral and early antral follicles that reached MI-MII.     

HORMONAL CONTROL OF OOCYTE MATURATION IN ARENICOLA MARINA L. (ANNELIDA, POLYCHAETA)

In Arenicola marina (Annelida, Polychaeta) the oocytes are arrested in the first prophase stage of meiosis until spawning. Oocyte maturation is under hormonal control: when incubated in vitro in a brain extract oocytes reach the first metaphase at which they remain arrested until fertilization. The importance of calcium in oocyte maturation has been investigated by using different drugs known to act on membrane calcium permeability and to modify intracellular free calcium concentration. Tetracaine, procaine, D-600, verapamil (Isoptin), propranolol, oxprenolol and lanthanum chloride, calcium deprivation but not ionophore A23187, are all able to induce oocyte maturation. This suggests that the brain hormone may act on the oocyte by regulating, probably increasing, the intracellular free calcium concentration, as it has been proposed for oocytes of other animals. The importance of -SH/-SS- in meiosis reinitiation is suggested by the fact that dithiothreitol and 2, 3-dimercaptopropanol, two disulfide reducing agents, both induce oocyte maturation.     

Timing of nuclear maturation and postovulatory aging in oocytes of in vitro-grown mouse follicles with or without oil overlay

Meiotic maturation of the oocyte is a timed sequence of events induced by the ovulatory LH surge. In vitro maturation of oocytes is known to alter the meiotic time course. This study documented the timing of meiosis in oocytes grown in vitro for 12 days, from the preantral follicle stage onward, and the influence of an oil overlay. In the oil-free culture, the stability of the metaphase II spindle was further explored to determine the postovulatory aging events. After the maturation stimulus, in vitro-grown oocytes were collected at 2-h intervals spanning the period of meiosis (0-18 h) and at 3-h intervals during early postovulatory aging (18-27 h). Stage of maturation was assessed both morphologically and by detailed spindle analysis and chromosome alignment. Results revealed that oil overlay did not impair the competence of cultured oocytes to proceed to meiosis II, but delayed meiosis I progression. Oil overlay during culture causes a different hormonal exposure of the follicles by a differential segregation into the oil overlay. The use of a progesterone receptor antagonist, however, did not induce a delay in meiotic progression. Aging effects in oil-free cultured follicles were detected 5 h after the establishment of the metaphase II spindle, comparable to their in vivo grown counterparts. The predominant effect of aging was an interphase-like appearance of the cytoskeleton. So an optimal time window for fertilization after in vitro follicular growth was determined to be 16-21 h after maturation induction.     

Partial characterization of the factor in theca-cell conditioned medium that inhibits the progression of FSH-induced meiosis of bovine oocytes surrounded by cumulus cells connected to the membrana granulosa

A factor, secreted by theca cells, inhibits FSH induced resumption of meiosis in bovine oocytes that are surrounded by cumulus cells which are attached to a piece of the membrana granulosa (COCGs). In order to characterize this factor, theca cell conditioned medium (CMt) was heat-treated, filtered through a 5 kD spin off filter, charcoal treated, chloroform extracted and protease treated. To investigate whether the meiosis inhibiting factor produced by theca cells was also present in follicular fluid (FF), the same treatments were done with 50% bovine follicular fluid (bFF). COCGs, originating from 2 to 8 mm follicles of bovine ovaries collected at a slaughterhouse, were cultured in groups of 15 per 600 microl medium supplemented with 0.05 IU ml FSH for 22 hr at 39 degrees C in a humidified atmosphere of 5% CO(2). After culture the oocytes were denuded, stained with orcein, and the nuclear status assessed. Heat treatment did not affect the meiosis arresting capacity of CMt since a similar proportion of the oocytes remained at the GV stage after 22 hr of culture in heat treated CMt as compared to the proportion of oocytes in the GV stage after culture in untreated CMt. Filtering through a 5 kD spin-off filter revealed that the meiosis inhibiting action was maintained in the <5 kD fraction, although there was a significant (P < 0.05) loss of inhibiting activity compared to nonfiltered CMt. No significant decrease was observed in the meiosis arresting capacity of the <5 kD fraction after charcoal or protease treatment. Extraction of the <5 kD fraction with chloroform also did not affect the theca cell produced factor. The effect of the theca cell factor on the progression of meiosis of the oocytes that resumed meiosis, as demonstrated by a very low percentage of the oocytes that matured up to the M2 stage, was not affected following any of the treatments. With regard to bFF, the results show a lower percentage of the oocytes in the GV stage after culture in 50% bFF as compared to culture in CMt, but progression of meiosis was clearly inhibited as demonstrated by a significant higher proportion of the oocytes blocked in the M1 stage after resumption of meiosis. In general, with regard to meiotic inhibition, bFF showed the same pattern as CMt following the various treatments. It is concluded that the theca cell secreted factor which inhibits the FSH-induced resumption of meiosis in COCGs is a small, stable, polar molecule which is not a peptide.     

Effect of hormones and growth factors on in vitro development of sheep preantral follicles

The present investigation attempts to improve the frequency of in vitro maturation of oocytes by culturing small (150–250 μm) and large (>250–400 μm) preantral follicles (PFs) of sheep for 6 days in various combinations/sequences of thyroxin (T₄), FSH, LH, transforming growth factor alpha (TGF-), epidermal growth factor (EGF) and heat-treated foetal calf serum (FCS). Bicarbonate-buffered tissue culture medium 199, supplemented with 50 μg ml⁻¹ gentamicin sulphate, served as the control medium. In vitro development was initially assessed by the proportion of PFs exhibiting an increase in size, mean increase in diameter and antrum formation. Nuclear maturation to the metaphase II stage of the oocytes isolated from cultured PFs, after an additional 24-h in vitro maturation, indicated success. A total of 15% of oocytes from small PFs and 55% from large PFs, cultured in T₄ + FSH, matured to metaphase II. Culture of PFs in other combinations/sequences of hormones and growth factors, including the control medium, supported a significantly lower proportion of oocytes maturing to metaphase II stage. It is concluded that 6-day in vitro culture of sheep PFs in thyroxin and FSH greatly improves the frequency of oocyte maturation to metaphase II stage.     

The effects of 17beta-estradiol and protein supplement on the response to purified and recombinant follicle stimulating hormone in bovine oocytes

During in vitro maturation of bovine oocytes, effects of gonadotropins (FSH, LH) and growth factors such as epidermal growth factor (EGF) vary among studies. Now that we can use defined or semi-defined medium, it becomes possible to evaluate recombinant products to assess their roles. Therefore, this study was designed to evaluate the effect of purified porcine (pFSH) or recombinant human (r-hFSH; 5, 50, or 500 ng/ml) follicle stimulating hormone, luteinising hormone (LH; 50,500 or 5000 ng/ml) and epidermal growth factor (EGF; 5, 10, 30 or 50 ng/ml) on subsequent embryonic development of in vitro matured bovine oocytes. In addition, the presence of bovine serum albumin (BSA; 8 mg/ml) as a protein supplement during in vitro maturation (IVM) was studied. For all treatments, cumulus-oocyte complexes were matured in defined maturation medium consisting of synthetic oviduct fluid. Addition of LH to the maturation medium at all concentrations studied did not increase the proportion of oocytes developing to the morula and blastocyst stages. However, morula and blastocyst yield were improved (p < 0.05) after addition of EGF (30 ng/ml) as compared with maturation medium alone (29.3% vs 18.0%, respectively). Addition of r-hFSH to the maturation medium in the presence of 17beta-estradiol (E2) significantly (p < 0.0001) increased the morula and blastocyst rate compared with maturation medium alone (40.3% vs 19.3%, respectively). The presence of BSA alone during IVM significantly reduced the developmental competence of oocytes as reflected by the morula and blastocyst yield. These results demonstrate the essential role of FSH, EGF and E2 on the kinetics of nuclear and cytoplasmic maturation that are essential for the formation of an egg capable of fertilisation and development. Also, supplementation of r-hFSH and E2 during IVM under our conditions increases morula and blastocyst yield following in vitro fertilisation and in vitro culture in defined medium. Finally, the presence of BSA as the only protein supplement during IVM may be detrimental to oocyte maturation.     

Effect of including growth factors and antioxidants in maturation medium used for in vitro culture of buffalo oocytes recovered in vivo

This study examined the effect of including one of two growth factors (100 ng/ml IGF-1 or 20 ng/ml EGF) in combination with one of two antioxidants (50 microM cysteamine or 50 microM beta-mercaptoethanol) in maturation, fertilization and subsequent development of buffalo oocytes. The oocytes were recovered by in vivo ovum pick-up technique from six Murrah buffalo heifers twice a week over a period of 16 weeks. Immediately after ovum pick-up oocytes recovered from six donors were allocated randomly to five different maturation treatments. The control treatment was the basic maturation medium (MM; TCM-199 supplemented with 10% FBS, 10 IU/ml LH, 0.5 microg/ml FSH, 1 microg/ml estradiol-17beta and 50 microg/ml gentamicin). The other four treatments consisted of the control maturation medium (MM) plus one combination of a growth factor and an antioxidant viz. IGF-1+cysteamine; IGF-1+beta-ME; EGF+cysteamine or EGF+beta-ME. The total number of oocytes assigned to each maturation treatment ranged from 31 to 66. After maturation in different maturation medium, media used for in vitro fertilization and subsequent development of embryo was same for all groups. Data were analysed using Chi-square test. The maturation rate observed for the growth factor plus antioxidant treatments was similar to that for the control (90.4%). The highest cleavage rate recorded in the IGF-1+cysteamine treatment (71.9%) which was significantly higher (P<0.05) than the IGF-1+beta-ME (45.2%) and EGF+beta-ME (46.4%) treatments, but not significantly differ from the control (63.8%) and EGF+cysteamine treatment (60.7%). The proportion of cleaved oocytes those developed to blastocyst stage was significantly higher in the IGF-1+cysteamine treatment (52.2%; P<0.05) than in the control (23.3%), the EGF+cysteamine (13.5%) or the EGF+beta-ME (7.7%) treatments, but did not differ significantly from the IGF-1+beta-ME (28.6%) treatment. Following non-surgical transfer of 15 embryos to 14 synchronized recipients, four became pregnant and only one recipient sustained the pregnancy as long as 4.5 months when spontaneous abortion occurred. It was concluded that supplementing the maturation medium with IGF-1+cysteamine improved the production of buffalo embryos significantly in vitro culture.     

Effect of testosterone and dibutyryl c-AMP on the meiotic competence in pig oocytes of various size categories

Spontaneous meiosis resumption was investigated in small pig oocytes of various size categories. Two parameters were studied: 1) the possibility for inhibiting spontaneous meiosis resumption in small oocytes of various size categories and 2) the level of meiotic competence of small oocytes in which meiosis resumption had been temporarily blocked. It was observed that 1 mM dibutyryl cyclic adenosine monophosphate (dbcAMP) combined with 0.5 μM testosterone were able to prevent spontaneous maturation in pig oocytes of various size categories cultured in vitro for up to 10 d. Moreover, a culture of these oocytes with dbcAMP and testosterone has a beneficial effect on the integrity of the oocyte-granulosa cell complex. When oocytes were allowed to mature after long-term inhibition of maturation, the percentage of oocytes able to resume maturation was significantly increased. However, the portion of oocytes which completed maturation, reaching the metaphase II (M II) stage, did not increase. It was found that dbcAMP, in combination with testosterone, also efficiently inhibited spontaneous maturation in fully grown pig oocytes. When the inhibitory effect of dbcAMP and testosterone was reversed in fully grown oocytes, maturation was significantly accelerated.     

A combination of EGF and IGF-I accelerates the progression of meiosis in bovine follicular oocytes in vitro and fetal calf serum neutralizes the acceleration effect

The effects of a combination of EGF and IGF-I (GFs) on the progress of meiosis and on their developmental competence were examined in cumulus-enclosed bovine oocytes. Exposure to GFs in serum-free, 0.3% PVP-containing maturation medium significantly (P<0.05) increased the frequency of oocytes with the first polar body (PB) at 16 h of culture and decreased those with PB at 20 h. The cleavage rates of PB-extruded oocytes after fertilization were not affected by treatment of GFs during maturation culture, and blastocyst yield was not improved by GFs treatment. Although replacement of PVP from GFs-containing medium with fatty acid-free BSA did not affect the timing of PB extrusion, replacement with 10% FCS neutralized the acceleration effects of GFs. Replacement for macromolecule in maturation medium did not improve blastocyst yield of PB-extruded oocytes after fertilization. These results indicate that the progression of meiosis in bovine oocytes with cumulus cells is accelerated by exposure to GFs in serum-free maturation medium but their developmental competence is not improved, and that the acceleration effects on the progress of meiosis is neutralized by the presence of FCS in maturation medium with no improvement of developmental competence after in vitro fertilization.     

In vitro and in vivo maturation of oocytes from gonadotrophin-treated brushtail possums

The time course of nuclear maturation of oocytes was examined in brushtail possums, Trichosurus vulpecula. Oocytes were recovered from ovarian follicles > 2 mm in diameter after pregnant mares' serum gonadotrophin/porcine luteinizing hormone (PMSG/LH) treatment (in vivo matured) or 72 hr after PMSG treatment (in vitro matured). Oocytes recovered from small (< 2 mm) and large (> 2 mm) follicles were also assessed for their ability to mature in vitro. Staining with the DNA-specific dye Hoechst 33342 was used to assess the stage of nuclear development by fluorescence microscopy. The process of nuclear maturation progressed rapidly in vivo, as oocytes collected at 20-27 hr post-LH all had a GV, but by 28-29.5 hr post-LH approximately a third of eggs were MII. By 30-hr post-LH, more than 70% of oocytes had reached MII stage and all ovulated eggs were MII. In vitro, all oocytes were at germinal vesicle stage at the start of culture. After 24 hr of culture, 67% of oocytes had progressed to metaphase I/anaphase I of meiosis. After 36 hr, 25% of oocytes had completed maturation to metaphase II, increasing to 52% after 48 hr. Maturation of oocytes after 48 hr in culture was unaffected by the presence or absence of granulosa cells, PMSG or LH/porcine follicle stimulating hormone (FSH). More oocytes from large follicles (55%) completed maturation by 48 hr than from small follicles (15%). The potential of oocytes to mature after 48 hr in culture was dependent on the follicle harvested having reaching a critical diameter of 1.5 mm.     

Inhibition of rat oocyte maturation and ovulation by nitric oxide: mechanism of action

Established gap junctional communication (GJC) in the ovarian follicle is essential for maintaining the oocytes in meiotic arrest. Alternatively, LH-induced reinitiation of meiosis is subsequent to breakdown of GJC. It was recently reported that nitric oxide (NO) inhibits maturation in rat follicle-enclosed oocytes and elevates GJC in cultured mesangial cells. Taking these observations into account, we hypothesized that NO prevents reinitiation of meiosis by antagonizing the effect of LH on GJC in the ovarian follicle. Indeed, we found that NO interferes with LH-induced disruption of GJC as well as with the decrease of the expression of the gap junction protein GJA1 (previously known as CONNEXIN43). We also demonstrated that NO prevents activation of LH-induced mitogen-activated protein kinases (MAPKs) 1 and 2 and inhibits cumulus expansion. Along this line, incubation of ovarian follicles with an inhibitor of soluble guanylate cyclase, which is a downstream NO effector, induced on its own oocyte maturation as well as cumulus expansion. Unlike previous studies, we show here that elevation of NO resulted in inhibition of ovulation. We conclude that the mechanism by which NO inhibits LH-induced oocyte maturation possibly involves a negative effect on MAPK activation and, in turn, interference with interruption of GJC. This action of NO in the ovarian follicle is apparently mediated by cGMP. In addition, the negative effect of NO on ovulation may be subsequent to its inhibitory effect on cumulus expansion. Together, this study suggests that the preovulatory decrease in NO concentrations is a prerequisite for the ovarian response to LH.     

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.     

Meiotically incompetent and competent goat oocytes: timing of nuclear events and protein phosphorylation

The ability of mammalian oocytes to resume meiosis and to complete the first meiotic division is acquired sequentially during their growth phase. The acquisition of meiotic competence in goat oocytes has been previously correlated with follicular size (9). Since protein phosphorylation/dephosphorylation play a key role in oocyte maturation, it could be that in meiotically incompetent oocytes, such post-translational modifications are inadequate. The aim of this study was to analyze whether changes in oocyte proteins phosphorylation occurred during the acquisition of meiotic competence. For this propose, goat oocytes were divided into 4 classes according to follicular size and meiotic competence: Class A oocytes from follicles < 0.5 mm in diameter: Class B oocytes from follicles 0.5-0.8 mm; Class C oocytes from follicles 1-1.8 mm and class D oocytes from follicles > 3 mm. The protein phosphorylation patterns of these classes of oocytes were studied at different times of in vitro maturation. After 4h of culture, when all oocytes were in the germinal vesicle stage, only the oocytes from Class D displayed the phosphoproteins at 110 kD, 31 kD and around 63 kD. In contrast to Class D oocytes Classes B and C oocytes were partially competent to mature, they underwent germinal vesicle breakdown later than fully competent Class D oocytes and remained in early prometaphase I or in metaphase I, respectively. They exhibited the phosphoprotein changes that are associated with commitment to resume meiosis; but the changes occurred later than in Class D oocytes, which were fully competent to reach metaphase II. After 27 h of culture, the phosphorylation patterns of Class B, C and D oocytes were identical, whereas the meiotic stages reached were quite different. The phosphoprotein changes associated with oocyte maturation did not occur in meiotically incompetent Class A oocytes, which were blocked at the germinal vesicle stage. From these results it can be concluded that, at the GV stage, meiotically incompetent and competent goat oocytes display different patterns of protein phosphorylation. Once oocytes are able to resume meiosis they undergo specific phosphorylation changes, but whether these changes are markers or regulators of maturation events remains to be determined.     

Effect of growth factors, EGF and IGF-I, and estradiol on in vitro maturation of sheep oocytes

The objective of these experiments was to determine the effect of exogenous addition of insulin-like growth factor-I (IGF-I, 100 ng/mL), epidermal growth factor (EGF, 10 ng/mL) and estradiol (E2, 100 ng/mL) to the maturation medium of sheep oocytes on their subsequent development in vitro. Addition of IGF-I to the maturation medium did not improve nuclear or cytoplasmic maturation of sheep oocytes at the concentration tested. However, EGF improved significantly the resumption of meiosis (84% oocytes in metaphase II stage after IVM vs. 59% in medium alone). Cleavage rate and blastocyst development rates were improved (P<0.01) after addition of EGF (60% and 29%, respectively), as compared with maturation in TCM 199 alone (39% and 19%, respectively), but remained lower than rates observed after maturation in complete medium containing follicular fluid (FF, 10%) and FSH (81% and 35%, respectively). No additive effect of EGF over FSH was observed during these experiments. Addition of FF to FSH containing maturation medium improved significantly both cleavage (P<0.001) and blastocyst rates (P<0.05). Addition of E2 to the IVM medium is not required when medium already contains FF. However, in defined conditions supplementation of maturation medium with E2 had a positive effect. These results suggest that EGF, FSH and E2 may play an important role in the nuclear and cytoplasmic maturation of sheep oocytes in vitro.