Effects of cysteamine, fsh and estradiol-17beta on in vitro maturation of porcine oocytes

Porcine cumulus-oocyte complexes (COCs) were cultured for 48 h with addition or absence of exogenous estradiol-17beta (E2; 1 microg/mL) in the maturation medium (mM199). The medium was supplemented with sodium pyruvate (0.1 mg/mL), 10% (v/v) FCS, various concentrations of FSH (0, 1 and 10 microg/mL) and with or without cysteamine (150 microM). When supplemented with E2, cysteamine enhanced the rates of germinal vesicle breakdown (GVBD) and maturation to metaphase-II (M-II) in COCs cultured in the medium with 0 and 1 microg/mL FSH (P<0.05). Among COCs cultured with FSH, oocytes cultured with 1 microg/mL FSH and E2 but without cysteamine showed the lowest rates of GVBD and M-II. The rates were, however, significantly increased when cysteamine was added to the same medium or by increasing FSH concentration to 10 microg/mL in the maturation medium. E2 significantly inhibited the rates of GVBD and M-II in COCs cultured without FSH and cysteamine (a group of oocytes with spontaneous maturation). When COCs were cultured in TCM 199 with 1 or 10 microg/mL FSH, with or without E2 (1 microg/mL) and fertilized in vitro, the rates of male pronucleus formation were not increased by increasing FSH concentration, but the addition of cysteamine to the maturation medium significantly enhanced the rates in the same FSH treatment. The results indicate that E2 inhibits spontaneous GVBD and maturation to M-II of porcine oocytes and that a low concentration of FSH (1 microg/mL) is not sufficient to induce full nuclear maturation, compared with 10 microg/mL FSH, but that it can complete nuclear maturation with cysteamine and E2. However, the cytoplasmic maturation is promoted only by the addition of cysteamine in the medium.     

Cytoplasmic changes in relation to nuclear maturation and early embryo developmental potential of porcine oocytes: effects of gonadotropins, cumulus cells, follicular size, and protein synthesis inhibition

Morphological and biochemical changes indicative of cytoplasmic maturation in relation to nuclear maturation progression and early embryo developmental potential was studied. Fluorescently labeled microfilaments and cortical granules were visualized by using laser scanning confocal microscopy. The mitogen-activated protein (MAP) kinase phosphorylation and cyclin B1 levels were revealed by Western blot. With the maturation of oocytes, cortical granules and microfilaments were localized at the cell cortex. A cortical granule-free domain (CGFD) and an actin-thickening area were observed over both the MII spindle of a mature oocyte and chromosomes of a nocodazole-treated oocyte, suggesting that chromosomes, but not the spindle, determined the localization of CGFD and actin-thickening area. In oocytes that are incompetent to resume meiosis, as indicated by the failure of germinal vesicle breakdown (GVBD), peripheral localization of cortical granules and microfilaments, phosphorylation of MAP kinase and synthesis of cyclin B1 did not occur after 44 hr in vitro. These cytoplasmic changes were also blocked when GVBD of meiotically competent oocytes was inhibited by cycloheximide. Culture of oocytes in a chemically defined medium showed that biological factors such as gonadotropins, cumulus cells and follicle size affected both nuclear and cytoplasmic maturation as well as embryo developmental potential. Absence of gonadotropins or removal of cumulus cells alone did not significantly influence GVBD or cyclin B1 levels, but decreased the final maturation and developmental ability of oocytes. A combination of gonadotropin absence and cumulus removal decreased GVBD, MAP kinase phosphorylation and embryo development. A high proportion of oocytes derived from small follicles were able to resume meiosis, synthesize cyclin B(1), phosphorylate MAP kinase and translocate CGs, but their maturation and embryo developmental ability were limited. Removal of cumulus cells from small follicle-derived oocytes severely affected their ability to undergo cytoplasmic and nuclear maturation.     

Influence of FSH and hCG on the resumption of meiosis of bovine oocytes surrounded by cumulus cells connected to membrana granulosa

Cumulus oocyte complexes (COCs) and cumulus oocyte complexes connected to a piece of the membrane granulosa (COCGs) were isolated from bovine antral follicles with a diameter of 2 to 8 mm. After culture of COCGs without gonadotrophic hormones for 22 hr approximately 50% of the oocytes were still in the germinal vesicle (GV) stage Histology of the COCGs showed that the pieces of the membrana granulosa were free of thecal cells and parts of the basal membrane. This indicates that the membrana granulosa solely inhibits the progression of meiosis. To investigate the effect of gonadotropins on the resumption of meiosis of oocytes from small and medium sized antral follicles, COCs and COCGs were cultured with or without rec-hFSH or hCG. Addition of 0.05 IU rec-hFSH to the culture medium of COCGs resulted in germinal vesicle breakdown in 97.8% of the oocytes compared to 46% in the control group, and an increase of the diameter of the COCs (479 μm vs. 240 μm in the control group). Addition of 0.05 IU hCG to the culture medium had no effect on nuclear maturation (47.2% GV vs. 48.5% GV in the control group nor on cumulus expansion (246 μm vs. 240 μm in the control group). RT-PCR on cDNA of the follicular wall, cumulus cells, granulosa cells, COCs, and oocytes revealed that mRNA for FSH receptor was present in all cell types except oocytes. mRNA of the LH receptor was detected exclusively in thecal cells. Nucleotide sequence analysis and alignment of the cloned PCR products showed the presence of two isoforms of the FSH receptor mRNA and two isoforms of the LH receptor mRNA. It is concluded that, in vitro, resumption of meiosis of oocytes, originating from small and medium sized antral follicles and meiotically arrested by the membrana granulosa, is triggered by FSH and not by LH. This is supported by the fact that receptors for FSH, but not for LH, are transcribed in the cumulus and granulosa cells of these follicles. © 1996 Wiley-Liss, Inc.     

Effects of cycloheximide on chromatin condensations and germinal vesicle breakdown (GVBD) of cumulus-enclosed and denuded oocytes in cattle

To determine if newly synthesized protein is imperative for the resumption of meiosis in bovine follicular oocytes collected from small antral follicles, cumulus-enclosed and denuded oocytes were cultured in TCM-199 both with and without various concentrations of the protein synthesis inhibitor, cycloheximide. After 11 h of culture in inhibitor-free medium, all oocytes had undergone germinal vesicle breakdown (GVBD). However, when concentrations of more than 1.0 mug/ml cycloheximide were added to the medium, the meiotic resumption of bovine oocytes was completely blocked. This inhibitory effect of cycloheximide was fully reversible after removal of the inhibitor from maturation media. Germinal vesicle breakdown following removal of cycloheximide occurred twice as fast as in the control medium. Nevertheless, when oocytes were arrested at the germinal vesicle (GV) stage by cycloheximide, a significantly higher proportion of chromatin condensation (40 to 57%) was observed in denuded oocytes than in cumulus-enclosed oocytes (11 to 22%). Thus the cycloheximide treatment could not prevent the chromatin condensation in only denuded oocytes. We conclude that protein synthesis is a prerequisite for GVBD in bovine follicular oocytes and that cumulus cells are responsible for the complementary regulation of the chromatin condensation at the GV stage, regardless of protein synthesis in the oocytes.     

Bovine oocytes from early antral follicles grow to meiotic competence in vitro: effect of FSH and hypoxanthine

A large number of oocytes are contained in the mammalian ovary. A very small number of these oocytes grow to the final size, mature, and are ovulated. In the ovary there are more early antral follicles than late antral or preovulatory follicles, offering a large pool of oocytes for IVM and IVF if appropriate culture conditions could be devised. In the present study, early antral follicles containing oocytes 90 to 99 microm in diameter were isolated from bovine ovaries. Cumulus-oocyte complexes (COC) with pieces of parietal granulosa (COCG) were then dissected from the follicles. The COCGs were embedded in collagen gels and cultured in Medium 199 with 10% fetal calf serum (FCS) for 8 d. In Experiment 1, the effect of hypoxanthine and FSH on the growth of bovine oocytes was examined. When hypoxanthine (2 and 4 mM) and FSH (10 ng/ml) were added to the culture medium, the number of granulosa cell-enclosed oocytes increased significantly (P < 0.05). All of the oocytes surrounded by granulosa cells showed a normal morphology and were at the germinal vesicle stage, while 75 to 94% of the denuded oocytes were degenerated and had resumed meiosis. The mean diameter of the oocytes showing normal morphology was significantly higher than that measured before culture (P < 0.05). In Experiment 2, the maturational competence of in vitro-grown bovine oocytes was examined. Oocytes which were 90 to 99 microm in diameter before culture did not have meiotic competence. After being in a growth culture of 4 mM hypoxanthine- and 10 ng/ml FSH-supplemented medium for 7 or 11 d, granulosa cell-enclosed oocytes were recovered from the COCGs. No significant difference (P < 0.05) in the diameters of the oocytes was observed between 7 and 11 d of culture (7 d: 107.5 +/- 6.1 microm, n = 30; 11 d: 108.0 +/- 5.3 microm, n = 35). After a subsequent 24 h in a maturation free of hypoxanthine and FSH medium, only 17% of the oocytes cultured for 7 d underwent germinal vesicle breakdown. On the other hand, 89% of the oocytes cultured for 11 d underwent germinal vesicle breakdown, and 11% of the oocytes emitted the first polar body and reached metaphase II. These results demonstrate for the first time that bovine oocytes harvested from early antral follicles can grow, and acquire meiotic competence in vitro.     

The role of RhoA in the germinal vesicle breakdown of mouse oocytes

We have investigated a new role of RhoA in the germinal vesicle breakdown (GVBD) of mouse oocytes. First, RhoA was identified by immunostaining and ADP-ribosylation in germinal vesicle (GV) stage-oocytes. RhoA was mainly localized in the ooplasmic area, but rarely detected in germinal vesicle. Incubation of oocyte extract with C3 transferase induced a strong ADP-ribosylation at about 25 kDa. Incubation of GV-stage oocytes in culture medium induced the spontaneous maturation to GVBD by about 78 and 87% of total oocytes at 1 and 3 h, respectively. However, microinjection of C3 transferase into GV-stage oocytes significantly inhibited GVBD at 1 (GVBD = 29%) and 3 h (GVBD = 49%). To study the role of reactive oxygen species (ROS) in the oocyte maturation, the level of intra-oocyte ROS was measured using a ROS-specific fluorescent dye H(2)DCFDA during the oocyte maturation. Spontaneous maturation of GV-stage oocytes induced a significant increase of ROS at 3 h by about twofold over the control level and then the increased level was maintained until 6 h. However, microinjection of C3 transferase inhibited the production of intra-oocyte ROS. Incubation with ROS scavengers, N-acetyl-l-cysteine and catalase, blocked the ROS increase. The ROS scavengers also significantly inhibited GVBD, as did C3 transferase. Thus, it was proposed that RhoA was involved in the GVBD, possibly by the production of ROS in mouse oocytes.     

Simulation of intrafollicular conditions prevents GVBD in bovine oocytes: a better alternative to affect their developmental capacity after two-step culture

To increase the developmental competence of bovine oocytes isolated from small, medium, and large follicles (2-3, 3-4, and 4-6 mm in diameter, respectively), we tried to modify the conditions for their in vitro culture. The first step involved conditions maintaining at least for 48 hr a reversible inhibition of the germinal vesicle breakdown (GVBD) and the second step stimulated the resumption of meiosis and completion of nuclear and cytoplasmic maturation during the subsequent 20-22 hr of culture. The effectiveness of this model depended mainly on the medium composition (reduced NaHCO3, substitution of serum with serum albumin, addition of antioxidants (curcumin), increased viscosity by agar, the reduction of oxygen concentration (within 6%-8%), the reduction of the proportion between the number of cumulus-oocyte complexes (COCs), and the reduction of the amount of a medium (within 6-7 mul per COC) to amplify the GVBD-inhibitory effect of oocyte surrounding granulosa cells. The COCs were incubated in clumps of 6-7 COCs. The effectiveness and reversibility of GVBD inhibition depended also on the duration of COCs isolation. The full reversibility of the GV block was controlled morphologically and also by measuring histone H1 and MAP kinase activities. The two-step versus one-step (24 hr) maturation technique was evaluated by the percentage of total and hatched blastocysts at day 9. When compared with one-step maturation, the two-step culture showed a slightly increased proportion of total and hatched blastocysts developed from growing follicles, mainly from the smallest category (13.9% vs. 7.1% and 9.2% vs. 3.3% for total blastocysts and hatched, respectively). However, the two-step culture of oocytes from large regressing follicles substantially reduced the blastocyst yield (9.7% vs. 39.1% and 4.9% vs. 26.7% for total blastocysts and hatched, respectively). The transfer of ten blastocysts (developed after two-step culture) to ten recipients resulted in seven pregnancies.     

不同直径山羊卵泡卵母细胞的发育特征及体外发育能力

目的研究山羊卵巢表面不同直径卵泡卵母细胞的发育特征及体外发育能力,优化山羊早期胚胎体外生产系统。方法收集繁殖期和非繁殖期山羊卵巢,采集表面直径小于1.5 mm、1.5-2.5 mm、2.5-3.5 mm和大于3.5 mm4种卵泡卵母细胞,以Hoechst33342染色检查核发育阶段;同时,利用体外培养方法观察不同直径卵泡卵母细胞的成熟、受精和早期胚胎发育能力。结果直径小于1.5 mm卵泡卵母细胞主要处于GVI期;1.5-2.5 mm卵泡卵母细胞以GVⅠ、GVⅡ和GVⅢ期为主;2.5-3.5 mm卵泡卵母细胞在GVⅡ到GVⅣ期间平均分布;大于3.5mm卵泡卵母细胞主要为GVⅢ到GVBD期。体外培养实验发现,直径小于1.5 mm卵泡卵母细胞仅有个别能完成成熟和卵裂;大于1.5 mm卵泡卵母细胞具有核成熟能力,能完成成熟和受精,但1.5-2.5 mm卵泡卵母细胞的受精卵通常阻滞于4-8细胞期;当卵泡直径大于2.5 mm时,卵母细胞才能较好地支持胚胎继续发育,其桑/囊胚的比例达到30%以上。卵泡卵母细胞的发育特征和体外发育能力与动物所处的繁殖季节无关。结论山羊卵巢上直径大于1.5 mm卵泡卵母细胞具有核成熟能力,大于2.5 mm卵泡卵母细胞能支持早期胚胎继续发育。     

The ability to achieve meiotic maturation in the dog oocyte is linked to glycolysis and glutamine oxidation

We tested the hypothesis that meiotic competence of dog oocytes is tightly linked with donor follicle size and energy metabolism. Oocytes were recovered from small (<1 mm diameter, n = 327), medium (1–<2 mm, n = 292) or large (≥2 mm, n = 102) follicles, cultured for 0, 24, or 48 hr, and then assessed for glycolysis, glucose oxidation, pyruvate uptake, glutamine oxidation, and nuclear status. More oocytes (P < 0.05) from large follicles (37%) reached the metaphase‐II (MII) stage than from the small group (11%), with the medium‐sized class being intermediate (18%; P > 0.05). Glycolytic rate increased (P < 0.05) as oocytes progressed from the germinal vesicle (GV) to MII stage. After 48 hr of culture, oocytes completing nuclear maturation had higher (P < 0.05) glycolytic rates than those arrested at earlier stages. GV oocytes recovered from large follicle oocytes had higher (P < 0.05) metabolism than those from smaller counterparts at culture onset. MII oocytes from large follicles oxidized more (P < 0.05) glutamine than the same stage gametes recovered from smaller counterparts. In summary, larger‐sized dog follicles contain a more metabolically active oocyte with a greater chance of achieving nuclear maturation in vitro. These findings demonstrate a significant role for energy metabolism in promoting dog oocyte maturation, information that will be useful for improving culture systems for rescuing intraovarian genetic material. Mol. Reprod. Dev. 79: 186–196, 2012. Published 2011. This article is a U.S. Government work and is in the public domain in the USA.     

Development of in vitro embryo production systems for red deer (Cervus elaphus). Part 2. The timing of in vitro nuclear oocyte maturation

The time course of in vitro red deer nuclear oocyte maturation was determined. Ovaries were obtained at slaughter and oocytes were aspirated from follicles greater than 2mm in diameter. Oocytes with compact cumulus cells were matured in 50 microl microdrops (10 per drop) under mineral oil containing TCM 199 supplemented with 0.33 mM pyruvate, 10 microg LH and FSH, 1 microg oestradiol and 10% foetal bovine serum. Oocytes were matured at 39 degrees C and 5% CO(2) in air. At 3h intervals (0-27 h) oocytes were removed from incubation, cumulus expansion scored and removed, and fixed oocytes in ethanol:acetic acid (3:1) for 48 h. Oocytes were stained with lacmoid (1%) and nuclear maturation assessed. Oocytes were arrested in the germinal vesicle (GV) stage at aspiration and up to 6h of incubation. The nuclear membrane began to disperse after 6h and by 10.6+/-0.6h of incubation 75% of the oocytes exhibited germinal vesicle breakdown (GVBD). The mean time for 50% of the oocytes to reach metaphase one (MI) and metaphase two (MII) was 11.7+/-0.4 and 24.8+/-0.9h, respectively. Cumulus oophorus were tightly compacted at aspiration and did not begin expansion until 12h of culture. Full expansion was complete by 18 h of culture. Corona radiata cells did not begin expansion until 15 h and were fully expanded by 24h. Results indicate that in vitro red deer oocyte maturation follows a similar time course of nuclear maturation as reported for bovine and ovine oocytes.     

Bovine oocytes treated prior to in vitro maturation with a combination of butyrolactone I and roscovitine at low doses maintain a normal developmental capacity.

Butyrolactone I (BL-I) and Roscovitine (ROS), two specific and potent inhibitors of M-phase promoting factor (MPF) kinase activity, were used to block germinal vesicle breakdown (GVBD) of cattle oocytes. A concentration 6.25 microM BL-I and 12.5 microM ROS blocked over 93.3 +/- 2.5% of oocytes in germinal vesicle (GV) stage during a 24-hr culture period. Following a second 24-hr culture step in maturation medium (IVM) almost all (91.5 +/- 3.0%) inhibited oocytes resumed meiosis and reached the metaphase II (MII) stage. The MII kinetics was different for inhibited and control oocytes. Fifty percent MII was reached at 13-14 hr in BL-I + ROS treated oocytes, compared to 18 hr in control oocytes. Therefore, control oocytes were fertilised (IVF) after 22 hr IVM and inhibited oocytes after 16 or 22 hr IVM. After IVF, percentage of grade 1 freezable embryos on day 7 (D + 7) as well as percentage of blastocyst formation on D + 8 in the group of BL-I + ROS treated oocytes fertilised after 16 hr IVM were higher (P < 0.05) compared with the other experimental group fertilised after 22 hr IVM but not different in comparison with the control. Survival to freezing and thawing of grade 1 embryos frozen on D + 7 was employed as viability criteria and was similar in all groups. Thus, the presence of BL-I + ROS in the prematuration medium of bovine oocytes determines a reversible meiotic block, without compromising their subsequent developmental competence.     

Ion current activity and molecules modulating maturation and growth stages of ascidian (Ciona intestinalis) oocytes

Electrophysiological techniques were used to study ion currents in the ascidian Ciona intestinalis oocyte plasma membranes during different stages of growth and meiosis. Three stages (A, B, C) of immature oocytes were discriminated in the ovary, with the germinal vesicle (GV) showing specific different features of growth and maturation. Stage A (pre‐vitellogenic) oocytes exhibited the highest L‐type Ca²⁺current activity, and were incompetent for meiosis resumption. Stage B (vitellogenic) oocytes showed Na⁺ currents that remained high during the maturation, up to the post‐vitellogenic stage C oocytes. The latter had acquired meiotic competence, undergoing spontaneous maturation and interacting with the spermatozoon. However, fertilized oocytes did not produce normal larvae, suggesting that cytoplasmic maturation plays a specific role in embryo development. Spontaneous maturation was inhibited at low pH whereas trypsin was able to trigger germinal vesicle breakdown (GVBD) regardless of pH; in addition spontaneous maturation was not affected by removal of follicle cells or by inhibiting junctional communication between oocyte and follicle cells. Taken together these results imply: (i) Ca²⁺ and Na⁺ currents are involved in meiotic progression, growth, and acquisition of meiotic competence; (ii) trypsin‐like molecules may have a role as candidates for providing the physiological stimulus to resume meiosis. Finally, we provide evidence that follicle cells in Ciona are not involved in triggering GVBD as it occurs in other ascidians. Mol. Reprod. Dev. 76: 1084–1093, 2009. © 2009 Wiley‐Liss, Inc.     

Bovine immature oocytes acquire developmental competence during meiotic arrest in vitro

To test the hypothesis that oocytes require time to acquire developmental competence during meiotic arrest, we investigated the effects of butyrolactone I (BL I), a potent and specific inhibitor of cyclin-dependent kinase, on the developmental competence of bovine oocytes after in vitro fertilization (IVF) following release from meiotic arrest. In the present study, 4 culture conditions were used: addition of BSA or fetal bovine serum (FBS) under 2 oxygen tensions (5% vs. 20%) during meiotic arrest with 100-microM BL I. The developmental competence to the blastocyst stage was higher (P < 0.01) in oocytes that were arrested in FBS-supplemented medium under 5% O2 (37%) than in oocytes that were arrested under other conditions (5%-24%) or that matured directly following follicle aspiration (23%). The time course of nuclear maturation of BL I-treated oocytes was also examined. The results demonstrated that oocytes treated with BL I start germinal vesicle (GV) breakdown and reach the metaphase II stage 5.5-6.0 h earlier than nonarrested oocytes. The developmental rates to the blastocyst stage of BL I-treated oocytes matured for 15.5 and 21 h were higher (P < 0.05) than those of nontreated oocytes matured for 21 and 26.5 h, respectively. These results demonstrate that bovine immature oocytes, which were arrested at the GV stage with BL I in FBS-supplemented medium under low oxygen tension, acquire higher developmental competence during meiotic arrest.     

Inhibition of nuclear maturation in fully grown porcine and mouse oocytes after their fusion with growing porcine oocytes

Porcine ovarian oocytes, isolated from follicles of 5 mm in diameter (large oocytes), were fused either together or with oocytes isolated from follicles of 0.5 mm in diameter (small oocytes). In giant cells composed of two large oocytes (control) germinal vesicle breakdown (GVBD) occurred and two metaphase I chromosome sets (M I) were observed 24 to 30 h after fusion. By contrast, in giant cells composed of one large and one small porcine oocyte, both germinal vesicles (GVs) remained well conserved after 24-30 h of culture. An identical situation was observed after fusion and cultivation of small porcine and large mouse oocytes isolated from preovulatory follicles. The results demonstrate the presence of inhibiting activity in the ooplasm of small porcine oocytes that prevents nuclear maturation of large porcine and mouse oocytes fused to them. This maturation inhibiting activity can be overcome by preincubating large porcine oocytes for more than 14 h before fusion with small oocytes. During preincubation the ooplasm produces sufficient amount of maturation promoting factor (MPF) to overcome the inhibiting activity present in small porcine oocytes thus inducing GVBD and chromatin condensation both in small and large oocytes.     

The role of the germinal vesicle in producing maturation-promoting factor (MPF) as revealed by the removal and transplantation of nuclear material in starfish oocytes

In starfish, oocytes are released from prophase block by a hormone, which has been identified as 1-methyladenine. The action of 1-methyladenine is indirect in inducing oocyte maturation: it acts on the oocyte surface to produce a cytoplasmic maturation-promoting factor (MPF), the direct trigger of germinal vesicle breakdown (GVBD). Less than 5 min after hormone addition, thus about 10 min before appearance of the cytoplasmic maturation-promoting factor, a factor appears in the germinal vesicle, which triggers the production of cytoplasmic MPF, GVBD, and the subsequent events of meiotic maturation when transferred in the cytoplasm of any fully grown oocyte of the starfishes Marthasterias glacialis and Asterias rubens. Before hormone action, the germinal vesicle also contains a factor capable of inducing meiosis reinitiation in recipient oocytes, but in contrast with nuclear MPF, this factor acts exclusively when transferred in the cytoplasm of a special category of oocytes (the “competent” oocytes). In contrast to other oocytes (the “incompetent” oocytes) the competent oocytes are capable of producing MPF to some extent after enucleation, upon hormonal stimulation. Transfer of either nuclear or cytoplasmic MPF initially produced in hormone-treated maturing oocytes triggers the production of both cytoplasmic and nuclear MPF in non-hormone-treated recipient oocytes of both categories.     

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.     

Live offspring by in vitro fertilization of oocytes from cryopreserved primordial mouse follicles after sequential in vivo transplantation and in vitro maturation

The objectives of the present study were to achieve 1) oocyte maturation, 2) oocyte competence of fertilization, and 3) oocyte competence of embryogenesis with oocytes from primordial follicles obtained from cryopreserved newborn mouse ovaries by using a two-step method. In the first step, frozen-thawed newborn mouse ovaries were transplanted under the kidney capsule of recipients for the initiation of growth from the primordial follicle stage on. In the second step, growing preantral follicles in the ovarian grafts were recovered and cultured. The results demonstrated that primordial follicles were able to be recruited to preantral follicles during the period of transplantation, and preantral follicles could be mechanically isolated from ovarian grafts. Under the present in vitro culture conditions, 85.8% of the isolated follicles (n = 332) from ovarian grafts survived the 12-day in vitro culture process, 84.9% of the recovered oocytes (n = 285) were germinal vesicle breakdown (GVBD)-competent, and 76% of the oocytes that underwent GVBD (n = 242) developed to the metaphase II (MII) stage. In the in vitro fertilization experiments, 75.4% of 142 inseminated MII oocytes underwent fertilization and cleavage to the 2-cell stage. Subsequently, 79.7% of the 2-cell-stage embryos (n = 69) progressed to the late morula-early blastocyst stage. Transfer of late morula-early blastocyst embryos resulted in the production of live offspring. From our experiments, it may be concluded that in vivo maturation by grafting followed by in vitro maturation of frozen-thawed primordial follicles can restore fertility in mice. This model could be useful for a similar application in the human.     

Dynamics of meiosis and protein kinase activities in bovine oocytes correlated to prolactin treatment and follicle size

Oocyte developmental competence depends on the size of the original follicle and is affected by compounds like prolactin. We wished to investigate nuclear and cytoplasmic maturation of bovine oocytes correlated to their origin and response to prolactin treatment, by monitoring at frequent intervals meiotic configuration of chromosomes and activity of histone H1 and MAP-kinase. Bovine ovaries were obtained from a slaughterhouse and oocytes were recovered by follicle isolation. Oocytes (n = 1,397) with a compact cumulus were selected from small (2 to 3 mm) and large (4 to 5 mm in diameter) follicles and cultured up to 28 h in TCM 199+20% bull serum with or without 50 ng/mL bovine prolactin. Four groups of oocytes were formed: originating from small or large follicles, and treated or not treated with prolactin. At the scheduled time intervals for in vitro maturation, cumulus oocyte complexes from the 4 groups were randomly selected and the oocytes were analyzed for histone H1 and MAP-kinase, and for chromatin configuration. The first meiotic division took longer to complete in oocytes from large follicles (P < 0.01). Under the influence of prolactin the meiosis was prolonged in oocytes both from small and large follicles (P < 0.05). Histone H1 and MAP-kinases started to be activated at approximately the same time, around 6 h after beginning maturation. But after this time, significantly lower levels of both kinase activities were found in oocytes treated with prolactin, especially those treated during Meiosis I (P < 0.05). Our results indicate a correlation of chromatin configuration and histone H1/MAP-kinase activities.