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

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

Bovine cumulus-oocyte-complex-quality is reflected in sensitivity for alpha-amanitin, oocyte-diameter and developmental capacity

The aim of the present study was to find more parameters to define developmental competence of cumulus-oocyte-complexes (COCs). Bovine COCs were divided into five groups based on their morphology. In order of increasing level of atresia: COC-A had a bright, compact cumulus investment; COC-B1 also had a compact cumulus investment, but was darker than COC-A; the color of COC-B2 was comparable with COC-B1 but the corona radiata appeared to dissociate from the rest of the cumulus investment; the cumulus of COC-B3 was almost black and the corona radiata was almost completely dissociated from the rest of the cumulus investment; COC-C had a strongly expanded cumulus investment with dark spots of degenerated cells. An increasing level of atresia was accompanied by: (1) an increasing zona pellucida diameter (147.6, 150.8, 151.0, 154.3 and 155.1 microm, respectively, for COC-A, COC-B1, COC-B2, COC-B3 and COC-C); (2) an increasing oocyte diameter except for COC-C (120.9, 122.8, 122.8, 123.9 and 118.4 microm, respectively); (3) an increasing developmental competence except for COC-C (13.9, 14.7, 17.4, 19.1 and 11.5%, respectively, development to morula and blastocyst after in vitro embryo production (IVP)) and (4) by a increasing percentage of oocytes exhibiting germinal vesicle breakdown (GVBD) after 24h culture with alpha-amanitin and FSH, except for COC-A (34.4, 68.6, 51.0, 22.0 and 4.8%, respectively, oocytes arrested in GV). In general, embryo-quality, expressed in nuclei-count, was significantly affected by COC-quality (P < 0.05) with B3 > B1> B2 > A > C. However, if the developmental stages were compared separately, this effect was less evident. It was found that, in absence of FSH, alpha-amanitin was unable to inhibit GVBD and that the success of GVBD inhibition was positively correlated to the amount of cumulus cells surrounding the oocyte. COCs that had been exposed to alpha-amanitin and FSH during maturation retained the ability to cleave after IVF, but were unable to develop any further.     

Bovine cumulus expansion and corona-oocyte disconnection during culture in vitro.

Cumulus-oocyte complexes were aspirated from small antral follicles (3-5 mm in diameter) and divided into 2 groups: complexes in which a dark rim of corona cells were visible around the zona pellucida (group 1); and those in which the corona displayed the same density as the rest of the cumulus cell mass (group 2). Cumulus complexes of both groups were evaluated by acetoorcein staining, scanning electron microscopy (SEM) and 3H-uridine uptake during culture in vitro. Germinal vesicle breakdown was initiated at 7 h of culture in group 1 while more than half of the oocytes in group 2 already displayed germinal vesicle breakdown at the time of aspiration. However, whereas more than 80% of the oocytes in group 1 had reached metaphase II at 24 h of culture, almost half of the oocytes in group 2 were arrested in metaphase I after this time interval. As revealed by SEM the complexes of group 2 showed signs of expansion such as elongation of cumulus cells and presence of extracellular matrix already at the time of aspiration. In group 1 these features were noticed at 7-9 h of culture. A high level of metabolic coupling between corona cells and oocyte was maintained up to 9 h of culture in group 1 followed by a decrease to a constant low level at 13 h. In group 2 a high degree of coupling was maintained up to 7 h followed by a gradual decrease to a constant low level at 13 h. It is concluded that cumulus-oocyte complexes with a dark rim of corona cells as judged by stereomicroscopy mature at a higher rate and maintain unexpanded characteristics and efficient corona-oocyte coupling longer than complexes with even density of the cumulus mass. Consequently, the presence of a dark rim of corona cells may be used as a criterion for selection of oocytes for in vitro embryo production.     

In vitro penetration of hamster oocyte-cumulus complexes using physiological numbers of sperm

We have compared the ability of uncapacitated, capacitated acrosome intact, and acrosome-reacted hamster sperm to penetrate the cumulus and corona radiata of fresh hamster oocyte-cumulus complexes (OCC) in vitro. This was done using physiological numbers (1-20) of sperm so that cumulus and corona radiata cells did not disperse during challenge. Uncapacitated sperm did not penetrate to the zona pellucida surface; most (74%) uncapacitated sperm bound to cumulus cells at the periphery of the OCC. Capacitated acrosome-intact sperm penetrated to the zona pellucida surface; a significant percentage of these sperm arrived at the zona pellucida without showing evidence of initiating an acrosome reaction. Most capacitated acrosome-reacted sperm did not enter the extracellular matrix between cumulus and corona radiata cells; those which did penetrated to the zona surface with difficulty, if at all. These results suggest that the changes which occur in the sperm surface during capacitation are more important than the acrosome reaction in enabling hamster sperm to penetrate the cumulus and corona radiata. The effects of gold sodium thiomalate (GST) and polyphloretin phosphate (PPP) (inhibitors of hyaluronidase) on penetration of the OCC by capacitated sperm were also examined. Both synthetic inhibitors blocked sperm penetration to the zona pellucida, but the effective concentrations of inhibitors were far in excess of what was needed to block hyaluronidase activity. Reasons for concluding that the action of these inhibitors is nonspecific are discussed. These data show that hamster sperm with intact acrosomes can penetrate the cumulus and corona radiata cell layers of fresh OCC in vitro and support the hypothesis that the acrosome reaction occurs on the zona pellucida surface.     

Sperm penetration through oocyte investments in mammals

Literature on the interactions between eutherian gametes is reviewed. The oocyte cumulus complex of the female is surrounded by a zona pellucida, corona radiata, and cumulus layer. Sperm undergo an acrosome reaction before penetrating the zona pellucida. The morphological consequences of this reaction and its possible role(s) in penetration of the oocyte cumulus complex are considered. The acrosomal enzyme, hyaluronidase, has been thought to aid sperm in penetrating the cumulus layer and corona radiata. Several recent investigations, including one that shows that motile cells lacking hyaluronidase can penetrate to the zona surface, do not support this idea. Other possible roles of this enzyme in fertilization are discussed. The development of in vitro fertilization systems that employ physiological numbers (1-100) of sperm will be valuable in studying the mechanisms used by sperm to penetrate the oocyte cumulus complex.     

An in vitro technique to study penetration of hamster oocyte-cumulus complexes by using physiological numbers of sperm

We have developed an inexpensive in vitro system for studying cumulus penetration and fertilization by using physiological numbers of sperm. This system simulates conditions believed to exist in vivo more closely than any in current usage. In this system, 1–100 hamster sperm are used to challenge fresh hamster oocyte-cumulus complexes (OCC). Only fresh (nonoviducal) OCC are used, as they present the most stringent challenge to sperm. Because sperm numbers are low, OCC do not disperse, and sperm can be studied microscopically during penetration of the cumulus oophorus and corona radiata. These conditions permit microscopic assessment of the sperm acrosome. Video tapes of experiments allow easy review and analysis of experiments. Results obtained employing this technique show that, in vitro, (1) capacitated, acrosome-intact hamster sperm can penetrate the extracellular matrix between cumulus cells and bind to the zona pellucida; (2) the “figure-eight motility” characteristic of hyperactivated hamster sperm swimming in culture medium is suppressed when sperm swim in the extracellular matrix between cumulus cells; and (3) fertilization occurs in capillary tubes when low numbers of sperm are used. The in vitro system that we have described will be useful in analyzing the mechanisms used by sperm to penetrate the cumulus and corona radiata and to clarify the role of the acrosomal enzymes in fertilization.     

Hyaluronidase dissolves a component in the hamster zona pellucida

Mammalian sperm must pass between cumulus cells and corona radiata cells before reaching the surface of the zona pellucida which surrounds the oocyte. The cumulus and corona radiata cells are separated from each other by an extracellular matrix (ECM) containing hyaluronic acid. The structure of this ECM and of the zona pellucida was investigated in the hamster oocyte-cumulus complex (OCC) using transmission electron microscopy (TEM) following processing in ruthenium red. When fixed in the presence of ruthenium red, the ECM of the OCC and the zona pellucida were well preserved and highly structured. The ECM between corona radiata cells was comprised of a network of granules and filaments which resembled hyaluronic acid containing matrices described in other systems. The outer one-third to one-half of the zona pellucida was porous; the ECM of the corona radiata extended into these pores. Bovine testicular hyaluronidase, Streptomyces hyaluronidase, and hamster sperm extracts containing hyaluronidase each dispersed the cumulus cells and most of the corona radiata cells. TEM examination revealed that brief (5-10 min) hyaluronidase treatment of OCCs removed the matrix filaments and caused clumping of the granules in both the corona radiata and zona pellucida. Longer hyaluronidase treatments (15-30 min) removed both filaments and granules. Our observations are consistent with the ideas that: 1) the ECM between corona radiata cells contains hyaluronic acid, and 2) hyaluronic acid is present in the outer one-third to one-half of the zona pellucida.(ABSTRACT TRUNCATED AT 250 WORDS)     

Role of hyaluronic acid in maturation and further early embryo development of bovine oocytes

Hyaluronic acid (HA), an important component of the extracellular matrix, plays a crucial role for cumulus cell expansion. Genes and proteins involved in HA synthesis and its receptor CD44 are expressed in cumulus oocyte complexes (COCs) in different animal species and increase during maturation. Hyaluronidase enzymes (Hyal) degrade HA into smaller biologically active HA fragments. To investigate the effects of the molecular size and concentration of HA on oocyte maturation and further embryo development, bovine oocytes were matured in vitro in the presence or absence of HA, Hyal-2 or 4-methylumbelliferone (4-MU); an HA synthesis inhibitor. The rates of oocyte nuclear maturation to metaphase II stage and development of embryos to blastocyst stage and blastocyst quality were recorded. Hyal-2 inhibited cumulus cell expansion without affecting oocyte maturation and further embryo development. Whereas, 4-MU at 1 mm reduced cumulus cell expansion, oocyte maturation rate and further embryo development; an effect which was partially abrogated by exogenous HA supplementation. These data suggest that HA production by cumulus cells during maturation is essential not only for cumulus cell expansion, but also for oocyte maturation and further embryo development. This effect is not affected by HA-degradation by Hyal-2.     

The oocyte-cumulus complex: Ultrastructure of the extracellular components in hamsters and mice

To enhance preservation of the extracellular materials, we have fixed hamster and mouse oocyte cumulus complexes (OCC) for transmission electron microscopy in the presence of ruthenium red. Ruthenium red had four effects on the extracellular components of the freshly ovulated hamster OCC. It interacted with the surface of cumulus and corona radiata cells; it stabilized the extracellular matrix (ECM) that was comprised of granules and filaments; it produced moderate electron density and good structural definition in the zona pellucida, and it revealed occasional smalls granular depsits on the oolemma. The ECM observed between cells of the cumulus and corona radiata layers extended into the outer one third of the zona pellucida. The granule and filament matrix was removed from the cumulus layer, corona radiata, and pores of the zona pellucida by brief treatment with hyaluronidase. The extracellular components of oviducal OCC from hamsters and mice appeared similar to OCC removed from follicles of the hamster shortly before ovulation. However, oviducal OCC did show increased aggregation of granules in the ECM. In most cases where females had been mated and oocytes were fertilized, the extracellular components appeared similar to those seen in fresh OCC. Exceptions were noted in some oocytes that lacked cumulus and corona radiata cells. In these instances, the zona pellucida generally lacked the granule/filament matrix. After fertilization numerous small electrondense granules were noted in the perivitelline space. These were presumed to originate in the cortical granules and formed a new investing layer around the zygote. Our data suggest that the OCC becomes more difficult for a sperm to penetrate as it approaches the oocyte. The significance of these results is discussed with respect to sperm traffic in the OCC and the cortical reaction.     

Architecture of the hamster oocyte-cumulus complex

The structure of the hamster oocyte-cumulus complex (OCC) has been analyzed to help understand how mammalian sperm penetrate the investing coats of the oocyte. At ovulation, oocytes of most mammalian species are surrounded by a zona pellucida, corona radiata, and cumulus layer. Cells of the cumulus and corona radiata are separated by an extracellular matrix (ECM) that contains hyaluronic acid. In hamsters, the diameter of mature follicular OCCs is 0.61 ± 0.12 mm, whereas in freshly ovulated OCCs in culture medium it is 0.78 ± 0.15 mm. This indicates the OCC expands at or after ovulation. The corona radiata is 1–4 cell layers deep, and corona radiata cells are closely packed (center-to-center distances between adjacent cells in follicular OCCs averaged 14 ± 3 μm). The cumulus layer is 5–8 cell layers deep, and intercellular spaces are much larger (center-to-center distances between adjacent cumulus cells in follicular OCCs averaged 50 ± 20 μm). An ovulated OCC has an approximate volume of 248 × 10⁶ μm³ and was estimated to contain approximately 5,700 cells. Studies with stretched OCCs show that ink particles can readily penetrate the extracellular spaces of the cumulus and corona radiata layers and interact with the ECM, staining it black. At the periphery of the OCC, the ECM appeared discontinuous and formed “cords” containing cumulus cells, whereas closer to the corona radiata the matrix completely filled intercellular spaces. Ink penetrated the corona radiata, but the ECM was difficult to visualize because of the close packing of cells in this layer. Our observations on unfixed OCCs show that cell packing becomes more dense proceeding from the periphery of the OCC to the zona pellucida and that the ECM at the periphery differs from the matrix deeper in the OCC. These data suggest that an incoming sperm would find penetration of the investing coats to increase in difficulty (that is physical resistance would increase) as it got closer to the oocyte. We have also examined the effects of processing for microscopy on the structure of the OCC. Both standard fixation procedures and fixation in the presence of ruthenium red caused condensation of the ECM, especially in the cumulus layer, and thus produced a significant decrease in the diameter of the OCC.     

Nuclear and cytoplasmic maturation of sow oocytes are not synchronized by specific meiotic inhibition with roscovitine during in vitro maturation

The effect of roscovitine exposure prior to IVM was studied on cumulus expansion, on changes of cumulus-oocyte contacts and on nuclear and cytoplasmic maturation of sow oocytes. It was hypothesized that delayed nuclear maturation and prolonged contact with cumulus cells allows prolonged cytoplasmic differentiation and therefore improves oocyte developmental potential. Cumulus-oocyte complexes (COCs) were exposed for 22 h or 44 h to 0, 25 or 50 microM of roscovitine and subsequently cultured for 22, 29 or 44 h without roscovitine. COCs were examined for cumulus expansion and oocytes for nuclear status and dynamics of transzonal microfilaments. Oocyte developmental potential was assessed by blastocyst formation after IVF. Fifty muM of roscovitine inhibited cumulus expansion for the first 22 h of culture, and maintained oocytes in meiotic arrest for 44 h. Roscovitine treatment during 22 h prior to culture for 44 h without roscovitine did not increase embryo development, but oocytes cultured for 66 h without roscovitine had reduced blastocyst formation. Oocytes cultured for 29 h after roscovitine exposure showed reduced blastocyst rates compared with their counterparts cultured for 44 h. Roscovitine treatment during 44 h prior to culture for 22 h or 44 h without roscovitine reduced embryo development. Transzonal microfilaments were reduced after culture with roscovitine, and disappeared during culture without roscovitine. It is concluded that prolonged contact with cumulus cells does not improve oocyte developmental potential. Furthermore, it is suggested that nuclear and cytoplasmic maturation in vitro cannot be seen as two independent processes.     

In vitro developmental competence of domestic cat embryos after somatic cloning: a preliminary report

This work was undertaken in order to study the developmental competence of nuclear transfer feline embryos with regard to the recipient-cytoplast's age and type of somatic cells used as donor nuclei. Oocytes were recovered by mincing the ovaries in HEPES-buffered TCM-199. Selected cumulus-oocyte complexes (COCs) with compact cumulus cell mass and a dark, homogenous ooplasm were cultured for maturation in the modified medium TC-199 for 24, 35, and 43 h, and after enucleation were used as a source of recipient cytoplasts for exogenous somatic nuclei. Two experiments were carried out. In Experiment 1, the source of recipient cytoplasts was oocytes matured in vitro for 24 h (Group 1), 35 h (Group 2), and 43 h (Group 3), while the source of donor nuclei was cycling fetal fibroblasts. Somatic cell-cytoplast complexes (SC-CCs) were fused electrically by double DC pulses of 2.0 kV/cm for 15 micros. The reconstructed embryos were cultured in B2 medium for 72 h after NT, then co-cultured with BRL cells in the same medium supplemented with 10% FBS at 38.5 degrees C under 5% CO2 in air. In Groups 1, 2, and 3, the fusion rates were 71.4 (25/35), 74.6 (47/63), and 57.5% (46/80), respectively. The cleavage rates in Groups 1, 2, and 3 were 80.0 (20/25), 55.3 (26/47), and 60.8% (28/46), respectively. The development to morula and blastocyst stages was higher in Groups 1 and 2 compared to Group 3 (morula stage 14/25 (56.0%), 16/47 (34.0%), and 13/46 (28.2%); blastocyst stage 2/20 (8.0%), 4/47, (8.5%), and 0/46, respectively). In Experiment 2, the oocytes matured for 24-35 h were used as a source of recipient cytoplasts and cycling fetal fibroblasts and cumulus cells derived from mature COCs were used as a source of donor nuclei. The fusion rates were 115/193 (59.6%) versus 65/143 (45.4%) for fetal fibroblasts and cumulus cells, respectively. The cleavage rate was 72/115 (62.6%) versus 48/65 (73.8%), and the development to blastocyst stage 6/115 (5.2%) versus 5/65 (7.7%), for fetal fibroblast and cumulus cells, respectively. In conclusion, a prolonged maturation period of cat oocytes decreases developmental competence of reconstructed embryos, especially the ability to reach the blastocyst stage. The in vitro development of reconstructed embryos with either nuclei of fetal fibroblasts or cumulus cells was at approximately the same level.     

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.     

Effects of cumulus cell density during in vitro maturation of the developmental competence of bovine oocytes

To determine the role of cumulus cells in oocyte maturation, we carried out an investigation on the effects of addition of cumulus cells to the maturation medium on the developmental competence of corona-enclosed oocytes and oocytes denuded from their somatic cells. The addition of cumulus cell (1.6 x 10(6) cells/mL) improved the development of bovine corona-enclosed oocytes, however, addition of a similar number of cumulus cells as cumulus-oocyte-complexes (COCs, cumulus cell density: 4.2 x 10(6) cells/mL) had no effect on the development of oocytes denuded from their somatic cells. To determine if corona-enclosed oocytes can obtain developmental competence without the addition of extra cumulus cells, the effects of cell density during in vitro maturation on the developmental competence were studied. A density of 1.6 to 3.2 x 10(6) cumulus cells/mL was the most effective for in vitro maturation of oocytes with intact gap junctions. The effects of the medium conditioned by COCs on the developmental competence of oocytes was also examined. It was demonstrated that COC-conditioned medium improved the development of bovine oocytes to the blastocyst stage. These data suggest that the developmental competence of bovine oocytes surrounded with corona cells is supported in a cell density-dependent manner in the maturation medium. In addition, the data indicate that cumulus cells benefit bovine oocyte development either by secreting soluble factors which induce developmental competence or by removing an embryo development-suppressive component from the medium.     

Changes in intercellular coupling between pig oocytes and cumulus cells during maturation in vivo and in vitro

Cumulus expansion and cumulus cell-oocyte coupling during in-vivo and in-vitro maturation of pig oocytes were studied by measuring [3H]uridine uptake. In vivo, cumulus expansion started before germinal vesicle breakdown (GVBD) (16 h versus 20 h after hCG) but no significant change occurred in the coupling index until 32 h after hCG. Intercellular coupling was decreasing at 32 h after hCG in oocytes at anaphase I and telophase I. Complete uncoupling was closely correlated with corona radiata expansion. In vitro, partial uncoupling was observed in oocyte-cumulus cell complexes from prepubertal and PMSG-stimulated gilts cultured for 16 and 32 h, respectively. The addition of FSH caused cumulus expansion, and the functional coupling between the cumulus cells and the oocyte was maintained up to at least 16 h of culture in complexes from prepubertal gilts. We conclude that, under our conditions, neither hormone-free nor FSH-supplemented medium ensured the same [3H]uridine uptake and uncoupling kinetics as during in-vivo maturation.     

影响山羊体外受精的因素

以屠宰山羊卵母细胞为材料研究了公羊个体、附睾不同部位精子、成熟培养和受精时卵丘存在与否、卵丘扩展程度及卵龄对山羊体外受精的影响。结果表明 :1)不同公羊精液在受精、卵裂和桑椹 /囊胚率上都有显著差异 ;2 )附睾尾精子和鲜精的受精、卵裂和桑椹 /囊胚率无显著差异 ,但显著高于附睾体和附睾头精子 ;3)成熟培养 2 4和 2 7h卵母细胞的的桑椹胚 /囊胚率显著高于培养 2 1和 30h卵母细胞 ;4 )卵丘扩展 3和 4级卵母细胞受精和桑椹胚 /囊胚率显著高于扩展 0和 1级卵母细胞 ;5 )成熟培养前机械去卵丘严重影响卵母细胞体外受精和桑椹胚 /囊胚率 ;6 )受精前完全去掉卵丘显著影响桑椹胚 /囊胚率     

Cumulus expansion during in vitro maturation of bovine oocytes: Relationship with intracellular glutathione level and its role on subsequent embryo development

Glutamine (GLN) is a metabolic precursor for hexosamine synthesis and its inclusion in culture medium has been reported to improve cumulus expansion. Glutamine and cysteine share the same transport system. Excess external GLN may act as a competitive inhibitor for the uptake of cysteine and stimulate loss of cellular cysteine, interfering this with GSH synthesis. Experiments were designed to evaluate the effect of 1–3 mM GLN during in vitro maturation (IVM) on bovine-cumulus expansion, intracellular GSH levels in both oocytes and cumulus cells, and subsequent embryo development up to blastocyst stage. Also, GSH content was measured in 6- to 8-cell embryos and a possible relationship between cumulus expansion and GSH synthesis was studied. Intact cumulus cell-oocyte complexes were incubated for 24 hr and cumulus expansion was measured by a computerized image-digitizing system either before or after IVM. IVM/IVF bovine oocytes were cultured up to 6- to 8-cell stage embryos for assessment of GSH content or for 8 days up to blastocyst stage for embryo development. The measurement of total GSH content was performed by an enzymatic method in oocytes, cumulus cells and 6- to 8-cell embryos. The maximal expansion was achieved by addition of 2 mM GLN without affecting GSH levels, in both oocytes and cumulus cells. At 3 mM, the degree of cumulus expansion was lower and the GSH levels decreased. The addition of 2 mM GLN improves cleavage and blastocyst rates, whereas no differences were found between 0, 1, and 3 mM GLN. Moreover, the GSH content in 6- to 8-cell embryos was similar at any GLN concentrations. In order to study the relationship between GSH and cumulus expansion: 6-diazo-5-oxo-1-norleucine (DON), an inhibitor of hexosamine synthesis, or buthionine sulfoximide (BSO), an inhibitor of GSH synthesis, either alone or with GLN was added to IVM medium. GSH level was not affected by the presence of DON. However, the degree of cumulus expansion was reduced in the presence of BSO. In conclusion, bovine oocytes matured in the presence of 2 mM GLN improve their capacity for subsequent embryo development. Nevertheless, GSH level was altered when GLN was added to IVM medium at a high concentration with a reduction in the degree of cumulus expansion. This study provides evidence that optimal cumulus expansion in vitro is partially dependent on hexosamine production and intracellular GSH content. Mol. Reprod. Dev. 51:76–83, 1998. © 1998 Wiley-Liss, Inc.     

Effect of sericin supplementation in maturation medium on cumulus cell expansion,oocyte nuclear maturation,and subsequent embryo development in Sanjabi ewes during the breeding season

The purpose of this study was to evaluate the effect of sericin with different concentrations (0% [control], 0.1%, 0.5%, 1.0%, and 2.5%) added to the IVM medium on cumulus cell expansion, oocyte nuclear maturation, and subsequent embryo development in Sanjabi ewes during the breeding season. The resumption of meiosis was assessed by the frequency of germinal vesicle breakdown and the first polar body extrusion. After IVF with fresh ram semen, presumptive zygotes were cultured 8 days in potassium simplex optimization medium supplemented by amino acids, and the percentages developing to the two-cell and blastocyst stages were measured as the indicators of early embryonic developmental competence. More cumulus–oocyte complexes matured with 0.5% sericin underwent germinal vesicle breakdown and reached metaphase II stage compared with the control cumulus–oocyte complexes matured without sericin (P ≤ 0.05). The present findings indicated that supplementation with 0.5% sericin during the maturation culture may improve the nuclear maturation and the cumulus cell expansion. Furthermore, the percentage of blastocysts obtained from 0.5% and 0.1% sericin (37.8 ± 1.76% and 34.8 ± 1.09%, respectively) was higher (P ≤ 0.05) than that of the control medium (29.60 ± 1.67%). However, addition of 1% and 2.5% of sericin to the IVM medium oocytes had a negative effect on nuclear maturation and cumulus cell expansion. Furthermore, the percentage of cleavage and blastocyst rate was significantly lower in the 1% and 2.5% sericin groups than in the control group. These findings showed that supplementation of IVM medium with 0.5% sericin may improve the meiotic competence of oocytes and early embryonic development in Sanjabi ewes during the breeding season.     

Ovine cumulus cells estradiol-17Beta production in the presence or absence of oocyte

The objective of the present study was to compare the in vitro production of estradiol-17Beta (E(2)) by cumulus cells in the presence or absence of ovine oocyte. Moreover, the relationship between the concentration of produced estradiol-17Beta and oocyte nuclear maturation was assessed. Ovaries collected from the local abattoir were transported to the laboratory in saline at 30-35 degrees C within 1-3 h after collection. The oocytes of follicles, 2-6 mm in diameter, were recovered by aspiration. The oocytes with evenly granulated cytoplasm and which were surrounded with at least three layers of cumulus cells were selected and subjected to culture in pre-incubated oocyte culture medium (OCM). Before culturing, the selected oocytes were randomly divided into five treatment groups: Group 1, cumulus enclosed oocytes cultured in OCM (Group COCs); Group 2, denuded oocytes cultured in OCM (Group D); Group 3, denuded oocytes co-cultured with a cumulus cell-monolayer in OCM (Group D+M); Group 4, denuded oocytes co-cultured with previously cultured (for 26 h) cumulus cell-monolayer (10(5) cells/ml) in refreshed OCM (Group D+M(26)); Group 5, cumulus cell-monolayer (10(5) cells/ml) cultured in OCM (Group M). After an incubation period (26 h at 38.6 degrees C, 5% CO(2) and 100% humidity), the media were collected and kept at -20 degrees C until hormonal assay. The concentration of E(2) was determined by RIA method. For assessment of nuclear status, the completely denuded oocytes were subjected to DAPI staining. The highest percentage of metaphase II (MII) stage oocytes was observed in Group N (91%) and the lowest percentage was observed in Group D (6%) and Group D+M(26) (6%). The mean production of E(2) was highest and lowest in Group D+M (378.69+/-54.34 pg/ml) and Group D+M(26) (109.15+/-8.24 pg/ml), respectively. The production of E(2) was significantly (P<0.01) higher in Group D+/-M when compared with Groups M and D+/-M(26). Regarding the nuclear maturation, the percentage of MII stage oocytes was significantly (P<0.001) higher in Group COCs compared to the other groups. The results suggest that steroidogenic activity of cumulus cells in in vitro condition can be influenced by the pattern of connection between cumulus cells and the oocyte. Moreover, the nuclear maturation of oocytes is not influenced by the different production levels of E(2).