Developmental capability of denuded bovine oocyte in a co-culture system with intact cumulus-oocyte complexes: role of cumulus cells, cyclic adenosine 3',5'-monophosphate, and glutathione

Cumulus oophorus cells have been implicated in the regulation of female gamete development, meiotic maturation, and oocyte-sperm interaction. Nevertheless, the specific role of cumulus cells (CCs) during the final stages of oocyte maturation and fertilization processes still remains unclear. Several studies have been conducted in order to clarify the role of follicular cells using culture systems where denuded oocytes (DOs) were co-cultured with isolated CCs, or in the presence of conditioned medium. However, those attempts were ineffective and the initial oocyte competence to become a blastocyst after fertilization was only partially restored. Aim of the present study was to analyze the effect of the interactions between somatic cells and the female gamete on denuded oocyte developmental capability using a system of culture where CCs were present as dispersed CCs or as intact cumulus-oocyte complexes (COCs) in co-culture with oocytes freed of CC investment immediately after isolation from the ovary. Moreover, we analyzed the specific role of cyclic adenosine 3'-5' monophosphate (cAMP) and glutathione (GSH) during FSH-stimulated maturation of denuded oocyte co-cultured with intact COCs. Our data confirm that denuded oocyte has a scarce developmental capability, and the presence of dispersed CCs during in vitro maturation (IVM) does not improve their developmental competence. On the contrary, the co-presence of intact COCs during denuded oocyte IVM partially restores their developmental capability. The absence of CCs investment causes a drop of cAMP content in DOs at the beginning of IVM and the addition of a cAMP analog in the culture medium does not restore the initial oocyte developmental competence. The relative GSH content of denuded oocyte matured in presence of intact COCs is consistent with the partial recovery of their developmental capability. However, the complete restoration of a full embryonic developmental potential is achieved only when DOs are co-cultured with intact COCs during both IVM and in vitro fertilization (IVF). Our results suggest that the direct interaction between oocyte and CCs is not essential during IVM and IVF of denuded oocyte. We hypothesize that putative diffusible factor(s), produced by CCs and/or by the crosstalk between oocyte and CCs in the intact complex, could play a key role in the acquisition of developmental competence of the denuded female gamete.     

Factors affecting the in vitro action of cumulus cells on the maturing mouse oocytes

The removal of cumulus cells (CCs) from oocytes at the germinal vesicle (GV) stage still represents a major limitation in such embryo techniques as GV transfer, somatic cell haploidization, and oocyte cryopreservation. However, no efficient in vitro maturation (IVM) system for CC-denuded oocytes (DOs) has been established in mammalian species. Although follicular cells are considered to play an important role in oocyte maturation, the specific role and mechanisms of action of different cell types are poorly understood. Reports on whether junctional association between CCs and the oocyte is essential for the beneficial effect of CC co-culture on oocyte maturation are in conflict. Our objective was to try to address these issues using the mouse oocyte model. The results indicated that while co-culture with the CC monolayer could only partially restore the developmental potential of DOs without corona cells, it restored the competence of corona-enclosed DOs completely. Culture in medium conditioned with CC monolayer also promoted maturation of DOs. However, co-culture with the monolayer of mural granulosa cells had no effect. The efficiency of CC co-culture was affected by various factors such as density and age of the CCs, the presence of gonadotropin in the maturation medium and the duration for in vivo (IVO) gonadotropin priming. It is concluded that mouse CCs produce a diffusible factor(s) that support DO maturation in a CC-oocyte junctional communication dependent manner. The data will contribute to our understanding the mechanisms by which CCs promote oocyte maturation and to the establishment of an efficient DO IVM system.     

Presence of cumulus cells during in vitro fertilization protects the bovine oocyte against oxidative stress and improves first cleavage but does not affect further development

The present study was conducted to evaluate the function of cumulus cells during bovine IVF Oocytes within cumulus-oocyte complexes (COCs) or denuded oocytes (DOs) were inseminated in control medium, or DOs were inseminated in cumulus cell conditioned medium (CCCM). DOs exhibited reduced cleavage and blastocyst formation rates when compared with intact COCs. The reduced blastocyst formation rate of DOs resulted from reduced first cleavage but subsequent embryo development was not changed. Live-dead staining and staining for apoptotic cells revealed no differences in blastocysts from oocytes fertilized as COC or DO. Fertilization of DOs in CCCM partially restored the cleavage rate, suggesting that factors secreted by cumulus cells are important for fertilization but that physical contact between oocytes and cumulus cells is required for optimal fertilization and first cleavage. Exposure of COCs to hydrogen peroxide shortly before fertilization reduced the cleavage rate, but did not lead to enhanced death of cumulus cells or oocyte death. Exposure of DOs to hydrogen peroxide, however, resulted in oocyte death and a complete block of first cleavage, suggesting that cumulus cells protect the oocyte against oxidative stress during fertilization.     

Cumulus cells accelerate aging of mouse oocytes

The role of cumulus cells (CCs) that surround oocytes in maturation, ovulation, and fertilization has been extensively studied, yet little is known about their role in oocyte aging. Although early studies have shown that when ovulated oocytes are aged in vitro displayed similar morphological alterations as those aged in vivo, a recent study found that vitro culture of mouse oocytes retarded oocyte aging. The objective of this study was to test the hypothesis that CCs would accelerate oocyte aging. During in vitro aging with CCs of both in vivo-matured and in vitro-matured mouse oocytes, activation rates increased, whereas the maturation-promoting factor (MPF) activity decreased significantly as during in vivo aging of the ovulated oocytes. During aging after denudation of CCs, however, activation rates of both in vivo-matured and in vitro-matured oocytes remained low and the MPF activity decreased much more slowly compared to that of oocytes aged with CCs. Although many oocytes aged in vivo and in vitro with CCs showed a partial cortical granule (CG) release, very few cumulus-free oocytes released their CGs during in vitro aging. When denuded oocytes were cultured with cumulus-oocyte-complexes at a 1:2 ratio or on a CC monolayer, activation rates increased, while MPF activity decreased significantly. The results strongly suggested that CCs accelerated the aging progression of both in vivo-matured and in vitro-matured mouse oocytes.     

Coculturing denuded oocytes during the in vitro maturation of bovine cumulus oocyte complexes exerts a synergistic effect on embryo development

The present study examined the effect of coculturing cumulus oocyte complexes (COCs) and denuded oocytes (DOs) during in vitro maturation (IVM) on nuclear and cytoplasmic maturation, zona pellucida (ZP) hardening, the pattern of fertilization and glutathione peroxidase 1 (GPX1) gene expression in the oocyte. Furthermore, the rate of embryonic development and the quality of blastocysts were examined for both COCs and DOs. Three IVM conditions were studied: 1) the coculture of 12 COCs and 60 DOs, 2) COC control with 12 COCs, and 3) DO control with 60 DOs. The IVM was performed in a 120-μl droplet of TCM199-based IVM medium. Following IVM, in vitro fertilization (IVF) and in vitro culture (IVC) were conducted separately for the COCs and DOs (DO coculture) from the IVM coculture group. Coculturing COCs and DOs increased the percentage of oocytes reaching the blastocyst stage and the total number of cells per blastocyst in both the COC coculture (44.4 ± 8.6 vs 26.7 ± 9.7%, P < 0.01, and 137.9 ± 24.9 vs 121.7 ± 21.1, P < 0.05) and the DO coculture (20.5 ± 5.0 vs 11.1 ± 2.5%, P < 0.01, and 121.9 ± 27.5 vs 112.3 ± 33.2, P < 0.05) compared to their respective control groups. The synergistic effects of coculturing were detected as increased nuclear and cytoplasmic maturation, the prevention of ZP hardening, increased monospermic fertilization and increased expression of GPX1 in the oocytes in response to endogenous oocyte-secreted factors. In conclusion, coculturing COCs and DOs may be an effective culture system for both intact COCs and immature DOs.     

Oocytes Preserve the Ability of Mouse Cumulus Cells in Culture to Synthesize Hyaluronic Acid and Dermatan Sulfate

A soluble factor(s) produced by fully grown oocytes is essential, together with follicle stimulating hormone (FSH), to stimulate in vitro hyaluronic acid (HA) synthesis by mouse cumulus cells (CCs). The stability of the response to this stimulus by CCs in culture was investigated. The data showed that preculture for 8 hr in basal medium reduced to approximately 30% the ability of CCs to synthesize HA in response to FSH or dibutyryl cyclic AMP (Bt₂cAMP) and soluble oocyte factor(s). However, if CCs were precultured for the same period of time as intact cumulus cell-oocyte complexes, or in the presence of fully grown oocytes, or in medium conditioned by fully grown oocytes, their ability to synthesize HA was 75-95% preserved. In vitro stimulation of dermatan sulfate (DS) synthesis by CCs does not require oocyte factors and is induced by FSH or Bt₂cAMP treatment alone. However, the preservation of such activity, like that of HA synthesis, depended on the presence of a soluble oocyte factor(s) during preculture. The presence of isolated oocytes or of oocyte-conditioned medium also prevented the spreading of CCs in culture. However, inhibiting CC spreading by culture on agar-coated plates or in serum-free medium did not preserve their HA or DS synthetic activity, thus suggesting that the two oocyte actions on CCs are independent. Growing oocytes were unable both to induce HA synthesis in freshly isolated CCs stimulated with FSH and to preserve the ability to synthesize HA and DS in 8-hr precultured CCs. The results suggest that the stability of the differentiated state of mouse CCs in vitro depends upon continued exposure to a soluble factor(s) produced by fully grown oocytes.     

Development of normal mice after microinjection of round spermatids into oocytes stored at room temperature for one day

Early studies have shown that some mouse cumulus-oocyte complexes (COCs) stored at room temperature for 24 hr still retained full developmental potential. In this study, we stored mouse COCs and denuded oocytes (DOs) at room temperature for 24 hr and activated these oocytes with 10 mM SrCl(2) or injected the oocytes with round spermatids. We found that DOs were better than COCs when stored at room temperature for 1 day and more normal oocytes were obtained when COCs were stored in more H-CZB medium at room temperature for 1 day. The rates of normal oocytes were significantly different after preservation with three schemes (90.01%, 55.81%, and 86.70%, P < 0.05). Our results also indicated that oocytes stored at room temperature for 1 day were fertilized normally (extrusion of the second polar body and formation of male and female pronuclei [PN]) after microinjection of round spermatid nuclei, and that the existence of cumulus cells (CCs) during oocyte storage did not significantly influence the early cleavage but had a detrimental effect on later embryo development and full-term development. After fertilization, most embryos developed to two-cell stage after being cultured for 24 hr, and the development rates of four- to eight-cell embryos between two experiments were similar. However, the rates of morula/blastocyst formation were significantly different (47.44% and 26.27%, respectively, P < 0.05). The birth of four healthy pups from stored DOs indicated that the storage of DOs at room temperature for 1 day might become a practical procedure in mammalian reproduction.     

Effect of type 3 and type 4 phosphodiesterase inhibitors on the maintenance of bovine oocytes in meiotic arrest.

The use of broad-spectrum inhibitors first suggested that phosphodiesterases (PDEs) are involved in the maturation of bovine oocytes. Modulation of individual PDE families is now possible with the use of newly developed type-specific PDE inhibitors. This study evaluated the role of type 3- and type 4-specific PDE inhibitors on the meiotic arrest of bovine cumulus-oocyte complexes (COCs) and denuded oocytes (DOs). It also evaluated the role of these specific inhibitors on meiotic arrest when COCs are incubated in the presence or absence of theca cell monolayers. Bovine COCs were aspirated from ovaries collected at the abattoir. Denuded oocytes and COCs were incubated for 12 h in culture medium alone or culture medium containing the type 3 PDE inhibitors cilostamide (10 and 20 microM) or milrinone (10 and 50 microM) or the type 4 PDE inhibitor rolipram (10 and 50 microM). Oocytes were then fixed and classified according to the status of nuclear maturation. Cumulus-oocyte complexes were coincubated with untreated theca cell monolayers or theca cell monolayers treated with the different specific PDE inhibitors. Bovine COCs or DOs incubated in culture medium resumed meiosis, but supplementation of the culture medium with the PDE3 inhibitors cilostamide or milrinone resulted in meiotic arrest. On the other hand, supplementation of the culture medium with rolipram did not prevent oocyte maturation. Furthermore, PDE3 inhibitors, but not PDE 4 inhibitors, had an additive effect on the inhibitory action of theca cell monolayers on oocyte maturation. These data support the hypothesis that inhibition of PDE3 prevents the meiotic resumption of bovine oocytes, whereas inhibition of PDE4 does not block oocyte maturation even under normally inhibitory conditions. The additive effect of PDE3 inhibitors on the ability of theca cells to maintain bovine oocytes in meiotic arrest suggests that type 3 PDE has an important role in meiotic resumption of bovine oocytes.     

BIM EL-mediated apoptosis in cumulus cells contributes to degenerative changes in aged porcine oocytes via a paracrine action

Whether cumulus cells (CCs) contribute to oocyte aging remains controversial; in that regard, little is known about biochemical processes of gene expression in CCs surrounding aged oocytes. The objective was to elucidate contributions of CCs to porcine oocyte aging and degeneration, apoptosis and BIM expression in CCs during oocyte aging in vitro. When culture of cumulus oocyte complexes (COCs) was prolonged (68 h, which resulted in 24 h of aging), the rate of blastocyst formation following electro-activation was lower than that of oocytes aged without CCs (2.6 ± 0.1 vs 13.5 ± 1.3%, mean ± SEM; P < 0.05). In addition, the presence of CCs significantly accelerated spontaneous fragmentation of oocytes following prolonged (92 h) culture. Apoptotic CCs were present in COCs cultured for 68 h, and the abundance of Bim mRNA in CCs progressively increased after 56 h of culture (P < 0.05). Based on immunofluorescence, BIM protein expression was up-regulated in CCs surrounding aged oocytes; furthermore, quantification (Western blot) of BIM_EL protein progressively increased after 56 h of culture. Lastly, in a series of experiments to elucidate the signal pathway, blocking gap junctions (with 1-octanol) during aging did not eliminate the effect of CCs on accelerating oocyte aging, but prolonged co-culture of denuded oocytes with COCs after in vitro maturation reduced blastocyst rate relative to culture of denuded oocytes aged alone (4.15 ± 0.1 vs 11.0 ± 0.7%, P < 0.05). We concluded that apoptotic CCs, in which BIM_EL up-regulation was involved, accelerated oocyte aging and degeneration in vitro via a paracrine action.     

Porcine cumulus cell influences ooplasmic mitochondria-lipid distributions, GSH-ATP contents and calcium release pattern after electro-activation

The objective was to explore mechanisms of the influence of porcine cumulus cells (CC) on oocyte maturation. Immature porcine oocytes were matured in groups of denuded oocyte (DOs), cumulus-oocyte complexes (COCs), denuded oocytes co-cultured with CC (DoCC), or with cumulus-oocyte complexes (DoCOCs). Ooplasmic mitochondria-lipid distributions, glutathione (GSH)-adenosine triphosphate (ATP) contents, calcium release pattern, and developmental competence after parthenogenetic activation were assessed after IVM. The portion of matured oocytes after IVM and the developmental competence and GSH content in single oocytes were lower in DOs than in COCs (P < 0.05). In contrast, the maturation rate and development in DoCOCs and COCs were higher than in DoCC and DOs (P < 0.05). The blastocyst rate in DoCOCs was higher than in DOs (P < 0.05), and ATP content in COCs was higher than in all other groups (P < 0.01). In addition, the rate of oocytes with damaged oolemma in DOs (35%) was significantly higher than in COCs (3%), DoCOCs (7%), and DoCC (10%). The rate of oocytes with evenly distributed mitochondria was 70% in DOs, which was significantly lower than in COCs and DoCC (89 and 84%, respectively). The percentage of oocytes with normal lipid droplets distributions in COCs (70%) was significantly higher than in three other groups, whereas both percentages in DoCC and DoCOCs were higher than in DOs (P < 0.05). The duration of [Ca²⁺] rise in DOs was longer than in three other groups, whereas the duration was shortest in COCs. The amplitude of the [Ca²⁺] rise in DOs was significantly lower than in other groups (P < 0.05), but the amplitude did not differ significantly among DoCC, DoCOCs and COCs. In conclusion, the presence of porcine CC during IVM functionally affected ooplasmic mitochondria-lipid distributions and GSH-ATP contents, which may affect the calcium release pattern and developmental competence of oocytes after electro-activation.     

Differential response of cumulus cell-enclosed and denuded mouse oocytes in a meiotic induction model system

In this study we have examined the effects of denuded oocyte coculture with dissociated cumulus cells (CC) or intact oocyte-CC complexes on meiotic resumption. When denuded oocytes (DO) or cumulus cell-enclosed oocytes (CEO) were cultured in 40-microl drops of medium under oil, and held in meiotic arrest with 4 mM hypoxanthine plus 25 microM dbcAMP, they underwent germinal vesicle breakdown (GVB) at similar frequencies (34%-35%). Coculture of DO with complexes or dissociated CCs stimulated maturation (50% and 61% GVB, respectively), with no effect of DO on maturation of cocultured CEO (32% GVB). This coculture effect was increased with the number of CCs added to the culture drop. When either glucose or glutamine was eliminated from the medium, no meiotic induction resulted from cocultured CCs. When CEO were cultured alone in microdrops, increasing their number from 10 to 50 significantly lowered the percentage resuming maturation, an effect also reduced by removing glucose and/or glutamine from the medium. This effect was not observed with DO. When inhibitory medium was conditioned overnight with complexes, subsequent culture with DO led to higher maturation percentages than culture in unconditioned medium; however, when CEO were cultured in conditioned medium, there was either no effect or increased inhibition of maturation. Assay of glucose and pyruvate in spent medium showed that DO cultured alone consumed glucose and pyruvate, but under CC coculture conditions more glucose was consumed and significant amounts of pyruvate accumulated in the medium, changes that led to an increase in the maturation of DO. Further experiments showed that DO were more sensitive than CEO to the meiosis-inducing effect of pyruvate. These results demonstrate different responsiveness of DO and CEO to coculture conditions and question the physiological relevance of denuded oocyte/CC coculture to study meiotic induction.     

Effect of follicular fluid collected from various diameter follicles on the progression of nuclear maturation and developmental competence of pig oocytes

Supplementing in vitro maturation medium with porcine follicular fluid (FF) improves maturation rate, male pronucleus formation, and monospermic fertilization of pig oocytes. This study examined, (1) if there are differences in FF derived from large follicles (LF, 5–6 mm in diameter) and small follicles (SF, 3–4 mm in diameter) on the effect of supplementing the maturation medium with FF on the progression of nuclear maturation, fertilization rate, and developmental competence of porcine oocytes; (2) whether the FF source influences the effect of the FF on the maturation medium on the survival rate and proliferation rate of cumulus cells (CCs) and the expansion of cumulus-oocyte-complexes (COCs); (3) whether the oocyte source (oocytes collected from LFs or SFs) influences the effect of FF on the progression of the nuclear maturation of oocytes; (4) whether the factors in the FF that affect the kinetics of nuclear maturation are proteins, and the range of the molecular weight of the FF factors.

In experiment 1, adding FF from LFs (LFF) significantly accelerated nuclear maturation and improved the fertilization rate; the developmental ratio was comparable with those of adding FF from SFs (SFF). In experiment 2, adding LFF, but not SFF, improved the CC survival rate, although the FF source did not affect the proliferation rate. Expansion of COCs was greater with SFF than LFF. In experiment 3, LFF promoted nuclear maturation of oocytes collected from only LFs. There was a significant interaction between the FF source and the oocyte source in the effect on nuclear maturation stages at 36 h of maturation. In experiment 4, treatment of FF with heat or trypsin diminished the difference between the effect of LFF and SFF on the progression of nuclear maturation. In addition, the predominant effect of LFF compared to that of SFF on nuclear maturation was not affected by ultrafiltration of the FF with a 30-kDa filter, but was diminished by ultrafiltration with a 100-kDa filter. The present study suggests that some proteins present in LFF that range in molecular weight from 30 to 100 kDa improve the developmental competence of oocytes probably via progression of nuclear maturation and cumulus cells viability.     

Developmental and hormonal regulation of cumulus expansion and secretion of cumulus expansion-enabling factor (CEEF) in goat follicles

The objective of this article was to study the developmental and hormonal regulation of cumulus expansion and secretion of cumulus expansion-enabling factor (CEEF) in goat follicles. M-199 medium was conditioned for 24 hr with cumulus-denuded oocytes (DOs), oocytectomized complexes (OOXs), or mural granulosa cells (MGCs) from goat follicles of different sizes. Mouse OOXs and eCG were added to culture drops of the conditioned medium and cumulus expansion was scored at 18 hr of culture to assess CEEF production. While mouse OOXs did not expand, goat OOXs underwent full cumulus expansion when cultured in nonconditioned eCG-supplemented M-199 medium. When cultured in nonconditioned medium containing 10% follicular fluid (FF) from goat medium (2-4 mm) and small (0.8-1.5 mm) follicles, 71-83% mouse OOXs expanded; but expansion rates decreased (P < 0.05) at either lower or higher FF concentrations. FF from large (5-6 mm) follicles did not support mouse OOX expansion at any concentrations. While medium conditioned with DOs from follicles of all the three sizes supported expansion of 80-90% mouse OOXs, medium conditioned with mature DOs had no effect. While cumulus cells from follicles of all the three sizes secreted CEEF in the absence of gonadotropins, MGCs from large follicles became gonadotropin dependent for CEEF production. Both FSH and LH stimulated CEEF production by large follicle MGCs, but FSH had a shorter half-life than LH to expand mouse OOXs. Few meiosis-incompetent goat oocytes from small follicles underwent cumulus expansion when cultured in medium conditioned with goat DOs or cocultured with goat COCs from medium follicles. It is concluded that (1) goat cumulus expansion is independent of the oocyte; (2) the limited CEEF activity in FF from large follicles was due mainly to the inability of MGCs in these follicles to secret the factor in absence or short supply of gonadotropins; (3) the cumulus expansion inability of the meiosis incompetent goat oocytes was due to the inability of their cumulus cells to respond to rather than to produce CEEF.     

Factors affecting the efficiency and reversibility of roscovitine (ROS) block on the meiotic resumption of goat oocytes

Goat oocytes from 2 to 4 and 0.8 to 1.2-mm follicles were freed (DOs) or not (COCs) of cumulus cells and cultured for different times in an inhibition medium supplemented with different concentrations of roscovitine (ROS). At the end of culture, oocytes were either cultured in a maturation medium for 24 hr and activated chemically for embryo development, or examined for GV chromatin configurations. Nuclear status was checked at different time points during maturation culture. Although both 200 and 250 microM ROS maintained 78-85% of oocytes at the GV stage for 24 hr, only oocytes blocked with 200 microM ROS developed to MII stage at a high rate after maturation culture. While few oocytes blocked with 200 microM ROS for 24 hr developed into morulae and none into blastocysts after activation, percentages of oocytes developing into morulae and blastocysts increased to the level of the control oocytes when the block time was reduced to 8 hr. While the GV and pMI stages were shortened with MI, and A/TI unaffected after oocytes were blocked for 8 hr, all the stages but A/TI were shortened after 24 hr of block. The sizes of nucleoli diminished with time and the GV chromatin configuration changed during ROS block. Significantly more DOs than COCs were blocked with 200 microM ROS, but none of the blocked DOs matured after drug withdrawal. However, maturation of the DOs improved significantly when ROS concentration was reduced to 150 microM or DOs were co-inhibited with COCs. The GV intact percentages of DOs did not differ after ROS inhibition with or without eCG, but those of COCs decreased significantly after ROS inhibited in the presence of eCG. When MII-incompetent oocytes from 0.8 to 1.2-mm follicles were inhibited with ROS for 8 and 24 hr prior to maturation culture, nuclear maturation improved significantly, activation rates were as high as that of the control oocytes, and some of the activated developed to 4- or 8-cell stages. It is concluded that (i) the efficiency and reversibility of ROS block was both drug concentration and exposure-time dependent; (ii) cumulus cells alleviated the toxicity of ROS on goat oocytes; (iii) eCG released goat oocytes from ROS block through the mediation of cumulus cells; (iv) ROS block quickened the nuclear maturation of goat oocytes and improved the developmental competence of meiosis-incompetent oocytes, possibly due to a sustained nuclear activity during inhibition culture; (v) oocyte nuclear maturation and activation did not depend upon cumulus expansion, but the embryo development occurred in association with cumulus expansion.     

Cytoplasmic glutathione regulated by cumulus cells during porcine oocyte maturation affects fertilization and embryonic development in vitro

It is generally accepted that cumulus cells support the nuclear maturation of mammalian oocytes. In the present study, we examined relationships between the cytoplasmic glutathione (GSH) content of porcine oocytes, and oocyte nuclear maturation, fertilization or subsequent embryonic development. Cumulus-oocyte complexes (COCs; control group) and oocytes denuded of cumulus cells after collection (DO 0h group) were cultured for 24h with dibutyryl cAMP, eCG and hCG (first culture step) and then for a further 20h without supplements (second culture step; 44h total culture). After the first culture step, some of the COCs were denuded, either completely (DO 24h group) or partly (H-DO 24h group), and then matured by the second culture step. Also, in the second culture step, some DOs were co-cultured with cumulus cells that had been pre-cultured for 24h (DO 24h+CC group). The maturation rates of all the cumulus-removed groups (DO 0h, DO 24h, H-DO 24h and DO 24h+CC groups) were lower (34.3-45.0%) than that of the control group (64.5%; P<0.05). The GSH contents of matured oocytes in the completely denuded groups (DO 0h, DO 24h and DO 24h+CC groups) were lower (4.03-5.26pmol/oocyte) than that of the control group (9.60pmol/oocyte; P<0.05); however, the H-DO 24h group had an intermediate value (7.0pmol/oocyte). The male pronuclear formation rates of completely denuded oocytes were lower (41.4-59.3%) than that of the control group (89.4%; P<0.05), whereas the H-DO 24h group had an intermediate rate (80.0%). The blastocyst formation rates of the completely denuded oocytes were lower (3.0-4.5%) than that of the control group (19.9%; P<0.05), and the H-DO 24h group again had an intermediate rate (11.6%). The GSH content was correlated with the rates of male pronuclear formation (P<0.01) and blastocyst formation (P<0.01), and also with the number of cells per blastocyst (P<0.01). In conclusion, we inferred that GSH synthesized by intact cumulus cells during maturation culture improved oocyte maturation and played an important role in fertilization and embryonic development.     

Heat stress induces distinct responses in porcine cumulus cells and oocytes associated with disrupted gap junction and trans-zonal projection colocalization

Cumulus cells (CCs), the granulosa cells surrounding the oocytes, play critical roles in oocytes maturation through intercellular communication by extending trans-zonal projections (TZPs) to contact oocytes via gap junctions (GJs). The adverse effect of heat stress (HS) on oocyte maturation has been well documented, whereas the HS responses of CCs and the oocytes in association with GJ/TZP colocalization remain unclear. In this study, porcine cumulus-oocyte complexes (COCs) were subjected to HS at 41.5°C for 24 hr during in vitro maturation. Cumulus expansion was impaired and oocyte quality was reduced with lower survival rate, polar body extrusion rate, and early embryo developmental potentials. CCs and oocytes isolated from COCs demonstrated distinct responses to HS. The messenger RNA abundance of heat shock protein-related genes and mitochondrial DNA-encoded genes, together with ATP content, were significantly increased in CCs, yet decreased in oocytes, despite activation of caspase 3 detected in both CCs and oocytes. Similar changes were observed when denuded oocytes and isolated CCs subjected to HS separately, except mitochondria reactive oxygen species (mROS). In heat-stressed COCs, mROS was significantly increased only in oocytes. However, when isolated CCs and denuded oocytes were heat-stressed separately, mROS was significantly increased only in CCs. Moreover, F-actin, a TZP marker, and its colocalization with a GJ protein connexin-45, were significantly reduced in heat-exposed COCs. These results indicate that HS induces distinct responses in porcine CCs and oocytes in association with disrupted GJ and TZP colocalization.     

Oocyte-secreted factors enhance oocyte developmental competence

The capacity of fully grown oocytes to regulate their own microenvironment by paracrine factors secreted by the oocyte (oocyte-secreted factors, OSFs) may in turn contribute to oocyte developmental competence. Here, we investigated if OSFs have a direct influence on oocyte developmental competence during in vitro maturation (IVM). Bovine cumulus-oocyte complexes (COCs) were aspirated from abattoir-derived ovaries and matured in serum-free medium. COCs were either co-cultured with denuded oocytes (DOs) or treated with specific OSFs: recombinant bone morphogenetic protein 15 (BMP15) and/or growth differentiation factor 9 (GDF9). Following maturation, embryos were fertilized and cultured in vitro and blastocyst development and cell number were assessed on day 8. Co-culturing intact COCs with DOs did not affect cleavage rate, but increased (P<0.001) the proportion of cleaved embryos that reached the blastocyst stage post-insemination from 39% to 51%. OSFs also altered blastocyst cell allocation as co-culture of COCs with DOs significantly increased total and trophectoderm cell numbers, compared to control COCs. BMP15 alone, GDF9 alone or the two combined all (P<0.05) increased the proportion of oocytes that reached the blastocyst stage post-insemination from 41% (controls) to 58%, 50% and 55%, respectively. These results were further verified in neutralization experiments of the exogenous growth factors and of the native OSFs. Follistatin and the kinase inhibitor SB-431542, which antagonize BMP15 and GDF9, respectively, neutralized the stimulatory effects of the exogenous growth factors and impaired the developmental competence of control COCs. These results demonstrate that OSFs, and particularly BMP15 and GDF9, enhance oocyte developmental competence and provide evidence that OSF regulation of the COC microenvironment is an important determinant of oocyte developmental programming.     

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.