Effect of co-culture of porcine sperm and oocytes with porcine oviductal epithelial cells on in vitro fertilization

This study was designed to determine the effect of co-culture with porcine oviductal epithelial cell (POEC) monolayers on in vitro fertilization of pig oocytes. The in vitro penetrability of mature (experiment 1) or immature (experiment 2) oocytes was studied in presence or absence of POEC during IVF with fresh semen. In experiment 3, boar and POEC effects were analyzed but in this case with frozen-thawed spermatozoa. In experiment 4, the spermatozoa were pre-incubated before IVF with or without POEC in order to assess their effect on IVF sperm-related parameters. In experiment 5, the effect of POEC was studied by co-culturing them with oocytes before IVF to determine if monospermy was improved. The results showed that high sperm concentration and POEC increase oocyte penetrability (P<0.01) and decrease monospermy rate (P<0.01), in both mature and immature oocytes (P<0.01) with fresh semen and a 18 h culture time. With frozen semen was detected a boar and POEC effect (P<0.01) on penetration rate. The sperm pre-culture 2 h with POEC also resulted in an increase of sperm penetration in terms of number of sperm per oocyte (P<0.01) and this treatment did not increase monospermy when contact time between gametes was limited to 6 h although monospermy was higher when POEC were present during IVF. Finally, exposure of oocytes to POEC for 4 h before IVF facilitated monospermic penetration to over 70% (P<0.01). In conclusion, the use of POEC in porcine IVF systems provides the possibility of working with low sperm concentrations and the effect of POEC on monospermy depends on sperm concentration, boar and contact time between gametes. Moreover, the exposure of oocytes to POEC before IVF improves the rate of monospermy.     

Effect of oviductal and cumulus cells on zona pellucida and cortical granules of porcine oocytes fertilized in vitro with epididymal spermatozoa

The objective of this study was to evaluate the effects of porcine oviductal epithelial cell (POEC) monolayers and cumulus cells on the zona pellucida (ZP) and cortical granules (CG) of in vitro matured porcine oocytes. Denuded and cumulus-enclosed oocytes were exposed to POEC before or during in vitro fertilization (IVF). The functional effects of the co-culture system were the tested on the ZP resistance, measured by the time necessary to dissolve the ZP with 0.1% pronase, and the distribution and density of the cortical granules. CG density in the equator and cortex of each oocyte was evaluated by confocal microscopy after staining with fluorescein isothiocyanate-labelled peanut agglutinin (FITC-PNA). Both variables were assessed immediately after an in vitro maturation period (IVM group), 3 and 6h after culture with or without (Control) oviductal cells (Experiment 1) and 3h after insemination with frozen-thawed epididymal spermatozoa in the presence or absence (Control) of oviductal cells (Experiment 2). The time to dissolve the ZP of oocytes from IVM group was 440.4 +/- 61.7 s and no difference was observed among groups in Experiment 1. In contrast, the density of CG was affected; oocytes pre-incubated for 6h had a higher density than those pre-incubated for 3 h (P <0.001). Oocytes fertilized in vitro in the presence of POEC (Experiment 2) had a similar ZP digestion time as control oocytes 3 h after insemination. The presence of POEC during IVF as well as the presence of cumulus cells had no effect on the density and distribution of CG. However, a significant decrease in the density of CG was observed in the fertilized oocytes compared to in vitro matured oocytes (P <0.001). It is concluded that under the conditions employed the oviductal and cumulus cells in the perifertilization period had no effect on ZP hardening and CG density. However, an increase in CG density was observed when oocytes were maintained in culture. In addition, no hardening of ZP was observed after IVF, and denuded and cumulus-enclosed oocytes showed similar cortical reactions after insemination with epididymal spermatozoa regardless of the presence of POEC.     

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.     

Influence of sperm:oocyte ratio during in vitro fertilization of in vitro matured cumulus-intact pig oocytes on fertilization parameters and embryo development

The present study was conducted to evaluate the influence of sperm:oocyte ratio during in vitro fertilization (IVF) of in vitro matured cumulus-intact oocytes on fertilization parameters and embryo development in pigs. In vitro matured oocytes surrounded by intact cumulus cells (COC) were inseminated with frozen-thawed spermatozoa at different sperm:oocyte ratios (2000:1, 3000:1, 4000:1, 6000:1, and 8000:1). Denuded oocytes inseminated with 2000 frozen-thawed spermatozoa:oocyte were the control group. A total of 2546 oocytes in five replicates were exposed to spermatozoa for 6 h and then cultured in embryo culture (EC) medium for 6 h (pronuclear formation) or 7 days (blastocyst formation: BF). The penetration rate increased in the COC groups with the sperm:oocyte ratio, reaching the highest rates with 8000:1 spermatozoa:oocyte (72.1 +/- 6.5%), similar to the control (73.5 +/- 3.5%). However, the monospermy was highest with the lower spermatozoa:oocyte rates (82.6-94.8%) and decreased drastically (P<0.05) in the COC group fertilized with 8000 sperm:oocyte (36%). The efficiency of fertilization (number of monospermic oocytes/total number of inseminated oocytes) showed no difference among the COC groups (20-30%) but they were significantly lower (P<0.007) than those obtained by the control group (43.7 +/- 2%). Embryo development was highest in the control group (58% for cleavage and 23% for BF) but not significantly different with the 6000 and 8000 sperm:oocyte COC groups (47 and 50% for cleavage and 19 and 17% for BF, respectively). These results indicate that the use of COC for IVF involves a drop in the efficiency of the fertilization and the necessity to increase the frozen-thawed sperm:oocyte ratio three to four times more to obtain similar embryo development to denuded oocytes.     

Effect of follicle cells on the acrosome reaction, fertilization, and developmental competence of bovine oocytes matured in vitro

The role of follicle cells in the acrosome reaction of frozen-thawed bovine spermatozoa, in vitro fertilization, cleavage, and development in vitro was investigated. Cumulus-oocyte complexes were cocultured and matured in vitro with additional granulosa cells for 24 hr. Immediately before in vitro insemination, the oocytes were divided into three types with different follicle cells: denuded and corona- and cumulus-enclosed oocytes. The proportion of live, acrosome-reacted spermatozoa significantly increased at 3 and 6 hr after insemination in all types of oocytes. However, the mean proportion of live, acrosome-reacted spermatozoa that inseminated cumulus-enclosed oocytes at 6 hr after insemination was significantly higher than that of spermatozoa inseminating denuded oocytes (18.3% and 13.3%, respectively). The frequency of in vitro fertilization was significantly higher for cumulus-enclosed oocytes (65.4%) than for denuded and corona-enclosed oocytes (30.8% and 39.4%, respectively). Cumulus-enclosed oocytes when cocultured with oviduct epithelial cells also had significantly higher rates of cleavage (two- to eight-cell, 59.8%; eight-cell, 22.4%) and blastocyst formation (7.7%) than denuded and corona-enclosed oocytes. No eight-cell embryos or more advanced stages of embryonic development were observed in either denuded or corona-enclosed oocytes without the coculture. The present results indicate that cumulus cells at fertilization play an important role in inducing the acrosome reaction and promoting a high fertilization rate, cleavage, and development into blastocysts in vitro.     

Cumulus cell function during bovine oocyte maturation,fertilization, and embryo development in vitro

Several contemporary micromanipulation techniques, such as sperm microinjection, nuclear transfer, and gene transfer by pronuclear injection, require removal of cumulus cells from oocytes or zygotes at various stages. In humans, the cumulus cells are often removed after 15–18 hr of sperm-oocyte coincubation to assist the identification of the fertilization status. This study was designed to evaluate the function of cumulus cells during oocyte maturation, fertilization, and in vitro development in cattle. Cumulus cells were removed before and after maturation and after fertilization for 0,7,20, and 48 hr. The cumulus-free oocytes or embryos were cultured either alone or on cumulus cell monolayers prepared on the day of maturation culture. Percentages of oocyte maturation, fertilization, and development to cleavage, morula, and blastocyst stages and to expanding or hatched blastocysts were recorded for statistical analysis by categorical data modeling (CATMOD) procedures. Cumulus cells removed before maturation significantly reduced the rate of oocyte maturation (4–26% vs. 93–96%), fertilization (0–9% vs. 91–92%), and in vitro development at all stages evaluated. Cumulus cells removed immediately prior to in vitro fertilization (IVF) or 7 hr after IVF reduced the rates of fertilization (58–60% and 71%, respectively, vs. 91–92% for controls), cleavage development (40–47% and 53–54% vs. 74–78% for controls), and morula plus blastocyst development (15% and 24% vs. 45%, P < 0.05). Cumulus cell co-culture started at various stages had no effect on fertilization and cleavage development but significantly improved rates of embryo development to morula or blastocyst stages (P < 0.05). Cumulus cell removal at 20 hr after IVF resulted in similar development to controls (P > 0.05) at all stages tested in this study. The intact state of surrounding cumulus cells of oocytes or embryos appears to be beneficial before or shortly after insemination (at or before 7 hr of IVF) but not essential at 20 hr after IVF. © 1995 Wiley-Liss, Inc.     

In vitro fertilization and development of llama (Lama glama ) oocytes using epididymal spermatozoa and oviductal cell co-culture

A study was designed to determine the feasibility of developing in vitro maturation, fertilization and culture systems utilizing follicular oocytes and epididymal spermatozoa collected from llamas at slaughter. From a total of 1324 cumulus oocyte complexes (COCs) recovered, 972 were cultured in 50-ul drops of TCM-199 medium with 10% heat inactivated steer serum (DBS) and hormones for 30 h. After maturation, the oocytes were randomly allocated into 4 groups in a 2x2 factorial design: cumulus-enclosed oocytes, 2 ug/ml heparin (Group 1); cumulus-enclosed oocytes, 5 ug/ml heparin (Group 2); denuded oocytes, 2 ug/ml heparin (Group 3); and denuded oocytes, 5 ug/ml heparin (Group 4). Denuded oocytes were obtained for groups 3 and 4 by vortexing. Epididymides were also collected at slaugther and fresh spermatozoa (for each replicate) were obtained by mincing the cauda epididymis with a scalpel blade. A total of 721 oocytes were inseminated with 2-3 x 10(6) epididymal spermatozoa/ml in a 50-ul drop of FERT-TALP medium. After 18 h of in vitro insemination, 234 oocytes were placed in a llama oviductal epithelial cell (LLOEC) co-culture in TCM-199 for 9 d. All cultures were done at 38.5 degrees C under 5% CO(2) in air with high humidity. The rate of fertilization, initial cleavage and development in co-culture were evaluated and compared. Of 192 oocytes examined for signs of fertilization, 56 (29.2%) were penetrated by spermatozoa with 57.1% (32 56 ) of the penetrated oocytes having a male and female pronucleus. There were no differences among treatment groups in total fertilization. However, the frequency of oocytes fertilized normally tended to be higher in the denuded oocytes 67.7% (21 31 ) than the oocytes inseminated with cumulus cells 44.0% (11 25 ) independent of heparin concentration (P<0.06). The total embryo development rate to the 2 cells to blastocyst stage was 32.1% (75 234 ). There was no difference in development rate between groups. From the 234 oocytes co-cultured in LLOEC for 9 d, 15.8% developed into 2 to 16 cells, 5.6% into morulae, 6.0% into early/expanded blastocysts and 4.7% into hatching/hatched blastocysts. The results indicate that an in vitro fertilization system is possible in the llama utilizing slaughterhouse material and that llama oocytes can be fertilized in the presence of heparin and epididymal spermatozoa.     

Development of in vitro fertilized oocytes from pregnant and nonpregnant cows in oviductal epithelial and cumulus cell co-culture systems

The objectives of this study were 1) to measure cleavage, blastocyst formation, and blastocyst hatching after in vitro maturation (IVM), fertilization (IVF) and culture (IVC) of oocytes aspirated from pregnant versus nonpregnant cows, and 2) to compare embryo development in co-culture with bovine oviductal epithelial cells versus cumulus cells. No differences in cleavage (38 versus 40%), blastocyst formation (13 versus 13%), or blastocyst hatching (53 versus 51%) were observed for in vitro-matured, fertilized, and cultured oocytes from pregnant versus nonpregnant cows, respectively (P > 0.05), indicating that nonpregnant and early-pregnant cows are equally acceptable donors of oocytes for IVM/IVF/IVC procedures. Cleavage (36 versus 40%), blastocyst formation (11 versus 12%), and blastocyst hatching (50 versus 55%) were not different for embryos co-cultured with oviductal epithelial cells versus cumulus cells (P > 0.05). Thus, equivalent embryo development can be obtained with co-culture systems commonly used for in vitro-derived bovine embryos. These results help to define variables that affect comparison of results across laboratories and that are relevant to the practical application of IVM/IVF/IVC procedures to cattle.     

Cumulus contributions during bovine fertilization in vitro

A mandatory step in performing micromanipulation techniques, studying sperm-oocyte interactions and evaluating morphological aspects of oocyte quality is the removal of cumulus cells from oocytes or zygotes at various stages. In cattle, cumulus removal shortly before fertilization in vitro strongly decreases sperm penetration rates. This study was conducted to evaluate the function of the cumulus oophorus during bovine fertilization in vitro. The importance of cumulus secretions during IVF was investigated by inseminating cumulus-denuded oocytes (CDOs) in fertilization medium supplemented with individual cumulus secretions, such as progesterone or hyaluronic acid. None of these substances increased the fertilization rate of CDOs. However, fertilizing CDOs in cumulus-conditioned medium or on a cumulus monolayer partially restored the reduction in fertilization rate (P<0.05). The fertilization rate of CDOs inseminated on a cumulus monolayer further increased when physical contact between the gametes and the monolayer was prevented by fertilizing them inside a culture plate insert placed on the monolayer (P<0.05). Finally, the importance of reactive oxygen species (ROS) generation and O(2) concentration during IVF was studied. Luminol-dependent chemiluminescence revealed a higher ROS load in conditioned medium of cumulus-enclosed oocytes (CEOs) than in that of CDOs after sperm-oocyte co-incubation (P<0.05). Furthermore, lowering the external O(2) concentration from 20 to 5% decreased the fertilization rate of both CEOs and CDOs, but had a higher impact on CEOs (P<0.05). In conclusion, this study provides evidence that the cumulus oophorus benefits the fertilizing ability of penetrating spermatozoa by creating a complex microenvironment of both cumulus secretions and metabolic products around the oocyte. Gap junctional communication between the oocyte and corona cells as well as sperm trapping by the cumulus oophorus seem to be essential factors in supporting fertilization.     

cDNA cloning of bovine midkine and production of the recombinant protein, which affects in vitro maturation of bovine oocytes

In the present study, we cloned bovine midkine (bMK) cDNA by RT- and RACE-PCR, and determined its nucleotide sequence. The nucleotide and deduced amino acid sequences of bMK showed a high degree of homology to those of mouse and human MK. Moreover, a large amount of recombinant bMK (rbMK) was produced using a baculovirus expression system and the protein was purified to homogeneity by heparin affinity chromatography. To examine whether treatment with rbMK during in vitro maturation (IVM) of bovine cumulus-enclosed oocytes affects their nuclear maturation and postfertilization development to the blastocyst stage, bovine cumulus-enclosed oocytes obtained from slaughterhouse-derived ovaries were cultured for 24 hr in IVM medium without (control) or with various concentrations (50-400 ng/ml) of rbMK, followed by in vitro fertilization (IVF) and culture. Although rbMK treatment during IVM did not affect the rates of nuclear maturation and postfertilization cleavage of oocytes, rbMK at all experimental concentrations significantly (P < 0.05) increased the blastocyst yields per tested and per cleaved oocyte compared to the control. Next, it was examined whether heparitinase (HTN) treatment of cumulus-enclosed oocytes would affect the enhancing activity of rbMK during IVM on the developmental competence of oocyte after IVF. The enhancing activity of rbMK was completely suppressed by HTN (1.0 mU/ml) treatment. These results indicate that the presence of rbMK during IVM of bovine cumulus-enclosed oocytes can enhance their developmental competence to the blastocyst stage after IVF and suggest that heparan sulfate chains on the cell surface of cumulus cells and/or oocytes are required for bMK to exert its effect.     

Successful use of oviduct epithelial cell coculture for in vitro production of viable red deer (Cervus elaphus) embryos

Techniques for in vitro production (IVP) of viable embryos have been thoroughly developed in several domestic species in view to improve breeding efficiency. When applied to wild life, these techniques may also help the maintenance of biodiversity through amplification of sparse animals offspring and facilitation of genetic material exchange. During the successive steps of IVP, i.e. oocyte in vitro maturation (IVM), fertilization (IVF) and early embryo development (IVD) to the blastocyst stage, gametes and embryos are faced with unusual environment, including oxidative stress, known to be detrimental to their survival. In the present study, starting from methods developed in domestic species, we have adapted IVP to produce viable red deer embryos. In a first experiment, cumulus cells were removed from in vitro matured oocytes either before or after IVF. The presence of cumulus cells during IVF did not affect final cleavage or development rates. In a second experiment, in vitro matured oocytes were fertilized in the presence of cumulus cells and cultured in SOFaaBSA medium alone or in the presence of ovine oviduct epithelial cell (oOEC) monolayer. Whereas, oviduct cells did not improve the cleavage rate, they significantly increased the rate of embryos reaching the blastocyst stage (from 3 to 25% of total oocytes). Ten blastocysts from oOEC coculture were transferred after freezing and thawing to five recipient hinds and gave rise to three pregnancies. The three pregnant hinds gave birth to three live and normal calves.     

Comparison of hybrid and purebred in vitro-derived cattle embryos during in vitro culture

Frozen-thawed spermatozoa collected from a beef bull (Japanese Black) were used for in vitro fertilization (IVF) of matured oocytes obtained from dairy (Holstein) and beef (Japanese Black) females. Embryos were examined for fertilization, cleavage rate, interval between insemination and blastocyst production (experiment I), total cell number per embryo and sex ratio during blastocyst formation (experiment II), and blastocyst production rate of zygotes that developed to 2-, 4-, and 8-cell stages at 48h post-fertilization (experiment III). Fertilized oocytes were cultured in vitro on a cumulus cell co-culture system. The fertilization and cleavage rate of oocytes groups were similar, however, the blastocyst production rate was greater (P<0.05) in hybrid than from purebred embryos (27% versus 20%). Development of blastocysts produced from hybrid embryos developed at a faster rate than blastocysts produced from the straightbred embryos. In hybrid embryos, blastocyst production was significantly greater on day 7 (56%) and gradually decreased from 20% on day 8 to 17% on day 9. In contrast, blastocyst production rate from the purebred embryos was lower on day 7 (17%), increasing on day 8 to 59% and then decreased on day 9 to 24%. The total number of cells per embryo and sex ratio of in vitro-produced blastocysts were not different between hybrid and purebred embryos. The number of blastocysts obtained from embryos at the 8-cell stage of development by 48h post-fertilization (94%) was greater (P<0.01) than the number of zygotes producing blastocysts that had developed to the 4-cell stage (4%) and the 2-cell stage (2%) during the same interval. These results show that the blastocyst production rate and developmental rate to the blastocyst stage were different between hybrid and purebred embryos, and that almost all of the in vitro-produced blastocysts were obtained from zygotes that had developed to the 8-cell stage 48h post-fertilization.     

Oviduct-specific glycoprotein modulates sperm-zona binding and improves efficiency of porcine fertilization in vitro

Oviduct-specific glycoprotein (OGP) displays estrus-associated regional and temporal differences in expression and localizes to the zona pellucida, perivitelline space, and plasma membrane of oviductal oocytes and embryos, suggesting that it may have a role in regulation of fertilization and/or early embryonic development. The aims of this study were to evaluate the effect of exogenous OGP on in vitro fertilization (IVF) and embryo development in the pig using a defined serum-free culture system. In vitro-matured porcine oocytes were incubated with homologous OGP (0, 1, 10, 20, and 40 microg/ml) for 3 h and then washed prior to IVF. Exposure of oocytes to 10 or 20 microg/ml porcine OGP (pOGP) significantly reduced the incidence of polyspermy compared with the control (P < 0.01) while maintaining high penetration rates. When oocytes, spermatozoa, or both were preincubated with 10 microg/ml pOGP prior to IVF, the incidence of polyspermy was similarly reduced (P < 0.01) by all three treatments without affecting penetration rates. The ability of spermatozoa to undergo calcium ionophore-induced acrosome reaction was similar with or without exposure to pOGP. However, significantly fewer spermatozoa (P < 0.01) bound to the zona pellucida when oocytes were preincubated with pOGP. To evaluate the effect of pOGP on embryo development, embryos were cultured in pOGP-supplemented medium for 48 h or 144 h. Both transient and continuous exposure to pOGP significantly enhanced cleavage and blastocyst formation rate compared with the control (P < 0.01). These data demonstrate that exposure of either in vitro-matured oocytes or spermatozoa to pOGP decreased polyspermy and spermatozoa binding while maintaining high penetration rates of pig oocytes fertilized in vitro. Furthermore, pOGP exerted an embryotrophic effect independent of effects demonstrated on spermatozoa and oocytes at fertilization.     

In vitro deveropment of porcine oocytes fertilized in vitro with spermatozoa preincubated in two different media

This study was conducted to clarify the effects of sperm concentration and media during preincubation on fertilization and development of porcine oocytes fertilized in vitro (IVF). The effect of porcine oviduct epithelial cell aggregates (POECA) on in vitro development of IVF embryos was also examined. Oocytes matured in vitro for 48 to 50 h were inseminated with epididymal spermatozoa preincubated at 2 sperm concentrations (1 - 2 x 10(8)/ ml vs 4 - 5 x 10(8)/ ml) for 3 h in either Dulbecco's phosphate buffered saline (PBS) or Brackett and Oliphant medium (BO). For capacitation, spermatozoa were treated with heparin (100microg / ml) for 15 min at 38.5 degrees C under 5% CO(2) in air. Cleavage and development to the blastocyst stage were evaluated on Day 3 and Day 8 after culture with or without POECA. The effect of sperm concentration on preincubation did not affect the fertilization rate, but preincubation in PBS medium did result in a higher fertilization rate (P < 0.05) than did the BO medium. The proportion of embryos undergoing cleavage and development to the blastocyst stage was significantly higher (P < 0.05) in the POECA co-culture group than in the group without POECA co-culture. The present results indicate that PBS medium can be utilized as a simple preincubation medium for porcine spermatozoa and that the presence of POECA during in vitro culture improved the development of IVF oocytes to the blastocyst stage.     

Effect of the cumulus on in vitro fertilization of bovine matured oocytes

The effect of the cumulus on in vitro fertilization in bovines was examined. Follicular oocytes were cultured in medium 199 plus OCS and extra granulosa cells. Frozen-thawed bovine spermatozoa was separated by the swim-up technique, suspended in Talp medium and capacitated with heparin. Fresh sheep and goat semen was incubated for 4 h at room temperature, washed and spermatozoa were then suspended in Talp medium and capacitated by incubation at 38.5 °C and 5% CO₂ in air and heparin.

In experiment 1, cumulus-enclosed oocytes, denuded oocytes and denuded oocytes plus additional cumulus cells were incubated with a reduced concentration of bovine spermatozoa for 8 or 18 h. In Experiment 2, cumulus enclosed and denuded oocytes were incubated with bovine spermatozoa for 4, 6, 8 and 18 h using a sperm concentration adjusted to secure high fertilization rates. In Experiment 3, cumulus-enclosed and denuded bovine oocytes were incubated with either sheep or goat spermatozoa for 18 h. Fertilization rates were then calculated and compared statistically. The results showed that 1) the cumulus improved the fertilization rate only when cumulus cells were associated with the oocytes 2) the timing of sperm penetration was not modified by the cumulus and started at 4 h after sperm incubation and 3) the presence of the cumulus improved the heterologous fertilization rate only when sheep spermatozoa were used. The results suggest that the cumulus improves fertilization rate by providing a capacitation-inducing mechanism and by facilitating the interaction between capacitated spermatozoa and the zona pellucida surface.     

Connexin 43 coupling in bovine cumulus cells,during the follicular growth phase,and its relationship to in vitro embryo outcomes

Gap junctional coupling between cumulus cells is required for oocytes to reach developmental competence. Multiple connexins, which form these gap junctions, have been found within the ovarian follicles of several species including bovine. The aim of this study was to determine the role of connexin 43 (CX43) and its relationship to embryo development, after in vitro fertilization (IVF). Cumulus?oocyte complexes (COCs) were obtained from abattoir sourced, mixed breed, bovine ovaries. COCs were isolated from follicles ranging from 2 to 5 mm in size, representing the preselected follicle pool. Immediately after isolation, two cumulus cell biopsies were collected and stored for analysis pending determination of developmental outcomes. Using in vitro procedures, COCs were individually matured, fertilized, and cultured to the blastocyst stage. Biopsies were grouped as originating from COCs that arrested at the two‐cell stage (low developmental competence [LDC]) or having developed to the late morula/blastocyst stage (high developmental competence [HDC]), after IVF and embryo culture. The expression level of CX43 was found to be significantly higher in cumulus cells from COCs that had an HDC when compared with those that had an LDC. Moreover, the gap junctional intercellular coupling rate was significantly higher in cumulus from COCs deemed to have an HDC. Significantly higher expression of the cumulus health markers luteinizing hormone receptor and cytochrome p450 19A1 was found in the cumulus originating from oocytes with HDC, suggesting that this system may provide a mechanism for noninvasively testing for oocyte health in preselected bovine follicles.     

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     

The promotory effect of growth hormone on the developmental competence of in vitro matured bovine oocytes is due to improved cytoplasmic maturation

In a previous study we have shown that the addition of growth hormone (GH) during in vitro maturation accelerates nuclear maturation, induces cumulus expansion, and promotes subsequent cleavage and embryonic development. The aim of this study was to investigate whether the promotory effect of GH on subsequent cleavage and blastocyst formation is due to an improved fertilization and whether this effect is caused by an improved cytoplasmic maturation of the oocyte. Therefore, bovine cumulus oocyte complexes (COCs) were cultured for 22 hours in M199 supplemented with 100 ng/ml bovine GH (NIH-GH-B18). Subsequently the COCs were fertilized in vitro. Cultures without GH served as controls. To verify whether the promoted fertilization is caused by the effect of GH on cumulus expansion or oocyte maturation, cumulus cells were removed from the oocytes after in vitro maturation (IVM) and denuded MII oocytes were selected and fertilized in vitro. Both IVM and in vitro fertilization (IVF) were performed at 39°C in a humidified atmosphere with 5% CO₂ in air. At 18 hours after the onset of fertilization, the nuclear stage of the oocytes was assessed using 4,6-diamino-2-phenylindole (DAPI) staining. Oocytes with either an metaphase I (MI) or MII nuclear stage and without penetrated sperm head were considered unfertilized; oocytes with two pronuclei, zygotes, and cleaved embryos were considered normally fertilized; and oocytes with more than two pronuclei were considered polyspermic. To evaluate cytoplasmic maturation, the distribution of cortical granules 22 hours after the onset of IVM, and sperm aster formation 8 hours after the onset of fertilization were assessed. In addition, to assess the sperm-binding capacity, COCs were fertilized in vitro, and 1 hour after the onset of fertilization the number of spermatozoa bound to the oocytes was counted. The addition of GH during IVM significantly (P < 0.001) enhanced the proportion of normal fertilized oocytes. Removal of the cumulus cells prior to fertilization and selection of the MII oocytes did not eliminate the positive effect of GH on fertilization. No effect of GH on the sperm-binding capacity of the oocyte was observed. In addition, GH supplementation during IVM significantly (P < 0.001) enhanced the migration of cortical granules and sperm aster formation. It can be concluded that the promotory effect of GH on the developmental competence of the oocyte is due to a higher fertilization rate as a consequence of an improved cytoplasmic maturation. Mol. Reprod. Dev. 49:444–453, 1998. © 1998 Wiley-Liss, Inc.