In vitro fertilization of in vitro-matured equine oocytes: effect of maturation medium,duration of maturation,and sperm calcium ionophore treatment,and comparison with rates of fertilization in vivo after oviductal transfer

Three experiments were conducted to evaluate the effect of oocyte and sperm treatments on rates of in vitro fertilization (IVF) in the horse and to determine the capacity of in vitro-matured horse oocytes to be fertilized in vivo. There was no effect of duration of oocyte maturation (24 vs. 42 h) or calcium ionophore concentration during sperm capacitation (3 microM vs. 7.14 microM) on in vitro fertilization rates. Oocytes matured in 100% follicular fluid had significantly higher fertilization (13% to 24%) than did oocytes matured in maturation medium or in 20% follicular fluid (0% to 12%; P < 0.05). There was no significant difference in fertilization rate among 3 sperm treatments utilizing 7.14 microM calcium ionophore (12% to 21%). Of in vitro-matured oocytes recovered 40-44 h after transfer to the oviducts of inseminated mares, 77% showed normal fertilization (2 pronuclei to normal cleavage). Cleavage to 2 or more cells was seen in 22% of oocytes matured in follicular fluid and 63% of oocytes matured in maturation medium; this difference was significant (P < 0.05). We conclude that in vitro-matured horse oocytes are capable of being fertilized at high rates in the appropriate environment and that in vitro maturation of oocytes in follicular fluid increases fertilization rate in vitro but reduces embryo development after fertilization in vivo. Further work is needed to determine the optimum environment for sperm capacitation and IVF in the horse.     

Heterologous fertilization to characterize spermatozoa of the genus Bos

Advances in assisted reproductive techniques, specifically, development of protocols for production of in vitro matured, fertilized and cultured domestic bovine embryos, offer opportunities to apply these techniques to nondomestic bovidae in species preservation. Domestic bovine oocytes were inseminated with nondomestic bovine spermatozoa. Effects of heparin concentration, sperm concentration and their interaction on total and normal in vitro fertilization rates and on subsequent embryo development were evaluated. In different replications, semen from 3 Bos bison, 2 Bos gaurus, 1 Bos grunniens, and 1 Bos javanicus bulls was used. Treatment of spermatozoa included 2 heparin levels (2 and 8 micrograms/mL) and 3 sperm concentrations (1, 3 and 5 x 10(6)/mL). The B. grunniens bull exhibited excessive polyspermy in all treatments; therefore, 1 replicate was completed using 2 levels of heparin (0 and 1 microgram/mL) and 2 sperm concentrations (1 and 2 x 10(6)/mL). After 18 to 22 h, cumulus cells were removed from presumptive zygotes, and a portion thereof was compressed between a slide and coverslip and fixed in acetic acid:ethanol solution. Light microscopy was used to visualize pronuclei and the second polar body as a determinant of fertilization. Remaining presumptive zygotes were placed into embryo culture medium, and blastocyst development was assessed on Days 7 and 8 (fertilization = Day 0). Percentages of total and normal fertilization and of blastocyst formation were analyzed by a logistic regression model, isolating effects due to bull, heparin and sperm concentration, and to their interaction. Work presented here suggests that, just as in Bos taurus, the nondomestic bulls in the Bos species seem to have individual heparin and sperm concentration requirements for successful IVF. We conclude that each bull, domestic or nondomestic, needs to be evaluated individually. Preliminary sperm characterization using domestic cattle oocytes would result in a greater potential for generating purebred embryos of the desired species should scarce female gametes become available.     

Fertilization of mouse oocytes from in vitro-matured preantral follicles using classical in vitro fertilization or intracytoplasmic sperm injection

Early preantral mouse follicles with a diameter of 110-160 microm were cultured in vitro for 10 or 12 days. Mature oocytes were retrieved following hCG, and fertilization was attempted either by in vitro fertilization (IVF) or intracytoplasmic sperm injection (ICSI). Two-cell and blastocyst formation rates and blastocyst cell numbers were compared between 10-day and 12-day in vitro-matured oocytes versus in vivo-matured oocytes. Uncleaved IVF oocytes were subjected to chromosome analysis. The 2-cell formation rate was significantly improved by ICSI compared with IVF both in 10-day (72.1% versus 56.1%; P = 0.03) and 12-day cultures (74.1% versus 54.5%; P = 0.028). Cytogenetic analysis of uncleaved MII oocytes following IVF showed that about 30% of MII oocytes showed no sign of sperm penetration. The blastocyst formation rate was significantly lower in 12-day versus 10-day cultures, whether fertilization was by IVF (40.7% versus 62.4%, P = 0.016) or by ICSI (32.5% versus 57.1%, P = 0.035). Blastocyst cell numbers from IVF and ICSI 10-day groups were similar and both significantly higher (P < 0.001) than from IVF 12-day cultures. All above expressed values were significantly higher for in vivo-matured oocytes. In conclusion, fertilization of oocytes from in vitro-matured mouse preantral follicles can be optimized with ICSI, giving significantly higher 2-cell formation rates than IVF. Blastocyst formation rate was not influenced by the technique of fertilization but rather by the extent of the in vitro culture period. Best results on preimplantation development of oocytes for in vitro-matured preantral follicles were obtained with ICSI on oocytes from 10-day in vitro cultures.     

Development of in vitro matured and fertilized bovine oocytes co-cultured with Buffalo Rat Liver cells

This study was designed to evaluate the efficacy of Buffalo Rat Liver cells (BRLC) monolayers in supporting the development of in vitro matured and fertilized (IVM/IVF) bovine oocytes through to the hatched blastocyst stage compared to the commonly used co-culture system of bovine oviduct epithelial cells (BOEC). Cumulus oocyte complexes (COCs) obtained from 2- to 6-mm ovarian follicles at slaughter were matured for 24 h in TCM-199 supplemented with FBS and hormones (FSH, LH and estradiol 17-beta). In vitro fertilization (IVF) was performed using 1 x 10(6) percoll separated frozen-thawed spermatozoa in 1 ml of IVF-TL medium containing 18 to 20 matured oocytes. After 20 to 22 h of sperm exposure, 584 presumptive zygotes in 2 separate trials were randomly assigned to 3 treatment groups (BRLC co-culture, BOEC co-culture and control, consisting of medium alone). Zygotes were cultured in CZB media, a simple semi-defined medium, without glucose for the first 2 d, transferred to M199/FBS (TCM-199-HEPES supplemented with 20% HTFBS, 1 mM Sodium pyruvate), and cultured for an additional 8 days. Cleavage and development to morula and various blastocyst stages were recorded between d 3 and 11 after the start of IVF. Overall average cleavage rate was 75% (440 584 ) and did not vary across the treatments or trials. The proportion of embryos that reached the morula stage in both co-culture systems did not differ (P > 0.05) and was significantly higher (P > 0.05) compared to the control group. However, the percentage of the number of blastocysts, expanded blastocysts and hatched blastocysts varied across the treatment groups (P < 0.05), with the highest results obtained in the BRLC co-culture system. The production of blastocysts in BOEC co-culture was inconsistent between the 2 trials where a significant difference (40.6 vs 53.0%; P > 0.05) was observed. Rate of development to the blastocyst stage was similar between the 2 co-culture systems, with most of the embryos reaching the blastocyst stage by d 8 post insemination. The results of this study show that BRLC from a commercially available established cell line offer a more reliable alternative to a BOEC co-culture system for in vitro maturation, fertilization and culture of bovine embryos.     

Development of in vitro-matured oocytes from porcine preantral follicles following intracytoplasmic sperm injection.

The objective of this study was to assess fertilization and embryonic development following intracytoplasmic sperm injection (ICSI) of oocytes from porcine preantral follicles matured in vitro. Also, another aim was to describe actin filament distribution during fertilization and embryonic development of those oocytes after ICSI as one of the factors assessed. Preantral follicles isolated from prepubertal porcine ovaries were cultured in a system that supports follicular development. After in vitro maturation, the oocytes were fertilized by ICSI or conventional fertilization in vitro (IVF). Actin filaments of the fertilized oocytes and embryos produced by ICSI or IVF were stained by rhodamine-phalloidin and visualized by fluorescence microscopy. ICSI resulted in 64% fertilization of porcine preantral follicle oocytes matured in vitro. Of those, 51% of the fertilized oocytes cleaved and 21% developed to the blastocyst stage. No significant differences in percentages of oocyte fertilization, cleavage, and blastocyst formation were observed between ICSI and IVF (53%, 45% and 16%, respectively). Actin filament distribution during fertilization and embryonic development of ICSI- or IVF-fertilized oocytes from porcine preantral follicles was similar to that of oocytes derived from antral follicles and fertilized by standard IVF. These results indicate that oocytes from porcine preantral follicles matured in vitro following ICSI can undergo fertilization and subsequent embryonic development.     

Prospects for sexing mammalian sperm edited by Rupert P. Amman and George E. Seidel, Jr.; 288 pages; Cloth - $32.50, Paper - $22.50. Available from Colorado Associated University Press, 1338 Grandview Avenue, Box 480, University of Colorado, Boulder, Colorado, 80309

Progress has been made toward developing conditions to enable bull sperm to penetrate and fertilize ova in vitro. Efforts toward understanding oocyte maturation also hold promise. A procedure for bovine in vitro fertilization (IVF) involving recovery of oocytes near the time of ovulation, fertilization with in vitro capacitated sperm, embryo culture and transfer has led to development of normal offspring. Additional research is needed to facilitate recovery of mature oocytes and to improve in vitro conditions to insure development of viable embryos that can continue normal development following non-surgical uterine transfer.Bovine IVF promises a means to overcome certain types of infertility, to produce large numbers of half-siblings simultaneously, to greatly extend valuable semen, a better way to assess functional performance of male and female gametes, to provide synchronously developing pronuclear stage ova for nuclear transfer and/or gene injection, and many possibilities in research and for future applications.     

Can bovine in vitro-matured oocytes selectively process X- or Y-sorted sperm differentially?

It has been reported that the mammalian female could have a preconceptual influence on the sex of her offspring, and it has been hypothesized that this influence could go some way toward accounting for the reported lower fertility following insemination with sex-sorted sperm. To test whether in vitro matured oocytes are able to select X- or Y-bearing spermatozoa following in vitro fertilization (IVF), we fertilized in vitro 1788 oocytes with X-sorted semen, Y-sorted semen, a mix of X- and Y-sorted semen, and unsorted semen from the same bull, and cultured until Day 9. Fertility was assessed by recording cleavage rate at 48 h postinsemination (hpi) and blastocyst development until Day 9. Embryos were sexed at the two- to four-cell stage and the blastocyst stage. The proportion of zygotes cleaving at 48 hpi was not different between X- and Y-sorted groups and the mix of X- and Y-sorted semen group; however, all were significantly lower than the unsorted group (P < 0.001). Blastocyst yield on Day 6 was significantly higher (P < or = 0.01) in the control group compared with the rest of the groups. Cumulative blastocyst yields on Days 7, 8, and 9 were also significantly higher (P < or = 0.01) in the unsorted group compared with the sorted groups. The proportion of female and male two- to four-cell embryos obtained following IVF with X- and Y-sorted sperm was 88% and 89%, respectively and the sex ratio at the two- to four-cell stage was not different following IVF with unsorted or sorted/recombined sperm (56.9% males vs. 57% males, respectively). At the blastocyst stage, similar percentages were obtained. In conclusion, the differences in cleavage and blastocyst development using sorted versus unsorted sperm are not due to the oocyte preferentially selecting sperm of one sex over another, but are more likely due to spermatic damage caused by the sorting procedure.     

Effects of fetuin on zona pellucida hardening and fertilizability of equine oocytes matured in vitro.

In vitro fertilization (IVF) has had poor success in the horse, a situation related to low rates of sperm penetration through the zona pellucida (ZP). Zona pellucida hardening (ZPH) is seen in mouse and rat oocytes cultured in serum-free medium. The hardened ZP is refractory to sperm penetration. Fetuin, a component of fetal calf serum, inhibits ZPH and allows normal fertilization rates in oocytes cultured in the absence of serum. We evaluated whether fetuin is present in horse serum and follicular fluid (FF) and whether fetuin could inhibit ZPH in equine oocytes matured in vitro, thus increasing sperm penetration during IVF. The presence of fetuin in equine serum and FF was confirmed by immunoblotting. Oocytes submitted to in vitro maturation (IVM) in medium containing fetuin were used for ZPH assay or IVF. Intracytoplasmic sperm injection (ICSI) was carried out as a control procedure. The presence of fetuin during IVM did not affect the rate of maturation to metaphase II. Maturation of oocytes in the presence of fetuin reduced ZPH in a dose-dependent manner. After both IVF and ICSI, there was no significant difference in oocyte fertilization between fetuin-treated and untreated oocytes. The fertilization rate was significantly higher after ICSI than after IVF, both in fetuin-treated and in untreated oocytes. In conclusion, fetuin reduced ZPH in equine oocytes but did not improve sperm penetration during IVF. This implies that, in the horse, "spontaneous" ZPH is unlikely to be the major factor responsible for inhibiting sperm penetration in vitro.     

Effect of exogenous glutathione on the in vitro fertilization of bovine oocytes

Increased amounts of reactive oxygen species (ROS) during in vitro culture may cause cytotoxic damage to gametes and embryos. The main purpose of this study was to investigate the effect of glutathione (GSH), a ROS scavenger, supplemented during IVF of bovine oocytes on embryo development using spermatozoa from different bulls. The following experiments were performed: 1) matured COCs were fertilized in the absence or presence of 1 mM GSH using semen from 4 bulls (Bulls A, B, C and D); 2) matured COCs were fertilized in the absence or presence of 1 mM GSH using semen from Bull C to examine sperm penetration, pronuclear formation and apposition; 3) COCs were fertilized with in the presence of either 0, 0.1, 1.0 or 10 mM GSH to examine the effect of GSH concentration using sperm from Bull C; 4) concentrations of GSH were measured both in the medium and in the oocytes during IVF. Glutathione at 1 mM in IVF medium affected the blastocyst formation, but not the cleavage rate. The effect on blastocyst formation was bull dependent: semen from Bull B and D had a negative, that from Bull C a positive and the one from Bull A no effect. The positive effect of Bull C semen increased the rate of blastocyst formation from 20.1 to 27.3% in control and GSH-treated samples, respectively. The increased rate was due to more zygotes reaching the 8-cell or greater stage by Day 4 after IVF. There was no change in the fertilization or cleavage rates. The GSH was still stable after 18 h incubation in IVF medium, and there was a dose-dependent increase in the GSH concentration in the oocytes. It is concluded that the effect of GSH during IVF on the proportion of blastocysts is dependent on both bull and GSH concentration.     

A comparison between in vitro fertilization and microinjection of immobilized spermatozoa from bulls producing spermatozoa with defects.

The objectives of this study were to compare the fertilization rate of bovine in vitro matured oocytes by in vitro fertilization (IVF) and by microinjection of a single spermatozoon (MI) and to relate these rates with fertility reported for these bulls in artificial breeding. Bull A (Holstein) had a nonreturn rate of 75%. Semen from this bull is routinely used in our standard IVF procedure. Bull B (Ayrshire), used regularly in artificial breeding and related to bull D, had a nonreturn rate of 69.2%. Bull C (Brown Swiss), with a chromosomal translocation and trisomy, achieved a nonreturn rate of 42%. Bull D (Ayrshire) produced nonmotile spermatozoa (SPZ) and had an abnormality described as "tail stump defect." No pregnancies sired by bull D have been reported. Oocytes were either fertilized in vitro by capacitated SPZ or by microinjection of a single immobilized SPZ into the ooplasm. SPZ were treated with 0.1 microM A23187 and used for IVF. For microinjection SPZ were cocultured for 5 h with bovine oviduct epithelial cells (BOEC) and then immobilized by freezing and thawing twice without cryoprotectant. A single batch of killed SPZ (stored at -25 degrees C) was used for all microinjections. All oocytes were cultured in Medium 199 for 22 h at 39 degrees C and subsequently fixed, stained, and examined for evidence of fertilization (i.e., female and male pronucleus formation, SPZ decondensation). Fertilization rates following IVF with semen from bulls A, B, C, and D were 80%, 54%, 1%, and 2%, and following microinjection were 39%, 22%, 21%, and 34%, respectively.     

Fertilizability and developmental capacity of individually cultured bovine oocytes

Culture of single oocytes throughout in vitro maturation (IVM), fertilization (IVF) and culture (IVC) provides detailed information on maturity, fertilizability and developmental capacity of individual bovine oocytes and embryos. In the present study, effects of sperm concentration (Experiment 1), microdrop size (Experiment 2), and the addition of hypotaurine (HT) or glutathione (GSH; Experiment 3) during IVF were investigated. In Experiment 4, in vitro maturity and developmental capacity of bovine oocytes cultured for IVM in a medium supplemented with fetal calf serum (FCS), bovine serum albumin (BSA) or polyvinyl alcohol (PVA) during IVM were investigated. In Experiments 1 to 3, the percentages of normal (2 pronuclei with a spermtail) and polyspermic fertilization in singly cultured oocytes were similar to those of group IVF culture (5 oocytes/drop). The addition of GSH during single oocyte IVF significantly increased the proportion of normal fertilization and decreased the polyspermic fertilization compared with addition of HT or of the control. The rates of mature oocytes (62.4 and 67.7%) and blastocyst development (12.9 and 15.2%) for single oocyte IVM cultures (Experiment 4) were also similar compared with the group culture; PVA supplementation significantly increased the matured oocyte rate, but decreased blastocyst development significantly (7.1%) as compared with FCS (19.5%) or BSA (15.6%). These results indicate that a single oocyte culture system throughout in vitro production of bovine embryos provides similar maturity, fertilizability and developmental capacity to oocytes cultured in groups.     

Effect of heparin and chondroitin sulfate on the acrosome reaction and fertility of bovine sperm in vitro

Glycosaminoglycans (GAGs) were reported to induce acrosome reactions (AR) in epididymal and ejaculated bovine sperm (4,5). The GAGs chondroitin sulfate A (CS-A) and heparin were tested on ejaculated bovine sperm for their ability to increase in vitro fertilization (IVF) frequencies. Regardless of treatment, a sperm-egg incubation time of 18 hr was sufficient to achieve maximal rates of fertilization. The IVF frequency of sperm incubated 6 hr with 10 mug/ml heparin (116 173 , 67%) was increased (P<0.05) above control levels (56 181 , 31%); however, 10 mug/ml CS-A (56 164 , 34%) was without effect (P>0.05). In contrast to previous reports, CS-A did not (P>0.05) induce AR in ejaculated (9.5-hr incubation) or epididymal sperm (22.5-hr incubation). Linear increases in fertilization frequency (40% to 81%; P=0.001) and AR (9% to 32%; P相似文献   

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.     

The effect of sperm preparation and co-incubation time on in vitro fertilization of Bos indicus oocytes.

The objective of the present study was to evaluate the effect of various methods of sperm selection and various sperm-oocyte co-incubation times on in vitro fertilization (IVF) of zebu (Bos indicus) oocytes. Frozen semen from one ejaculate of a single bull was used for all treatments and replicates. After thawed, sperm was subjected to one of the three treatments: 45 and 90% discontinuous Percoll gradient, swim-up and washing by centrifugation. In all treatments, the spermatozoa were incubated with in vitro matured oocytes for 3, 6, 12 and 18h. After co-incubation oocytes were transferred to the culture medium and culture for 44h, when the cleavage was evaluated. The uncleavaged oocytes were fixed and stained to determine penetration, pronucleus formation and polyspermy. The sperm selection method did not influence (P<0.05) polyspermy, pronucleus formation, penetration and cleavage rates. No interaction between method of selection and sperm-oocyte co-incubation time was observed (P>0.05). However, sperm-oocyte co-incubation time affected fertilization. The lower penetration (26.5%) and cleavage rates (13.1%) were obtained at 3-h period. The penetration and cleavage percentages increased (P<0.05) progressively at 6h (63.3 and 54.4%) and 12h (77.6 and 67.6%). No differences (P>0.05) were observed between 12 and 18h of incubation for penetration and cleavage rates. The incidence of polyspermy and pronucleus formation was similar (P>0.05) for all time points. It is concluded that the methods used in this study for sperm selection do not affect fertilization; therefore, they all can be used for bovine IVF. In addition, regardless the method used better fertilization results were obtained when sperm and oocytes were co-incubated for 12h, and the prolongation of that time for up to 18h had no detrimental effect on fertilization.     

Sperm binding, in vitro fertilization, and in vitro embryonic development of bovine oocytes fertilized with spermatozoa incubated with norepinephrine

The final stages of sperm maturation, fertilization, and early embryonic development occur within the oviduct and are essential for successful reproduction in mammals. Norepinephrine was previously identified in native bovine oviductal fluid and its in vitro effects on bull sperm capacitation and the acrosome reaction have been determined. It was unknown how physiological concentrations of norepinephrine influence sperm binding, fertilization, and embryo development. Therefore, the objective of this study was to determine if pre-incubating bovine spermatozoa with physiological concentrations of norepinephrine prior to insemination of bovine oocytes would improve sperm-oocyte binding, fertilization, and embryonic development in vitro. Norepinephrine, in concentrations representing those measured in bovine oviductal fluid, was used to treat bovine spermatozoa prior to insemination. Spermatozoa incubated in norepinephrine were used to inseminate bovine oocytes matured in vitro, and oocytes were evaluated for sperm binding and fertilization. Additional experiments were conducted to evaluate how early in the co-incubation period oocytes were fertilized by spermatozoa pre-incubated with norepinephrine, and to test the developmental competence of those oocytes fertilized with norepinephrine-treated sperm. Sperm binding to the zona pellucida was reduced by pre-incubation with norepinephrine. Rates of fertilization and embryo development did not increase as a result of pre-incubating spermatozoa with norepinephrine, but as early as 4h after insemination, spermatozoa treated with 20 ng/ml norepinephrine fertilized more oocytes than spermatozoa incubated in medium alone. Interestingly, this concentration of norepinephrine was found to capacitate spermatozoa in previous studies. These data suggest that oocytes fertilized by spermatozoa incubated in 20 ng/ml norepinephrine fertilize earlier in vitro than sperm pre-incubated in medium alone, and provide additional support for the role of norepinephrine in sperm capacitation and the acrosome reaction.     

Effect of reducing sperm concentration during IVF on the ability to distinguish between bulls of high and low field fertility: work in progress

The objectives of this study were to evaluate the effect of sperm dose and sire on the fertilization rate, cleavage rate and blastocyst yield following insemination in vitro, to examine the relationship between these parameters and field fertility in cattle, and to examine the relationship between blastocyst quality and sire used in IVF. Frozen semen from four bulls with 150-day nonreturn rates ranging from 57 to 78% was used. In Experiment 1, oocytes were inseminated with sperm from one of the four bulls at concentrations ranging from 0.016 to 0.5 x 10(6)sperm/ml. A proportion of presumptive zygotes were fixed at 17 h post-insemination (hpi), while the remainder was transferred to in vitro culture (IVC) in droplets of synthetic oviduct fluid (SOF). Cleavage at 48 hpi and the percentage of oocytes reaching the blastocyst stage by Day 8 were recorded. In Experiment 2, to assess blastocyst quality, after insemination with semen from one of the four bulls, presumptive zygotes were cultured in SOF until Day 7. Blastocysts for each bull were removed and vitrified/warmed and survival was recorded at 24, 48 and 72 h after warming. Regardless of bull used, a concentration of 0.125 x 10(6)sperm/ml or above resulted in higher blastocyst yields than any lower concentration used. Fertilization and cleavage rates were also higher at higher sperm concentrations. The best predictor of field fertility was fertilization rate at a concentration of 0.5 x 10(6)sperm/ml (r=0.94, P<0.0001). There was also a significant correlation between cleavage rate at a concentration of 0.5 x 10(6)sperm/ml and nonreturn rate (r=0.90, P<0.0001). In Experiment 2, blastocysts derived from one bull, HTA, were of superior quality as measured by survival 24h after thawing, although these differences were less significant at the subsequent time points measured. In conclusion, these data show that differences between the field fertility of bulls can be determined at sperm concentrations routinely used in IVF. Lowering the sperm concentration does not increase the likelihood of optimizing the differences in fertility or cleavage rate between bulls of different field fertility. We have also demonstrated that the bull can have a significant effect on the quality of blastocysts produced using IVF techniques.     

Fertilization following intracytoplasmic sperm injection of in vivo and in vitro matured oocytes from an Australian marsupial, the tammar wallaby (Macropus eugenii)

Conventional in vitro fertilization (IVF) techniques have been unable to produce normal embryos in any Australian marsupial, largely owing to problems with the early stages of sperm-oocyte binding. This study has used intracytoplasmic sperm injection (ICSI) of in vivo and in vitro matured tammar wallaby oocytes to bypass these processes and achieve fertilization in vitro. The fertilization rate (i.e. development to the two-pronuclei stage) of in vivo and in vitro matured oocytes following ICSI and sham injection was assessed at 17-19 h after injection. Fertilization occurred in 48% (45/93) of in vivo matured oocytes that were injected with spermatozoa. Significantly fewer sham-injected oocytes (6/82, P < 0.005) and uninjected control oocytes (5/84, P < 0.005) formed two pronuclei. In a direct comparison, the numbers of in vivo and in vitro matured oocytes that formed two pronuclei after ICSI were 22/28 (78.6%) and 23/40 (57.6%), respectively, which are not significantly different. There was also no significant difference in the nuclear response of in vivo and in vitro matured oocytes to sham injection. The numbers of oocytes forming a single pronucleus after sham injection were 10/24 (41.7%) and 24/37 (64.9) for in vivo and in vitro matured oocytes, respectively. Immature germinal-vesicle-stage oocytes were unable to decondense sperm injected during ICSI or to form pronuclei. These results demonstrate that both in vitro and in vivo matured tammar wallaby oocytes can be fertilized by ICSI. The success of ICSI not only offers the opportunity for fundamental analysis of marsupial fertilization but could, in conjunction with development of appropriate culture conditions and embryo transfer technologies, contribute to increased production of offspring from rare or valuable marsupials.     

Effects of heparin dosage and sperm capacitation time on in vitro fertilization and cleavage of bovine oocytes matured in vitro

The present study was conducted to clarify the effect of heparin dosage and sperm capacitation time on in vitro fertilization (Experiment 1) and cleavage (Experiment 2) rates of bovine oocytes matured in vitro. For in vitro fertilization, seven dosages of heparin (0, 5, 10, 25, 50, 100 and 200 mug/ml) and nine incubation periods (0, 5, 15, 30, 45, 60, 120, 180 and 240 min) in a capacitation medium were examined, using 6,634 oocytes. The mean proportions of fertilized oocytes in 25, 50 and 100 mug/ml of heparin were significantly (P<0.05) higher (53 to 59%) than in the other dosages (3 to 44%). Incubation with heparin for longer than 60 min lowered the frequencies of fertilization (20 to 36%) compared with the shorter incubation periods (38 to 49%). Higher proportions of fertilized oocytes were obtained by 5, 15, 30 or 45 min of incubation (42 to 49%) than by the other time periods (20 to 38%). Cleavage rates were found by using 2,098 oocytes in a factorial study (4 x 4 x 15: dosages -25, 50, 100 and 200 mug/ml; incubation periods -0, 15, 30 and 60 min; and replicates). The incubation periods and replicates resulted in highly significant differences (P<0.001) in development rates to eight-cell stage, but the four dosages of heparin showed no significant differences. The present results indicate that heparin dosage and sperm capacitation time are important factors influencing in vitro fertilization and cleavage rates. Optimal heparin dosages for the capacitation of bull spermatozoa ranged from 25 to 100 mug/ml; optimal incubation periods ranged from 5 to 60 min.     

Brief coincubation of gametes in porcine in vitro fertilization: role of sperm:oocyte ratio and post-coincubation medium

In this study, a short coincubation time of 10 min was used to determine the effect of different sperm:oocyte ratios during in vitro fertilization (IVF), and different periods of post-coincubation in a medium that is not appropriate for IVF, on fertilization parameters. In the first experiment, a total of 1624 in vitro matured oocytes, from 4 replicates, were inseminated with frozen-thawed spermatozoa at different sperm:oocyte ratios (2000, 1500, 1000 and 500 sperm:oocyte) and coincubated for 10 min or 6 h. The oocytes from 10 min of coincubation were washed in IVF medium to remove spermatozoa not bound to the zona pellucida and transferred to another droplet of the same medium (containing no spermatozoa) for 6h. The oocytes from the other group remained with the spermatozoa for 6h. Oocytes from both groups were then cultured in embryo culture medium (IVC) for 12h to assess fertilization parameters. In the second experiment, 1872 in vitro matured oocytes, in 3 replicates were inseminated with frozen-thawed spermatozoa using the same sperm:oocyte ratios as in the first experiment. The oocytes were coincubated for 10 min and transferred directly to IVC medium for 18 h (group A), to IVF medium (containing no sperm) only for 2h and then to IVC medium for 16 h (group B), or to IVF medium (containing no sperm) for 6h and then to IVC medium for 12 h (group C or control). There was an effect of sperm:oocyte ratio on all fertilization parameters in experiment 1. The efficiency of IVF (number of monospermic oocytes/total number inseminated) was higher (P<0.05) for oocytes coincubated with spermatozoa for 10 min and inseminated with 1500 and 1000 sperm:oocyte (35.8+/-3 and 37.6+/-2.7%, respectively) and for those coincubated for 6h with 500 spermatozoa per oocyte (37.2+/-3.1%). In experiment 2, the penetration and efficiency rates obtained in group A were poor (between 3 and 15%) irrespective of the sperm:oocyte ratio. However, in group B the fertilization parameters were similar to the controls and were also affected by the sperm:oocyte ratio. These results demonstrate that coincubation time may be reduced to 10 min to increase the efficiency of fertilization depending on the sperm:oocyte ratio, and that the spermatozoa bound to the zona pellucida require a maximum of 2h in an appropriate medium to penetrate the oocytes.     

Validation of a heterologous fertilization assay and comparison of fertilization rates of equine oocytes using in vitro fertilization,perivitelline, and intracytoplasmic sperm injections

IVF in horses is rarely successful. One reason for this could be the failure of sperm to fully capacitate or exhibit hyperactive motility. We hypothesized that the zona pellucida (ZP) of equine oocytes prevents fertilization in vitro, and bypassing the ZP would increase fertilization rates. Limited availability of equine oocytes for research has necessitated the use of heterologous oocyte binding assays using bovine oocytes. We sought to validate an assay using bovine oocytes and equine sperm and then to demonstrate that bypassing the ZP using perivitelline sperm injections (PVIs) with equine sperm capacitated with dilauroyl phosphatidylcholine would result in higher fertilization rates than standard IVF in bovine and equine oocytes. In experiment 1, bovine oocytes were used for (1) IVF with bovine sperm, (2) IVF with equine sperm, and (3) intracytoplasmic sperm injections (ICSIs) with equine sperm. Presumptive zygotes were either stained with 4′,6-diamidino-2-phenylindole from 18 to 26 hours at 2-hour intervals or evaluated for cleavage at 56 hours after addition of sperm. Equine sperm fertilized bovine oocytes; however, pronuclei formation was delayed compared with bovine sperm after IVF. The delayed pronuclear formation was not seen after ICSI. In experiment 2, bovine oocytes were assigned to the following five groups: (1) cumulus oocyte complexes (COCs) coincubated with bovine sperm; (2) COC exposed to sucrose then coincubated with bovine sperm; (3) COC coincubated with equine sperm; (4) COC exposed to sucrose, and coincubated with equine sperm; and (5) oocytes exposed to sucrose, and 10 to 15 equine sperm injected into the perivitelline (PV) space. Equine sperm tended (P = 0.08) to fertilize more bovine oocytes when injected into the PV space than after IVF. In experiment 3, oocytes were assigned to the following four groups: (1) IVF, equine, and bovine COC coincubated with equine sperm; (2) PVI of equine and bovine oocytes; (3) PVI with equine oocytes pretreated with sucrose; and (4) ICSI of equine oocytes. Oocytes were examined at 24 hours for cleavage. No equine oocytes cleaved after IVF or PVI. However, ICSI conducted with equine sperm treated with dilauroyl phosphatidylcholine resulted in 85% of the oocytes cleaving. Sperm injected into the PV space of equine oocytes did not appear to enter the ooplasm. This study validated the use of bovine oocytes for equine sperm studies and indicates that failure of equine IVF is more than an inability of equine sperm to penetrate the ZP.