Developmental ability of porcine oocytes matured and fertilized in vitro

The developmental abilities of porcine oocytes matured and fertilized in vitro were examined in vivo and in vitro. Cumulus-oocyte complexes were cultured in mM199 supplemented with 10% porcine follicular fluid (PFF) and hormonal supplements (PMSG, hCG and estradiol-17beta) for 20 h and then without hormonal supplements for an additional 20 h. In Experiment 1, oocytes were then co-cultured for 6 h with spermatozoa which had been preincubated with 1% PFF (PFF-treated) or without (control). Oocytes were transferred to oviducts of gilts or cultured in modified Whitten's medium for 5 d. The percentages of oocytes with monospermic penetration (59%, 42 71 ) and with monospermic penetration and male and female pronuclei (32%, 23 71 ) were higher (P < 0.01) in the PFF-treated group than in controls (25%, 18 71 and 8%, 6 71 , respectively). After 5 d, the percentages of oocytes that developed to the morula or blastocyst stages in vitro and in vivo in the PFF-treated group (10%, 28 288 and 13%, 41 318 , respectively) were also higher (P < 0.05) than in controls (2%, 6 284 and 6%, 16 248 , respectively). Whereas some oocytes that were matured and fertilized in vitro developed to the blastocyst stage after 5 d in vivo culture (3%, 9 288 in PFF-treated group and 2%, 6 284 in control), no blastocysts were observed after 5 d when oocytes were cultured in vitro. When the progression of in vitro development of porcine oocytes that were matured and fertilized in vitro was examined in Experiment 2, morulae appeared after 72 h of culture, and 3% (3 100 ) of the oocytes developed to the blastocyst stage after 144 h (6 d) of culture. These results demonstrate that decreasing polyspermic penetration and increasing monospermic male pronuclear formation, as a result of PFF treatment of maturing spermatozoa, improved the developmental ability of porcine oocytes matured and fertilized in vitro. However, development in vitro was delayed by approximately 24 h compared with in vivo development, most of the embryos were blocked at the morula stage.     

Developmental capacity of bovine oocytes collected from ovaries of individual heifers and fertilized in vitro

Bovine follicular oocytes from individual heifers (n=49) were separately matured, fertilized with frozen-thawed spermatozoa and cultured with cumulus cells. Although there were great variations in the number (mean+/-SD=19.1+/-11.9) of oocytes collected from individual heifers and the percentages of the oocytes cleaved 48 hours after insemination (mean+/-SD=69.5+/-18.4) and developed to the morula stage 7 days after insemination (mean+/-SD=10.9+/-10.9), there were significant correlations between the numbers of oocytes collected and cleaved (the correlation coefficient: r= 0.9336) or developed to morula stage (r=0.6633), indicating that oocytes from different heifers have the same developmental ability after in vitro fertilization. Ten morulae and 12 blastocysts which were obtained 7 and 8 days after insemination were transferred, one by one, to each uterine horn of 11 recipients. At Day 60 of pregnancy, 8 (80%) fetuses were identified in 4 (80%) of 5 recipients into which 10 embryos were transferred at Day -1 of synchrony. However, only 3 (25%) fetuses were identified in 2 (40%) of 6 recipients into which 12 embryos were transferred at Day 0 or +1 of synchrony.     

Birth of normal calves resulting from bovine oocytes matured, fertilized, and cultured with cumulus cells in vitro up to the blastocyst stage

Bovine oocytes matured in vitro were fertilized in high proportions (92% of matured oocytes) by sperm capacitated with Ca ionophore A23187. Eight percent of inseminated oocytes that were denuded 96 h after insemination developed to the morula stage when cultured for 6-120 h after insemination with cumulus cells from the original oocytes. Inseminated oocytes denuded 96 h after insemination developed to the blastocyst stage when cultured with or without cumulus cells or in the conditioned medium from 96 h to 168-216 h after insemination (9.0%, 8.1%, and 6.8% of inseminated oocytes respectively). Six frozen-thawed blastocysts were transferred nonsurgically to 3 recipients (2 embryos/recipient). Two of the 3 recipients became pregnant, with one delivering live twins at term. Seven fresh blastocysts were transferred nonsurgically to 6 recipients (1-2 embryos/recipient). Three of the 6 recipients became pregnant, with 2 delivering live calves.     

Embryos derived from the in vitro fertilization of oocytes of pregnant cows

The aim of our study was to determine if the oocytes of pregnant cattle are capable for undergoing embryonic growth following in vitro fertilization. The ovaries of nine heifers at 4 to 7 months of pregnancy were collected at an abattoir and transferred to the laboratory. A total 191 oocytes (10.6 per ovary) collected by aspiration were matured and fertilized by frozen-thawed semen. Embryos were co-cultured with granulosa cells in modified TCM 199 medium and 20% estrous cow serum. The cleavage rate of embryos was 48%, and 41% of of the cleaved embryos developed to the morula/blastocyst stage 7 days after insemination. Additionally, the ovaries of 10 nonpregnant heifers were also collected, yielding 213 oocytes (10.7 per ovary). The cleavage rate was 51%, and 35% of those which cleaved reached the morula/blastocyst stage. No significant differences were found between the two groups. The average number of transferable-stage embryos obtained from pregnant and nonpregnant animals was 4.1 and 3.7, respectively. Our results indicate that preganancy does not influence the meiotic competence of bovine oocytes, and transferable stage embryos can be obtained by the fertilization of oocytes derived from pregnant animals.     

Birth of lambs after in vitro maturation, fertilization, and coculture with oviductal cells.

Control ovine oocytes matured and fertilized in vitro were transferred to intermediate recipient ewes. After 5 days, 59% of eggs were recovered. Thirty-one (38%) reached morula/blastocyst stage. Twenty-one embryos at the morula or blastocyst stage were transferred to six recipient ewes, resulting in five pregnancies, of which four were maintained. Nine lambs were born (43%). In the experiment, 72 ooctyes matured and fertilized in vitro were cocultured for 5 days with sheep oviductal epithelial cells. Thirty-one eggs (43%) developed to the noncompacted morula stage. Transfer of 26 embryos to 11 recipient ewes resulted in two pregnancies (18%). Two male lambs were born. The result indicates that the coculture of in vitro matured and fertilized ovine eggs with sheep oviductal epithelial cells throughout the preimplantation period is compatible with further development to term.     

GnRH improves the recovery rate and the in vitro developmental competence of oocytes obtained by transvaginal follicular aspiration from superstimulated heifers

In this study we assessed the effect of GnRH on the recovery rate, meiotic synchronization and in vitro developmental competence of oocytes recovered close to the expected time of ovulation. Twenty-three heifers were superstimulated with FSH, and luteolysis was induced by PGF(2alpha) injection 48 h after the start of treatment Twelve heifers received 200 microg GnRH at 34 h after PGF(2alpha) treatment, Blood samples were collected between 35 to 47 h after PGF(2alpha) administration to determine the time of the LH surge. Transvaginal follicular aspiration was performed at 60 h after PGF(2alpha), and the recovered oocytes were fertilized or fixed either immediately or after 24 h of maturation in vitro. GnRH-treated heifers showed an LH surge within 3 h after treatment, while only 4 of the 10 heifers in the control group exhibited an LH surge by 47 h after treatment with PGF(2alpha). The average number of large follicles (> 10 mm) was 21.3 +/- 2.3 and 19.3 +/- 2.4 for GnRH-treated and control heifers, respectively. The oocyte recovery rate was 87.7 and 63.1% (P < 0.05), respectively, and most of the cumulus-oocyte-complexes (COC) recovered from the 2 groups had an expanded cumulus (80.4 and 80.5%, respectively). Oocytes with an expanded cumulus from the GnRH group had completed meiotic maturation at higher rate than the controls (97 vs 20%;P < 0.05). In vitro development to the blastocyst stage of cumulus-expanded oocytes fertilized immediately after recovery was higher in GnRH-treated than in control heifers (60.3 vs 40.0%; P < 0.05). No difference was observed when oocytes with compact or expanded cumulus were matured in vitro for 24 h before fertilization. These results indicate that GnRH injections improve the oocyte recovery rate and that oocytes have a higher development competence than those obtained from non-GnRH-treated animals. We propose that this higher in vitro developmental competence may result from a more synchronous or further advanced meiotic maturation. However, due to the small number of oocytes in our study, we must emphasize that our findings on meiotic resumption are of preliminary nature.     

Holding bovine oocytes in the absence of maturation inhibitors: kinetics of in vitro maturation and effect on blastocyst development after in vitro fertilization

Holding immature oocytes before maturation simplifies the transport of oocytes and aids in scheduling later manipulations. We examined the effect of holding bovine oocytes in the absence of meiotic inhibitors on their subsequent meiotic and developmental competence. Oocytes were matured immediately after recovery (control) or were held in a mixture of 40% TCM 199 with Earle's salts, 40% TCM 199 with Hanks' salts, and 20% FBS, at room temperature for 16 to 18h (EH-held) and then matured. Chromatin status was determined at 0, 10, 14, 18, and 22h of maturation culture. Oocytes were fertilized in vitro after either 18 or 22-24h maturation. The EH treatment maintained oocytes at the germinal vesicle stage (79.3%, vs. 87.7% for control oocytes at 0h; P>0.05). Upon culture, held oocytes matured more quickly than did control oocytes. The proportions of mature oocytes were not significantly different between groups at 18h (EH-held, 80.6% and control, 79.3%); however, after 22h significantly more EH-held than control oocytes had degenerated (24.1% vs. 4.5%, P<0.0001). Blastocyst development was similar between groups for oocytes fertilized after 18h maturation (EH-held, 29.6% and control, 27.8%). When oocytes were fertilized after 22-24h maturation, EH-held oocytes yielded lower blastocyst development than did control oocytes (16.5% vs. 29.3%, P<0.05). In conclusion, bovine oocytes may be effectively held in the EH treatment before maturation without adversely affecting meiotic or developmental competence. However, holding affects the kinetics of maturation and this must be taken into account when subsequent manipulations are performed.     

Developmental capacity of bovine oocytes following inhibition of meiotic resumption by cycloheximide or 6-dimethylaminopurine

This study was conducted to assess the fertilizability and developmental capacity of bovine oocytes which had been maintained in meiotic arrest by either a protein synthesis inhibitor, cycloheximide (CHX), or an inhibitor of serine/threonine protein kinases, 6-dimethylaminopurine (6-DMAP). Both CHX and 6-DMAP reversibly prevented nuclear maturation of nearly all oocytes for 24 h. After the reversal of arrest, CHX-treated oocytes could be successfully matured and fertilized. They developed to the blastocyst stage at slightly lower rates than oocytes cultured without inhibition for 22 h prior to sperm addition but at higher rates than those incubated in a medium containing no inhibitors for 46 h prior to fertilization. Oocytes inhibited by CHX for 48 h matured and fertilized normally but failed to develop into blastocysts. Even though 6-DMAP-treated oocytes completed meiosis I after removal from the drug, the rates of fertilization and blastocyst formation were lower than for untreated oocytes or CHX-treated oocytes. Effects of adding FSH and/or estradiol-17 beta (E(2)) during CHX-inhibition for 24 h were also examined. Embryos from oocytes treated with CHX and E(2) or with CHX and FSH + E(2) developed into blastocysts at similar rates as the controls. Further development of inhibited oocytes was examined by transferring blastocysts derived from oocytes inhibited by CHX with FSH and E(2) for 24 h to recipient heifers. Two calves were obtained following transfer. These results indicate that CHX-inhibited oocytes retain developmental competence, while 6-DMAP-inhibited oocytes after the reversal of arrest have reduced capacities for fertilization and further development. The addition of FSH and E(2) during CHX-inhibition improves development to the blastocyst stage of the oocytes that are capable of initiating and maintaining pregnancy after embryo transfer to recipient animals.     

Effect of human leukemia inhibitory factor on in vitro development of parthenogenetic bovine morulae

The present study was conducted to investigate the effect of human leukemia inhibitory factor (hLIF) addition to synthetic oviduct fluid medium (SOFM) supplemented with human serum (HS) on the development of in vitro matured and parthenogenetically activated bovine oocytes. The oocytes matured for 30 h were exposured to ethanol (7%, 7 min) and cytochalasin B (5 mug/ml, 5 to 6 h). The treated oocytes were cultured for 5 d in SOFM supplemented with HS, and Day-5 morulae were cultured for 2 d in SOFM supplemented with HS and with or without hLIF (5000 U/ml) to investigate the subsequent in vitro development to the blastocyst stage. Of the 1531 oocytes that were parthenogenetically activated, 592 (37.5%) cleaved to the 2- to 8-cell stage and 174 (13.8%) developed to the morula stage. The addition of hLIF at the morula stage resulted in a significantly (P<0.01) higher rate of development to the blastocyst stage in the medium with hLIF (55.9%) than without hLIF (28.9%). The mean cell number per blastocyst developed in the medium with hLIF was also significantly (P<0.01) higher than that developed in the medium without hLIF. To evaluate the viability, 6 parthenogenetically developed blastocysts were transferred to 3 recipient heifers (2 embryos per heifer), while in 2 other recipient heifers estrus was prolonged after transfer. The plasma progesterone levels of the 2 recipient heifers at the 28th day after transfer were 8.1 ng/ml and 9.0 ng/ml, but pregnancy was not observed by ultrasonic scanning. The present results indicate that the addition of hLIF to in vitro-produced, Day-5 parthenogenetic bovine morulae significantly improves the subsequent development to the blastocysts stage; however, the present method still does not promote for development of parthenogenetic fetuses in cattle.     

Pregnancy resulting from cattle oocytes matured and fertilized in vitro

Follicular oocytes (n = 81) collected from cattle at a local slaughterhouse were matured and fertilized in vitro. Of 27 ova 19 (70%) were penetrated by spermatozoa and 40/54 (74%) inseminated ova transferred surgically to the oviducts of a synchronized heifer were recovered by non-surgical flushing of the uterine horns 6 days later. Of the 40 ova 15 (38%) were at the morula, early blastocyst or diminutive morula stages. Culture in vitro sustained further development of all embryos and 9 were expanding or expanded blastocysts. One pregnancy resulted from non-surgical transfer of 2 blastocysts. The results demonstrate that immature oocytes from cattle can be matured and fertilized in vitro, subsequently develop to the blastocyst stage, and develop into a normal pregnancy after non-surgical transfer.     

The difference in embryo quality between Belclare and Suffolk ewes is not due to differences in oocyte quality

We have previously reported that the percentage of fertilized oocytes which reached the blastocyst stage by Day 6 after AI with frozen-thawed semen was higher for Belclare (94%) than Suffolk (59%) ewes. This may reflect differences in the timing of fertilization (Experiment 1) or differences in oocyte quality (Experiments 2 and 3). In Experiment 1, oocytes recovered from slaughterhouse ovaries were matured in vitro for 18, 20, 24, 28 or 30 h prior to fertilization and were then cultured in vitro. In Experiment 2, Belclare (n = 69) and Suffolk (n = 71) ewes were laparoscopically inseminated using frozen-thawed semen. Presumptive zygotes were recovered between 23 and 47 h post-insemination and cultured in vitro (grouped by breed). In Experiment 3, immature oocytes from Suffolk and Belclare ewes, were matured, fertilized and cultured in vitro (grouped by breed). Cleavage rate and blastocyst development was assessed. There was no effect of time of fertilization on cleavage rate, however, a lower proportion of cleaved oocytes reached the blastocyst stage after insemination at 30h compared to 24 h (P < 0.001). Ewe breed did not affect cleavage rate of oocytes matured and fertilized in vivo (41+/-9.6 and 47+/-10.1) or in vitro (47+/-9.4 and 52+/-9.4) for Belclare and Suffolk ewes, respectively (P > 0.05; %+/-S.E.). Likewise, ewe breed had no effect on the percentage (+/-S.E.) of cleaved oocytes developing to the blastocyst stage for in vivo (29+/-7.2 and 25+/-7.9) or in vitro matured and fertilized oocytes (29+/-6.1 and 36+/-5.9) from Belclare and Suffolk ewes, respectively (P>0.05). Based on this study oocyte quality does not differ between the breeds and in addition a 4h difference in the timing of fertilization, reflective of the breed difference in the timing of the LH surge in vivo, would not affect early embryo development.     

Developmental competence of pig oocytes matured and fertilized in vitro

Pig follicles 3 to 6 mm in diameter were everted and matured for 44 h. The oocytes were then collected and exposed to capacitated boar sperm purified by centrifugation in a two step (65 and 70%) Percoll gradient. Of 110 ova fixed 14 h after in vitro fertilization, 78% were penetrated and 47% were monospermic. Next, 681 oocytes were cultured in vitro for 44 h after in vitro fertilization and the 266 embryos which had reached the two- to four-cell stage were transferred into the oviducts of 12 synchronized recipient gilts. Four days later, 211 embryos (79%) were recovered by uterine flushing. 40.7% of these were at the blastocyst stage, and 20% were at the morula stage. In a final experiment, four out of eight gilts which had received 40 to 50 two- to four-cell embryos, were diagnosed pregnant 30 and 37 d after in vitro fertilization. One sow farrowed nine live piglets and one stillborn, two pregnancies were in progress, while one sow returned to estrus 47 d after in vitro fertilization. These results demonstrate that pig oocytes matured and fertilized in vitro can develop to the blastocyst stage and establish a normal pregnancy resulting in the birth of live piglets.     

Developmental ability of enucleated bovine oocytes matured in vitro after fusion with single blastomeres of eight-cell embryos matured and fertilized in vitro

Single blastomeres from eight-cell stage bovine embryos matured and fertilized in vitro were electrically fused with enucleated oocytes matured in vitro. In experiment 1, The percentage of these reconstituted embryos developed to the two- to eight-cell stage 48 hr after electrofusion was increased when both the eight-cell embryos and the enucleated oocytes were derived from oocytes cultured with granulosa cells (14% vs. 38%). In experiment 2, the relationship between activation of oocytes and developmental ability of reconstituted embryos was examined. Although both ethanol and electrical stimulation efficiently induced parthenogenetic activation of oocytes matured in vitro for 26–28 hr (ethanol, 89%; electrical stimulation, 73%), the ratio of the second polarbody extrusion differed (80% vs. 22%). Ethanol-treated enucleated oocytes, however, were not significantly different from the early cleavage of the reconstituted embryos 48 hr after electrofusion (nontreated, 38%; treated, 43%). In experiment 3, reconstituted embryos at the two- to eight-cell stage 48 hr after the electrofusion were cocultured with granulosa cells for 6–7 days. Of 69 embryos, one developed to a morula and three developed to blastocysts. © 1993 Wiley-Liss, Inc.     

Nuclear transplantation in the bovine embryo: assessment of donor nuclei and recipient oocyte

Blastomeres from 2- to 32-cell bovine embryos were transferred to enucleated oocytes matured either in vivo or in vitro by micromanipulation and electrofusion. The percentage of donor cells fusing with the recipient oocytes was dependent on relative cell size or stage of development. Therefore, when smaller donor karyoplasts (17- to 32-cell vs. 2- to 8-cell) were transferred, the rate of fusion was significantly less (p less than 0.01). After fusion, nuclear transfer embryos were cultured either in vitro or in vivo (in a ligated ovine oviduct). Nuclear transfer embryos cultured in vitro developed to the 4- to 6-cell stage after 72 h (4-cell, 71%; 8-cell, 33%, 16-cell, 33%; p less than 0.30), whereas nuclear transfer embryos cultured in vivo developed to the morula or blastocyst stage (2- to 8-cell, 11.7%; 9- to 16-cell, 16.0%; 17- to 32-cell, 8.3%; p greater than 0.30) after 4 or 5 days. Freshly ovulated oocytes (collected 36 h after the onset of estrus), when used as recipients, resulted in morula/blastocyst-stage embryos more often than in vitro-matured oocytes or in vivo-matured oocytes collected 48 h after the onset of estrus (20% vs. 7.8% and 6.7%, respectively; p less than 0.02). After in vivo culture, nuclear transfer embryos were mounted and fixed or transferred nonsurgically to the uteri of 6- to 8-day postestrus heifers. Seven pregnancies resulted from the transfer of 19 embryos into 13 heifers; 2 heifers completed pregnancy with the birth of live calves.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of temperature gradients on in vitro maturation of bovine oocytes

The effect of temperature gradients on in vitro maturation of bovine oocytes was examined in this study. Six treatment groups were made by combining 3 different maturation periods (0 to 10 h, 10 to 18 h and 18 to 24 h) with 2 different culture temperatures (37.0 degrees C and 38.5 degrees C). The frequency of oocytes matured to the metaphase II stage was apparently gradually increased as the culture temperature was increased from 37.0 degrees C to 38.5 degrees C at 0, 10 and 18 h after the onset of culture (75.2 vs 80.5, 82.3 and 84.3%, respectively), but this difference was not significant. Neither was the minor decrease in the proportion of oocytes reaching metaphase II when the temperature was decreased from 38.5 degrees C to 37.0 degrees C at 10 and at 18 h after the onset of maturation (84.3 vs 82.4 and 78.0%, respectively). However, more oocytes cleaved (79.2%; P = 0.0653) and developed to morulae (43.6%; P = 0.0019) and blastocysts (27.4%; P = 0.1568) when they were in vitro matured at 38.5 degrees C between 0 and 10 h, and then at 37.0 degrees C from 10 to 24 h. Although only the morula group was statistically different, cleavage- (79.2 vs 69.8, 72.5, 74.2, 76.3, 74.3%, respectively) and blastocyst formation (27.4 vs 23.2, 24.6, 25.2, 19.6, 21.9%, respectively) from this group was the highest among the 6 treatments.     

Kinetics of first polar body extrusion and the effect of time of stripping of the cumulus and time of insemination on developmental competence of bovine oocytes

Kinetics of extrusion of the first polar body was examined as well as the effect of the time of stripping of the cumulus cells on this kinetics. In addition, the effects of time of stripping and time of insemination on developmental competence of the oocytes, as evaluated by the percentage of morulae and blastocysts, were studied. Polar body extrusion occurred in 80% of the oocytes between 12 and 18 h after the onset of maturation. The remainder of the oocytes did not extrude a polar body at all. Stripping of the cumulus at 12 h after the onset of maturation delayed polar body extrusion significantly by about 1 h. No significant differences were found in the percentage of oocytes that could be fertilized, and the percentage of oocytes that cleaved and developed to the morula and blastocyst stages, between oocytes that were stripped free of cumulus and inseminated at either 16 or 20 h after onset maturation. Oocytes that had extruded a polar body at either 16 or 20 h after onset maturation showed significantly higher percentages of cleavage and development than oocytes that had not extruded a polar body at those time points. However, the percentage of oocytes that could be fertilized was not affected.     

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.     

Evaluation of culture systems containing bovine oviduct epithelial cells or granulosa cells to mature and maintain the developmental competence of bovine oocytes in vitro

The effects of estrous cow serum (ECS), bovine oviduct epithelial cells (BOEC), and bovine granulosa cells (GC) on in vitro maturation (IVM) of immature oocyte-cumulus complexes (OCCs) were evaluated. Selected OCCs were cultured for 24 to 26 h in microdroplets of culture medium (CM; TCM 199 + 25 mM HEPES + 100 mug gentamicin sulfate/ml) or in CM medium supplemented or conditioned with 20% ECS, BOEC +/- 20% ECS or GC + 20% ECS. Supplemented media were incubated for 2 h before addition of OCCs, whereas media were conditioned by incubation with 20% ECS or BOEC +/- 20% ECS for 6 d, or with 20% ECS +/- GC for 24 or 48 h before addition of OCCs. The developmental competence of oocytes after TVM was assessed by insemination with glass wool separated, frozen-thawed bovine spermatozoa in microdroplets of modified medium (TALP) containing heparin (5 mug/ml) and BOEC for 18 h. The presumptive zygotes were cultured in microdroplets of CM medium + 20% ECS + BOEC for 7 to 9 d to assess embryo development to morula and blastocyst stages. The percentages of OCCs undergoing IVM (85 to 94%) and in vitro fertilization (IVF) (66 to 80%) were high, irrespective of the IVM conditions. Only after the IVM of OCCs in CM medium alone was the percentage of oocytes undergoing IVF significantly lower (66%; P<0.05). The proportion of IVF oocytes developing to blastocysts with a normal complement of cells (126 to 138) increased significantly (P<0.05) when the OCCs were matured in supplemented or conditioned CM medium containing ECS and/or somatic cells (18 to 28%) compared with those in CM medium alone (9%). When the CM medium was supplemented or conditioned with GC + 20% ECS, the proportion of fertilized oocytes developing to blastocysts increased significantly (28%; P<0.05). These results indicate that the potential of immature OCCs to be fertilized and to complete embryonic development to the blastocyst stage in vitro is enhanced by maturation in CM medium containing 20% ECS and/or BOEC or GC.     

Effect of cumulus cell removal of in vitro matured bovine oocytes prior to in vitro fertilization on subsequent cleavage rate

The aim of this study is to identify the effect of cumulus cells removal prior to the in vitro fertilization of matured bovine oocytes on cleavage rate. Denuded, matured oocytes were fertilized in presence or absence of loose cumulus cells, cumulus cell conditioned IVF medium (CCCM), charcoal-treated CCCM and charcoal-treated CCCM supplemented with progesterone at a final concentration of 150 ng/ml. After 18 h of incubation with sperm, the presumptive embryos were cultured on a BRL monolayer and the percentage of cleaved embryos was evaluated on Day 4. Removal of cumulus cells prior to IVF significantly reduced the cleavage rate (25% for denuded oocytes versus 56% for cumulus-oocyte complexes (COCs)). The addition of loose cumulus cells partially restored the effect of denudation (cleavage rate: 37% for denuded oocytes supplemented with loose cumulus cells versus 27% for denuded oocytes and 58% for COCs). CCCM also had a positive effect on the cleavage rate of oocytes denuded prior to IVF (36% for denuded oocytes fertilized in CCCM versus 14% for denuded oocytes). Treating the CCCM with charcoal resulted in complete loss of its effect on cleavage rate (18% for denuded oocytes fertilized in charcoal-treated CCCM versus 34% for denuded oocytes fertilized in CCCM). The addition of progesterone to charcoal-treated CCCM partially restored the reduction of the cleavage rate caused by charcoal treatment (27% for denuded oocytes fertilized in charcoal-treated CCCM supplemented with progesterone versus 14% for denuded oocytes fertilized in charcoal-treated CCCM and 36% for denuded oocytes fertilized in CCCM). In conclusion, removal of cumulus cells prior to IVF adversely affects the cleavage rate through loss of a factor secreted by these cells. This factor probably is progesterone.     

Fertilizability of in vitro matured oocytes from golden hamsters

The fertilizability of hamster oocytes matured in vitro was examined along with two factors potentially affecting nuclear maturation in culture. The four amino acids (isoleucine, methionine, phenylalanine, and glutamine) necessary for nuclear maturation of cumulus-free oocytes (Gwatkin and Haidri, '74) were not required if oocytes recovered on the morning of proestrus (day 4) were cultured with intact cumuli. Although follicular oocytes recovered on day 3 of the estrous cycle (late diestrus) had somewhat lower frequencies of maturation in vitro compared to those recovered on day 4 (76 vs. 95%, respectively), they still had a substantial frequency of spontaneous maturation. Follicular oocytes recovered on day 3 and matured in vitro were fertilized at frequencies equivalent to oviducal oocytes (80 vs. 82%, respectively) when incubation of oocytes with precapacitated sperm was continued for 6 h. Penetration of follicular oocytes was lower (37.4%) after only 4 h of sperm/egg incubation, indicating a delay in sperm penetration with follicular oocytes matured in vitro. Incubation for 4 h is sufficient time for penetration of 80% or more of oviducal oocytes. While 98% of penetrated oviducal oocytes were fertilized normally, only 2% of penetrated follicular oocytes were normal. The majority (85%) of follicular oocytes, unlike oviducal oocytes, were unable to cause decondensation of sperm nuclei after 6 h of sperm/egg incubation. Use of a highly defined system for in vitro fertilization of hamster gametes has provided rigorous proof that isolated cumulus-oocyte complexes do not undergo complete maturation in vitro.