Prematuration of bovine oocytes with butyrolactone I: effects on meiosis progression, cytoskeleton, organelle distribution and embryo development

The effects of prematuration (PM) of bovine oocytes with butyrolactone I (BLI) for 24h on meiosis progression, cell structures and embryo development were assessed. Germinal vesicle (GV) rates decreased (97.4-65.1%, P<0.05) with decreasing BLI concentrations (100-25muM). Without BSA in PM medium, GV rates were similar (98.7-97.2, P>0.05) with low BLI (10-25muM). After in vitro maturation (IVM) for 24h, metaphase II (MII) rates for controls (IVM only) were similar (91.1%, P>0.05) to PM with 10muM BLI in BSA-free medium (B10=91.5%) and 100muM BLI in medium with BSA (B100=92.4%). Meiosis resumption occurred earlier in treated oocytes (71.4-74.3% in GV for B10 and B100, respectively, after 6h IVM compared with 97.3% in controls, P<0.05). By 18h of IVM, most oocytes reached MII (72.0-78.9%, P>0.05). Microtubules and microfilaments were unaffected by BLI. Cortical granules (CG) migration was reversibly blocked by BLI. Mitochondria translocation was partially blocked by PM culture and after IVM more oocytes in B10 and B100 (95.2 and 98.2%, respectively) had mitochondria translocated to a mature pattern (all cytoplasm) than controls (81.5%, P<0.05). Cleavage rates were similar (81-87%, P>0.05), but blastocysts (day 7) decreased in B100 (33.0%, P<0.05) compared with controls and B10 (38.3 and 41.6%, respectively). Day 8 hatching rates (11.0-19.2%) and mean total cell numbers (136-150) were similar (P>0.05). PM did not improve oocyte competence but also did not cause major structural alterations, suggesting that PM may be improved and used to study the mechanisms involved in oocyte differentiation.     

Meiotic competence of bovine fetal oocytes following in vitro maturation

The in vitro ability between fetal and cow oocytes to resume meiosis and progression to metaphase-II (M-II) was compared. Cumulus oocyte complexes (COCs) were harvested from 2 to 6 mm follicles from ovaries of 7.5 month to term fetuses and adult cows. Cumulus cells were removed using 3 mg/ml hyaluronidase and repeated pipetting. Denuded oocytes were fixed in 3% glutaraldehyde, stained with DAPI and evaluated under fluorescent microscopy for nuclear status before in vitro maturation (IVM). COCs from fetal and adult ovaries were also matured in 200 microl droplets of medium 199 supplemented with 10 microg/ml FSH, 10/ml LH, 1.5 microg/ml estradiol, 75 microg/ml streptomycin, 100 IU/ml penicillin, 10 mM hepes and 10% FBS for 24 h at 39 degrees C and 5% CO(2). Matured oocytes were fixed, stained and evaluated as explained above for nuclear status namely stage of germinal vesicle (GV) development and subsequent meiotic competence. Data were analyzed using chi-square analysis. The majority of fetal oocytes (P<0.05) before IVM were at GV stages GV-I (27.7%), GV-II (37.6%) and GV-V (22.8%) compared to cow oocytes, which were at GV stages IV (28.3%) and V (46.7%). After IVM, fewer fetal oocytes were at earlier stages of GV development and majority (P<0.05) were at GV-V (24.0%), premetaphase (17.4%) and metaphase-I (M-I: 7.2%) stages. However, after IVM, more cow oocytes matured to M-II than did fetal oocytes (93.7% versus 26.9%; P<0.05). In conclusion, fetal oocytes do not mature in vitro as well as cow oocytes. Our findings suggest that the low meiotic competence of fetal oocytes can be attributed to their being at earlier stages of GV development before IVM.     

Effect of duration of in vitro maturation on nuclear maturation and fertilizability of feline oocytes

This study was conducted to improve in vitro production of embryos from domestic cats using TCM-199 as an IVM medium. The time sequence of nuclear maturation and the optimal timing of in vitro insemination were examined. Most oocytes were at the germinal vesicle stage immediately after collection; however, 8.3% had already resumed meiosis before IVM culture. After 30 h of IVM culture, the percentage of oocytes at metaphase II (MII) reached a peak (75.5%) and did not change (P>0.05) from 30 to 48 h after IVM culture. The percentage of oocytes with two pronuclei was higher (P<0.05) for oocytes matured for 30 and 36 h (38.2 and 33.0%, respectively) than for those after IVM culture for only 24 h (18.5%). Total sperm penetration rate was highest (P<0.05) for oocytes that had been matured for 30 h (46.1%). After 30 h of IVM and 18 h of IVF culture, 66.3 and 24.8% of inseminated oocytes had cleaved and developed to the blastocyst stage, respectively. We concluded that IVM of feline oocytes for 30 h in TCM-199 resulted in optimal nuclear maturation and sperm penetration.     

In vitro maturation, fertilization and early cleavage rates of bovine fetal oocytes

The in vitro developmental competence of oocytes harvested from 3 to 6 mm follicles from ovaries of 7.5 months to term fetuses and adult cows was compared. Cumulus oocyte complexes (COCs) were washed and placed in 200 microl droplets of maturation medium 199, supplemented with 10 microg/ml FSH, 10 microg/ml LH, 1.5 microg/ml estradiol, 75 microg/ml streptomycin, 100 IU/ml penicillin, 10 mM Hepes, and 10% fetal bovine serum (FBS) under oil and incubated for 24 h at 39 degrees C and 5% CO2. Matured oocytes were exposed to frozen-thawed TALP swim-up, heparin-capacitated sperm (20 h, 39 degrees C, 5% CO2). Presumptive zygotes were cultured in medium 199 containing 8 mg/ml BSA-V, 100 IU/ml penicillin G, 75 microg/ml streptomycin, and 10 mM Hepes (48 h, 39 degrees C, 5% CO2). Oocytes/embryos were fixed, stained with DAPI, and evaluated under fluorescent microscopy to assess maturation, fertilization, and subsequent embryonic development. There was a difference (P<0.05) between fetal and adult cow oocytes for in vitro maturation (IVM; 80.1% versus 92.0%), fertilization (69.3% versus 79.9%), and cleavage rates (36.7% versus 49.9%), respectively. Poor IVM, fertilization and embryonic development of fetal oocytes may be due to a higher incidence of blockage at germinal vesicle (GV) and metaphase-I (M-I) stage after IVM (12.0% versus 2.3% for fetal versus adult oocytes, respectively, P<0.05). Although the IVF results with fetal oocytes are poorer than with adult cow oocytes, they were still high enough to be considered for use in research and when death of the dam and/or fetus is pre-mature or sudden.     

Germinal vesicle chromatin configuration and meiotic competence is related to the oocyte source in canine

This study investigated the effect of deriving oocytes from different stages of the estrous cycle on oocyte diameter, germinal vesicle (GV) chromatin configuration, and in vitro meiotic competence in canine oocytes. Cumulus oocyte complexes (COCs) were recovered from both ovaries during anestrous, follicular, and luteal phases and in vivo ovulated oocytes. The diameter of canine oocyte was compared with or without the zona pellucida (ZP) before in vitro maturation (IVM). Also, GV chromatin configuration was evaluated before (0 h) or 72 h after IVM by fixation with 3.7% formaldehyde supplemented with 10 microg/ml Hoechst 33342 for 30 min. COCs were matured in TCM199 supplemented with 10% fetal bovine serum (FBS), 0.6 mM cysteine, 0.2 mM pyruvic acid, 50 microg/ml gentamycin sulfate, and 20 microg/ml 17beta-estradiol (E(2)) at 39 degrees C and 5% CO(2) in air for 72 h. The diameter of in vivo ovulated oocytes with the ZP (167.5+/-12.7 microm) or without ZP (133.9+/-5.3 microm) was significantly greater (p<0.05) than those of anestrous, follicular, and luteal oocytes (with ZP, 151.2+/-7.4, 153.1+/-8.8 and 152.8+/-5.4 microm, respectively; without ZP, 115.3+/-7.6, 122.1+/-4.9 and 114.3+/-6.6 microm, respectively). At 0 h, the GV-II configuration was more prevalent in oocytes from anestrual ovaries than from follicular or luteal ovaries or in vivo ovulated oocytes (63.6% versus 14.8%, 33.0%, and 0.0%; p<0.05), whereas the proportion of oocytes with the GV-V configuration was higher in follicular phase and ovulated oocytes than in oocytes from anestrus and luteal phase (57.4% and 100% versus 2.0% and 22.7%; p<0.05). However, oocytes in luteal phase exhibited diverse GV configurations (10.3%, 33.0%, 16.5%, 13.4%, and 22.7% in GV-I, GV-II, GV-III, GV-IV, and GV-V, respectively). After 72 h post-IVM, a greater percentage of in vivo ovulated oocytes progressed to MII than those oocytes collected during anestrous, follicular, and luteal phases (50.0% versus 5.5%, 11.5%, and 9.1%; p<0.05). In conclusion, the oocyte diameter, GV chromatin configuration, and meiotic maturation of canine COCs are related to the oocyte source. These results indicated that the oocyte source could be critical to nuclear progression to MII stage in canines.     

Effects of harvest methods of bovine oocytes co-cultured with follicular hemisections in vitro on nuclear maturation

This study was undertaken to evaluate the in vitro response of bovine cumulus-oocyte complexes (COC) to follicular cells based on 2 COC harvest periods (1 and 6 h after slaughter) and 2 harvest methods (puncturing and mincing). In Experiment 1, the nuclear maturation stage of oocytes was analyzed following harvest and again prior to in vitro culture. More than 95% of the oocytes were at the germinal vesicle stage (GV stage). In Experiment 2, COC were cultured in vitro inside follicular hemisections for 24 h and the percentage of oocytes at the GV stage was the same regardless of the harvest period. In Experiment 3, COC were harvested 6 h following slaughter using the 2 methods and then cultured for 24 h inside follicular hemisections; again, the percentage of oocytes at the GV stage was not statistically different (P>0.05). In a follow up experiment, the culture medium was supplemented with LH (5.0 microg/ml) and the percentage of oocytes maintained at the GV stage did not decrease. These results indicate that COC response to inhibitory factor(s) produced by follicular cells is not influenced by harvest time, harvest method or LH supplementation.     

Gonadotropin exposure,salt storage and storage duration affect penetration of domestic cat oocytes by homologous spermatozoa

Salt-stored domestic cat oocytes are routinely used to study sperm function in domestic and nondomestic felids. Our objectives were to assess the effects of in vitro maturation (IVM), salt storage and storage duration on penetration of domestic cat oocytes by homologous spermatozoa. In Experiment 1, domestic cat spermatozoa were coincubated with fresh immature oocytes, salt-stored (2-3 weeks) immature oocytes, or salt-stored (2-3 weeks) IVM oocytes matured in Minimum Essential Medium containing 0.1IU FSH and 0.1IU LH/ml (IVM1) or 0.5IU FSH and 2.2IULH/ml (IVM2). In Experiment 2, all oocytes were matured (IVM2) and inseminated fresh or after salt storage for 2-3 weeks, 2-3 months or 9 months. In Experiment 1, penetration of the outer zona pellucida (OZP) was greater (P<0.05) in salt-stored IVM2 oocytes than in salt-stored immature oocytes, whereas penetration of salt-stored IVM1 oocytes was intermediate (P>0.05). In Experiment 2, penetration of the OZP and inner zona pellucida (IZP) was higher (P<0.05) in fresh IVM2 oocytes than in salt-stored oocytes, and a higher (P<0.05) proportion of oocytes had IZP sperm after 2-3 weeks of storage than after 2-3 months. Penetration of the perivitelline space was higher (P<0.05) in fresh IVM2 oocytes than in oocytes stored for 2-3 weeks or 2-3 months. These results suggest that oocyte penetration is improved by IVM, but is impaired by exposure to salt-storage solution and prolonged storage duration.     

Cytogenetic evaluation of in vitro matured bovine oocytes collected from ovaries of individual donors

Oocytes were collected after slaughter by aspiration from pairs of ovaries of individual donors. A total of 656 oocytes was selected for IVM from 74 pairs of ovaries (8.9 oocytes per pair, ranging between 1 and 25). The oocytes were matured in droplets of maturation medium (TCM-199 medium supplemented with 20% estrous cow serum (ECS), 50 microg/ml gentamycin, 10 microg/ml FSH, 1 microg/ml estradiol-17beta). Cytogenetic analysis of 348 oocytes showed 79 at the first metaphase (MI; 22.7%, 79 348 ), 11 at the first telophase (TI; 3.2%, 11/348 ), and 258 at the second metaphase (MII; 74.1% 258/348 ). Significant differences (P < 0.01) were shown among the donors regarding the number of oocytes selected for IVM and the number of oocytes matured for IVF.     

Luteinizing hormone-enhanced in vitro maturation of bovine oocytes with and without protein supplementation

Luteinizing hormone was shown to enhance maturation of immature oocytes obtained from slaughtered cattle as reflected by elevated proportions of oocytes that fertilized and reached blastocyst stages in vitro after in vitro fertilization (IVF). Higher proportions of ova were fertilized in vitro after in vitro maturation (IVM) in modified TCM-199 (TCM-199 + BSA + LH [USDA-bLH-B-5, 100 micrograms/ml]) than in TCM-199 alone (p less than 0.01). Further improvement in IVF (p less than 0.005) followed IVM when 20% proestrous (Day 20) bovine serum replaced the BSA, but similar proportions of inseminated ova (22.2% and 22.6%) developed into blastocysts. The positive LH effect was verified in defined conditions for IVM. Exposure of oocytes to the purified LH preparation (without any other added protein or biological substances) during IVM improved IVF (39.7% in TCM-199 vs. 73.5% in TCM-199 + LH; p less than 0.001) and blastocyst development (7.9% vs. 28.2%; p less than 0.005), respectively. Efforts to better define effective concentrations of LH revealed no difference in viability after IVM with 50 micrograms LH/ml vs. 100 micrograms LH/ml (27.0% vs. 28.3%, respectively); 10 micrograms LH/ml did not enhance viability when compared to TCM-199 alone (10.8% vs. 9.9%). Results demonstrate potential utility of this approach for investigation of factors influencing mammalian development by specific effects initiated during the interval of oocyte maturation.     

Methods for collecting and maturing equine oocytes in vitro

The objective of our study was to develop an effective method for collecting and maturing equine oocytes. In Experiments 1 and 2, oocytes were collected from excised ovaries obtained via colpotomy. In Experiment 3, oocytes were collected from ovaries obtained after slaughter. Follicles were aspirated and flushed with various treatments to recover the oocytes, which were then cultured and stained to observe the stage of meiosis. In Experiment 1, the aspiration treatments consisted of 0.5 ml of modified Dulbecco's PBS with 0, 100 or 500 lU/ml hyaluronidase. There was no increase (P>0.05) in oocyte recovery with the addition of hyaluronidase. The oocytes were cultured in either TCM-199 or Ham's F-10 medium containing 0.5 ug/ml FSH, 1 ug/ml LH, 1 ug/ml estradiol 17β, 250 uM Na-pyruvate and 10% estrual mare serum for 0, 24, 36 or 48 h. Maturation rates were higher (P<0.05) at 36 h for oocytes cultured in TCM-199 (79%) than for those in Ham's F-10 (21%). There was no difference (P>0.05) in the percentage of maturation of oocytes between the 2 media at 48 h of culture. In Experiment 2, a single aspiration was performed with no flushing medium (dry aspiration) in 0.5 ml of PBS or in PBS with 1000 IU/ml hyaluronidase. The oocytes were then cultured in TCM-199 for 24, 30 or 36 h. There was an increase (P<0.05) in oocyte recovery when follicles were flushed with PBS, with or without hyaluronidase. There was also a difference (P<0.05) in the percentage of maturation of oocytes between 30 and 24 h (86 vs 48%), but no further increase was seen by 36 h (84%). In Experiment 3, follicles were aspirated with PBS 5 to 6, 6 to 7 or 7 to 8 h after slaughter. The oocytes were cultured for 30 h in TCM-199 either with or without 100 IU/ml eCG. There was no effect of eCG or time from slaughter on oocyte maturation or cumulus expansion (P>0.05).     

Assessment of canine oocyte viability after transportation and storage under different conditions

To improve assisted reproductive technologies in the domestic dog, different transport treatments were evaluated for their ability to maintain viability of canine oocytes, as assessed by esterase activity 8h after storage or after 48 h of in vitro maturation (IVM) culture. In Experiment 1, ovaries were transported within reproductive tracts or were excised and stored at either 20 or 37 degrees C in phosphate buffered saline. Oocytes collected from reproductive tracts transported at 37 degrees C had the greatest viability after storage (P<0.05). However, after IVM there were no significant differences among any of the four storage conditions in oocyte viability or meiotic resumption (P=0.05). In Experiment 2, isolated oocytes were transported in either TCM-199 with Hank's salts and Hepes buffer or in TL-Hepes at either 20 or 37 degrees C, or in maturation medium equilibrated with 5% CO(2) at 37 degrees C. In Experiment 2, oocytes transported in Hepes buffered media at 37 degrees C had greater viability rates after storage than did those transported in these same media at 20 degrees C or in sodium bicarbonate buffered medium at 37 degrees C (P<0.001). After IVM, oocytes transported in the 37 degrees C treatment groups had greater viability rates than did those transported at 20 degrees C (P<0.01). Overall, isolated oocytes transported at 37 degrees C had greater rates of meiotic resumption than did those transported at 20 degrees C (P<0.05). Taken together, these data indicate that canine oocytes exhibited sensitivity to lesser temperatures and maintained greater rates of viability during transport at 37 degrees C. Isolated oocytes maintained greater viability than oocytes transported in situ. Hepes buffered media increased viability rates for isolated oocytes transported at 37 degrees C compared to a similar medium buffered with sodium bicarbonate.     

Influence of cysteamine supplementation and culture in portable dry-incubator on the in vitro maturation, fertilization and subsequent development of mouse oocytes

The need to transport oocytes and embryos between two laboratories have prompted us to evaluate the effects of in vitro maturation of immature mouse oocytes in a CO2-deficient dry heat portable incubator and subsequent in vitro development of these fertilized mouse oocytes in a standard CO2 incubator. In addition, the effects of cysteamine supplementation on maturation rate and embryonic development during in vitro maturation (IVM) and culture of embryos in the portable incubator were also investigated. Germinal vesicle stage mouse oocytes, recovered at 40-h post-FSH from 6- to 8-week-old C57BL/6xCBA F1 healthy female mice, were matured in vitro in a modified TCM-199 supplemented with or without 100 microM cysteamine in a standard incubator (5% CO2; 37 degrees C) or cultured in a CO2-deficient dry heat portable incubator for 5 h at 37 degrees C and thereafter transferred to a standard incubator for further culture. The addition of cysteamine in the IVM medium significantly improved maturation rates of the GV mouse oocytes to metaphase II stage. However, cysteamine supplementation in the culture medium did not significantly improve fertilization and blastocyst formation rates of IVM and ovulated oocytes, and in vivo-derived zygotes. Culture conditions in a CO2-deficient dry heat portable incubator did not adversely affect the developmental competence of in vivo-derived zygotes and in vitro matured mouse oocytes after IVF or parthenogenetic activation. Cysteamine supplement in the IVM medium could enhance nuclear maturation of these immature oocytes during shipment.     

Timing of nuclear maturation of nonstored and stored domestic cat oocytes

In this study we compared the effects of preculture storage of ovaries, IVM medium, a reduced O(2) atmosphere and duration of culture on in vitro maturation (IVM) of domestic cat oocytes. One randomly selected ovary of each pair (69 pairs) was stored in PBS at 10 degrees C for 16-24h before oocyte recovery. The second ovary from each pair was used as a nonstored control. In Experiment I, we investigated the effect of culture media (TCM 199 versus SOF) and a reduced O(2) atmosphere (a humidified gas atmosphere of either 5% CO(2) in air or 5% CO(2):5% O(2):90% N(2)) on IVM of both stored and nonstored oocytes. In the second experiment, we compared timing of nuclear maturation of both stored and nonstored oocytes cultured for 17-18, 20-21, 24-26, 28-30, 33-34 or 42-45 h before being evaluated for meiotic status. In both, Experiments I and II, the recovery rate, quality and competence for maturation of oocytes originating from stored ovaries did not differ (P>0.05) compared with nonstored. In Experiment I, neither culture medium (37.5 versus 43.2% of Metaphase II, respectively in TCM 199 versus SOF) or gas atmosphere (40.0 versus 32.5% of Metaphase II, respectively in 5% CO(2) in air versus 5% CO(2):5% O(2):90% N(2)) affected oocyte maturation. In Experiment II, the mean proportion of oocytes achieving Metaphase II within 17-18 h of culture was 36.1% and did not significantly increase (P>0.05) over time up to 28 h. The highest proportion of oocytes (67.3%) reached Metaphase II stage after 42-45 h of culture. Therefore, we conclude that two "waves" of nuclear maturation of cat oocytes can be distinguished. The first wave takes place within 26 h and it is likely that most oocytes of this wave mature by 17-18 h; the second wave occurs after 28-30 h of IVM. It can be assumed that this double wave may reflect the presence of two oocyte populations with two different degrees of "prematuration" which require different lengths of IVM.     

Optimum gas atmosphere for in vitro maturation and in vitro fertilization of bovine oocytes

The objective of this study was to determine optimal gas atmosphere conditions for in vitro maturation (IVM) and in vitro fertilization (IVF) of bovine oocytes. In Experiment 1, groups of 10 to 12 cumulus-oocyte complexes (COCs) were matured (24 h) and fertilized (18 h) under 1) 5% CO(2), 5% O(2;) 2) 5% CO(2), 10% O(2) or 3) 5% CO(2), 20% 0(2.) The COCs were cultured in 50 microl drops of maturation medium (TCM-199 + 10% bovine calf serum + oLH, oFSH and estrogen) or fertilization medium (TALP + swim-up separated spermatozoa +1 microg/ml heparin sulfate) under a layer of 10 ml paraffin oil at 39 degrees C with saturated humidity. Half of the oocytes in each drop were assigned randomly for maturation scoring and the remainder were inseminated. Reduced atmospheric O(2) drastically decreased proportions of oocytes reaching MII (71.4, 26.9 and 9.3% with 20, 10 and 5% O(2), respectively; P < 0.05). The percentages of total fertilization in 10 and 20% O(2) were similar and considerably higher than in 5% O(2) (80.3, 87.0 and 53.1%, respectively; P < 0.05). In addition, the percentage of polyspermy markedly increased when IVF was conducted in reduced O(2) (26.6 and 28.8% in 5 and 10% O(2) vs 15.4% in 20% O(2;) P < 0.05). Experiment 2 was similar to Experiment 1 except that CO(2) was the variable: 1) 2.5% CO(2) in air, 2) 5% CO(2) in air and 3) 10% CO(2) in air. The proportion of MII oocytes did not differ across treatments (64.9, 68.9 and 61.9%, respectively; P > 0.05). Although the percentages of total fertilization among treatments were not different (75.4, 80.9 and 76.1%, respectively), the proportion of normal fertilization was significantly reduced in 10% C0(2) (55.1%) when compared with that of either 2.5% CO(2) (62.7%) or 5% CO(2) (68.7%; P < .05). This study indicates that low O(2) is detrimental for IVM/IVF of bovine oocytes and that optimal atmospheric conditions are either 2.5 or 5% CO(2) and 20% O(2).     

Development of early bovine embryos in co-culture with KSOM and taurine, superoxide dismutase or insulin

Three experiments, utilizing 2578 embryos, were designed to test the effects of media, taurine, Superoxide dismutase and insulin on the development of embryos produced by in vitro maturation and in vitro fertilization (IVM/IVF). Embryos showing at least 1 cleavage during culture for 40 to 44 h after IVM/IVF were selected for further culture under various conditions for 6 d at 39 degrees C in 5% C0(2):95% air. A Buffalo rat liver (BRL) cell co-culture was used in all 3 experiments. Experiment 1 was a 3 x 2 factorial arrangement with KSOM (a high potassium simplex optimization-derived medium containing only 12 ingredients), Menezo B(2) and TCM-199 media with or without 7 mM taurine. Blastocyst production in the 3 media, respectively, was 48, 36 and 29% (P<0.05). Addition of 7 mM taurine increased the percentage of blastocysts from 34 to 42 (P<0.05). In Experiment 2, Superoxide dismutase (SOD) did not improve blastocyst development (P>0.05). In Experiment 3, insulin (75 ng/ml) added to KSOM resulted in 46% morulae plus blastocysts compared with 35% for the control (P<0.05). These results indicate that the co-culture of embryos in KSOM with taurine or insulin added is superior to commonly used complex media for efficient production of blastocysts following IVM/IVF.     

Effect of lactate dehydrogenase activity and isoenzyme localization in bovine oocytes and utilization of oxidative substrates on in vitro maturation

Oocyte nutritional metabolism changes during maturation in order to increase the energy available to support metabolic requirements. The aim of this work was to study pyruvate and lactate utilization as oxidative substrates on IVM and lactate dehydrogenase (LDH) activity and localization of their isoenzymes in bovine oocytes. Immature cumulus-oocyte complexes (COCs) were recovered by aspiration of antral follicles in ovaries obtained from slaughtered cows. The COCs and denuded oocytes were separately cultured in TCM-199 with steer serum (controls) and were supplemented with pyruvate, lactate or lactate plus NAD for 24 h at 39 degrees C in 5% CO2:95% humidified air. No significant differences were found in IVM rates of COCs matured according to the various treatments (P>0.05). The IVM rate in denuded oocytes without supplementation was 47.8%. The presence of pyruvate in the culture medium resulted in an increased number of matured denuded oocytes (59.4%; P<0.05), but the addition of lactate failed to improve the IVM rate of matured denuded oocytes (47.6%, P>0.05). When the medium was supplemented with lactate plus NAD, the IVM rate of denuded oocytes likewise failed to differ from that obtained with the addition of pyruvate (59.9%, P>0.05). The LDH activity in immature and matured COCs and denuded oocytes was (3.1+/-1.6) 10(-3), (3.3+/-1.6) 10(-3) U/COC, (5.2+/-2.0) 10(-5), (5.4+/-3.5) 10(-5) U/oocyte with pyruvate as substrate, and (1.2+/-0.5) 10(-3), (1.0+/-0.5) 10(-3) U/COC, (2.2+/-0.1) 10(-5), (2.5+/-1.4) 10(-5) U/oocyte respectively, with lactate; no significant differences due to maturation status were observed (P>0.05; n = 9 for each LDH activity). Electrophoresis disclosed that the principal band corresponded to the LDH-1 isoenzyme in oocytes, while there was no predominance of any isoenzyme in cumulus cells. Due to the fact that LDH-1 is the main oocyte isoenzyme, the pyruvate used during oocyte maturation could be partly produced from lactate when the NAD supply is adequate. Cumulus cells would be responsible for providing pyruvate and/or lactate as oxidative substrates to be used by the bovine oocyte and this supply would be regulated by the LDH activity in these cells.     

Effects of gonadotropins on bovine oocytes matured in TCM-199

The effects of follicle-stimulating hormone (FSH) and luteinizing hormone (LH) during in vitro maturation of bovine oocytes in TCM-199 without serum were evaluated. Bovine oocytes with compact cumulus cells were collected from slaughterhouse-derived ovaries and cultured in Hepes-buffered TCM-199 supplemented with 5 mg/mL BSA, 1 microg/mL estradiol-17beta, FSH (0, 0.015, 0.05, 0.15, 1.5 or 15 ng/mL; Experiment 1), LH (0, 0.14, 1, 7 or 49 microg/mL; Experiment 2) and combinations of 1 or 10 ng/mL FSH and 1 or 10 microg/mL LH (Experiment 3) at 39 degrees C in 5% CO2 in air. After 22 h of maturation, cumulus expansion was estimated by scoring from 0 (no expansion) to 4 (full expansion of cumulus mass). In vitro fertilization was done with Percoll (45/90%) separated bull sperm at 1 x 10(6) sperm/mL in fert-TALP with 5 U/mL heparin. At 18 to 20 h post-insemination, presumptive zygotes were transferred to a chemically defined medium (CDM-1) supplemented with 0.5% BSA and nonessential amino acids for 72 h and then moved to CDM-2, additionally supplemented with essential amino acids. Zygotes were cultured at 39 degrees C in 5% CO2, 5% O2 and 90% N2 for 8 days. During Experiments 1 and 2, cumulus expansion increased in proportion to concentrations of FSH and LH. Cleavage rates and development to blastocysts were not significantly different among FSH and LH treatments. In Experiment 3, cumulus expansion of bovine oocytes was maximal when 1 ng/mL FSH and 1 microg/mL LH were added to IVM medium, but cumulus expansion again was not related to developmental ability, although cleavage rates were improved slightly (P<0.05) by the combination of LH and FSH. Blastocyst quality, estimated by the size of inner cell mass, was not different between combinations of FSH and LH, and the numbers of nuclei were not different. Although expansion of cumulus cells surrounding bovine oocytes was altered in response to FSH and/or LH in semi-defined medium, cumulus expansion was not related to rates of cleavage or subsequent embryonic development in vitro. The effects of LH on cumulus expansion can be explained by as little as 1 part per 10, 000 contamination with FSH.     

Influence of oocyte quality, culture media and gonadotropins on cleavage rate and development of in vitro fertilized buffalo embryos

The present study was designed to examine the influence of oocyte quality, culture media and gonadotropins on cleavage rate and development of in vitro fertilized buffalo embryos. Three experiments were conducted. In experiment 1, oocytes were classified by number of cumulus cell layers and morphology of the ooplasm as good, fair or poor. Oocytes were cultured for IVM, IVF and IVC in CR1aa medium. In experiment 2, good quality oocytes were cultured for maturation in: (1) CR1aa; (2) CR2aa; (3) TCM-199; (4) MEM or (5) RPMI-1640, and then fertilized using frozen thawed buffalo spermatozoa in CR1aa. The oocytes were cultured in the same medium used for maturation after fertilization. In experiment 3, oocytes were classified into three groups: group (1) was without gonadotropin and serve as a control; group (2) in which IVM medium was supplemented with 10microg/ml FSH and group (3) in which IVM medium was supplemented with 10IUml(-1) eCG. In all experiments, oocytes were kept at 38.5 degrees C under 5% CO(2) for IVM, IVF, IVC and examined for cleavage and embryo development rates on days 3 and 8, respectively. Good and fair quality oocytes produced a higher cleavage rate (P<0.01) than poor quality oocytes. Morula production rate was also higher (P<0.01) for good as compared with fair quality oocytes. Embryo development with poor quality oocytes was arrested at the two to sixteen cell stage. In experiment 2, the cleavage rate was higher (P<0.05) in CR1aa than CR2aa, and higher (P<0.01) than TCM-199, MEM and RPMI-1640. The numbers of morulae and blastocysts were higher (P<0.01) for oocytes cultured in CR1aa and CR2aa media than TCM-199 or MEM. In experiment 3, the addition of FSH or eCG to the maturation medium increased (P<0.01) cleavage and developmental rates of buffalo embryo compared with control medium. In conclusion, the IVM of good quality buffalo oocytes in CR1aa or CR2aa medium and the addition of FSH or eCG in maturation medium produced higher cleavage and developmental rates of IVF buffalo embryos.     

Effect of maturation media and oocytes derived from sows or gilts on the development of cloned pig embryos

In order to develop a culture system and recipient cytoplasm that could improve the developmental competence of somatic cell nuclear transfer (SCNT) embryos for successful cloning of pigs, we evaluated the effect of donor oocytes and in vitro maturation (IVM) media on maturation of oocytes and developmental competence of SCNT embryos. In Experiment 1, oocytes derived from sows or gilts were matured in two IVM media (TCM-199 versus NCSU-23) and maturation of oocytes was evaluated by the status of chromatin configuration, the diameter of matured oocytes, the thickness of the zona pellucida, and the size of the perivitelline space (PVS). Sow oocytes matured in TCM-199 (S-TCM group) and NCSU-23 (S-NCSU group) showed significantly higher (P<0.05) maturation rates (S-TCM and S-NSCU, 86+/-4 and 82+/-4%, respectively) when evaluated by metaphase-II status than the gilt oocytes matured in TCM-199 (G-TCM group, 71+/-3%) and in NCSU-23 (G-NCSU-23 group, 71+/-3%). Oocyte diameter, the thickness of the zona pellucida, and the perivitelline space of sow oocytes (S-TCM and S-NCSU) were larger than those of gilt oocytes (G-TCM and G-NCSU) after IVM (P<0.05). In Experiment 2, SCNT was performed, using in vitro-matured oocytes from each group as recipient cytoplasm and porcine fetal fibroblasts as karyoplasts. The reconstructed embryos were electrically fused and activated, and cleavage and blastocyst formation were monitored under a stereomicroscope. The total cell number of flattened blastocysts stained with 5 microM bisbenzimide on day 7 were counted. In addition, in vitro matured non-enucleated oocytes were also electrically activated (parthenogenetic activation) and pronuclear formation was monitored. No difference in pronuclear formation rate after parthenogenetic activation and fusion rate after SCNT was observed among experimental groups. A significantly higher cleavage rate (P<0.05) was observed in S-TCM (69+/-4%) when compared with only G-NCSU (58+/-4%), but not with G-TCM (60+/-4%) or S-NCSU (68+/-4%). The rate of blastocyst formation was significantly higher (P<0.05) in sow oocytes (24% in S-TCM and S-NCSU), when compared to that observed in G-TCM (15%), and G-NCSU (14%). When the same source of oocytes was used, there was no significant difference in rate of blastocyst formation in the two culture media. Total cell number of blastocysts were not significantly different among experimental groups. In conclusion, the present study clearly demonstrated that sow oocytes have a greater developmental competence than gilt oocytes, regardless of the maturation medium examined.