Calf Oocytes Research Articles

Evaluation of developmental competence, nuclear and ooplasmic maturation of calf oocytes.

In this study we evaluated nuclear and ooplasmic maturation of prepuberal calf oocytes to determine a possible cause for their low developmental competency. Calf oocytes resumed meiosis and arrested at the MII stage at rates similar to that of adult animals; however, zygotes derived from calf oocytes cleaved and developed at significantly lower rates. Ooplasmic maturation was assessed during oocyte maturation and fertilization. Transmission electron microscopy revealed that a majority of calf oocytes exhibited some delay in organelle migration and redistribution following maturation. Immunofluorescence microscopy showed that following IVF, a higher percentage of calf oocytes had abnormal chromatin and microtubule configurations than those of adult cattle. These anomalies were characterized by delayed formation of sperm aster and asynchronous pronuclear formation. Microfluorometry was used to characterize the Ca2+ responses of calf oocytes to the addition of agonists or after IVF. The addition of thimerosal demonstrated the presence of Ca2+ stores in calf oocytes. Injection of near threshold concentrations of inositol 1,4,5-trisphosphate (InsP3), used to test the sensitivity of the InsP3R, released significantly less Ca2+ in calf than in cow oocytes, whereas higher concentrations of InsP3 (500 microM) released maximal [Ca2+]i in both oocytes. These results suggested that the Ca2+ content of intracellular stores was similar, but the sensitivity of the InsP3R may be different. Following insemination, calf oocytes exhibiting [Ca2+]i oscillations displayed comparable amplitude and intervals to cow oocytes; however, a significantly higher number of fertilized calf oocytes failed to show oscillations. Our findings suggest that the low developmental competence of calf oocytes can be attributed, at least in part, to incomplete or delayed ooplasmic maturation.

Evaluation of developmental competence, nuclear and ooplasmic maturation of calf oocytes

Evaluation of developmental competence, nuclear and ooplasmic maturation of calf oocytes

Prepubertal bovine oocyte: a negative model for studying oocyte developmental competence.

To identify potential markers of maturation quality, differences in developmental capacity between cow and calf oocytes were compared in parallel with their constitutive and neosynthetic protein profiles before and after in vitro maturation (IVM). A comparison was also made between the protein profiles of follicular fluid (FF) from calf and cow ovaries. The effect of epidermal growth factor (EGF) during IVM on the subsequent development of prepubertal calf oocytes was examined. The effect of the presence of fetal calf serum (FCS) during development of embryos originating from calf oocytes was also examined. No differences were noted between the constitutive proteins of cow and calf oocytes and only a minor modification was observed before IVM in the pattern of neosynthesized proteins (presence of a band of 37 kD and a slight increase in the intensity of band of 78 kD in cow as compared to calf oocytes). However, the comparison of constitutive protein profiles from calf and cow FF demonstrated quantitative (the bands of 34 and 45 kD were more intense for cow than for calf) differences. EGF receptors (EGF-R) were demonstrated on cumulus-oocytes complexes (COCs) by immunofluorescence. There was no difference in intensity between cow and calf COCs. Furthermore, the addition of EGF during IVM of calf oocytes dramatically stimulated cumulus expansion and significantly increased the cleavage rate at 72 h post-insemination (82% vs 67%), as well as the proportion of embryos at the 5- to 8-cell stage at this time (54% vs 43%). Also, blastocyst yields at day 6 (11% vs 5%) and at day 8 (17% vs 10%) were significantly higher in the presence of EGF P < 0.05). The addition of FCS to synthetic oviduct fluid droplets at day 2 of culture (48 hpi) had no effect on cleavage, blastocyst yield, or blastocyst cell number. In conclusion, differences in developmental ability between calf and cow oocytes would appear to be not solely linked to differences in oocyte protein patterns. It is likely that the FF, which constitutes the microenvironment in which the oocyte develops, plays a major modulating role in determining the fate of the oocyte/follicle.

Low developmental capacity of in vitro matured and fertilized oocytes from calves compared with that of cows

The developmental competence of oocytes from 3-month-old calves was studied through in vitro maturation, fertilization and culture up to the blastocyst stage and by embryo transfer into a foster mother. Oocytes were recovered from antral follicles of calves after or without ovarian stimulation with exogenous FSH and their developmental potential was compared with that of oocytes recovered from cow ovaries. Fertilization and cleavage rates from calf oocytes did not differ significantly from those of cow oocytes. However, after 7 days of culture, the blastocyst formation rate was significantly lower for calves (9% and 11% for nontreated and treated animals, respectively) than for cows (over 20%). Transfer of blastocysts obtained from calf oocytes resulted in a lower pregnancy rate (1 of 23 recipients; 4%) than that achieved with cow oocytes (10 of 26; 38%). The recipient cow that was pregnant from calf embryos delivered a full-term live calf. These data show that some key regulative event that determines the ability to form blastocysts in cattle has not been fully achieved in oocytes from 3-month-old calves.

Evaluation of cytoplasmic maturation of calf oocytes

Evaluation of cytoplasmic maturation of calf oocytes

Cytological characterization of maturation and fertilization in prepubertal calf oocytes

Cytological characterization of maturation and fertilization in prepubertal calf oocytes

Gonadotropin stimulation regimens for follicular aspiration and in vitro embryo production from calf oocytes

Crossbred beef × dairy calves were randomly allocated at 3 wk of age to different gonadotropin treatment regimens for stimulation of follicle development and induction of oocyte maturation in vivo. Follicular responses were assessed laparoscopically, and oocytes were aspirated for assessment of maturational state or for in vitro fertilization (IVF) and culture to determine developmental capacity. Follicle-stimulating Hormone (FSH), administered in a single subcutaneous injection together with a low dosage of PMSG, was as effective as the same total dosage of FSH administered in 6 injections over a 3-d period. Without accompanying PMSG, this dose of FSH was ineffective in stimulating follicle development. The mean number of preovulatory follicles (> 5mm, with hyperemic appearance) doubled with each successive stimulation at 3-wk intervals, reaching 35 follicles per calf at 9 wk of age. Oocyte yields ranged from 55 to 81% of follicles aspirated, and did not differ significantly among age, FSH regimen and oocyte maturation stimulus. A combination of LH + FSH was more effective in stimulating cumulus cell expansion than LH by itself (73 vs 22% of recovered oocyte-cumulus cell complex (OCC) respectively; P<0.05). Of 33 unselected immature oocytes (cumulus unexpanded) subjected to in vitro maturation (IVM) and IVF, 30% developed to blastocysts during co-culture with bovine oviduct epithelial cells, which was not significantly different from 25% of 36 oocytes from adult ovaries which reached the blastocyst stage under similar conditions. The results indicate that follicle responses of calf ovaries to FSH stimulation increase progressively from 3 to 9 wk of age, and that oocytes recovered laparoscopically from these follicles produce blastocysts in culture at rates similar to oocytes from adult cattle ovaries collected at slaughter. The approach offers promise for embryo production from donor calves of superior genetic merit for embryo transfer, thereby enhancing the rate of genetic gain above that attainable by conventional breeding or by embryo transfer in adult cattle.

Effect of FSH and estradiol-17β for maturation of calf oocytes on the in vitro development to blastocysts

Solvent partitioning, column chromatography on activated alumina, and Ittrich extraction of Kober chromogens were employed to isolate, identify and quantitate estrone, estradiol-17B and estriol from blood of individual turkey hens. The intravaginal tetrazolium method was used to estimate the biological potencies of the three fractions separated chromatographically. The data show that estrone is the main estrogen present in heart blood of laying turkeys, with lesser amounts of estradiol-17B and estriol. Data are presented on the accuracy, precision, sensitivity, and specificity of the methodology used.

In vitro production of cattle embryos from calf oocytes

Experiments were carried out to develop an improved IVF system for prepubertal goat oocytes matured in vitro. Cumulus oocyte complexes (COC) were obtained by slicing ovaries from slaughtered prepubertal goats. Oocytes were matured in TCM199 supplemented with 20% estrous goat serum (EGS) + 10 μ/mL FSH + 10 μg/mL LH + 1 μg/mL estradiol 17β for 27 h at 38.5°C in 5% CO2 in air. In Experiments 1 and 2, freshly ejaculated spermatozoa were capacitated in 1 of 3 media: TALP/H, modified Defined Medium (mDM) and mH-M199 with 50 μg/mL heparin for 45 min. Matured oocytes were fertilized in TALP, mDM or mH-M199 in Experiment 1 and in TALP in Experiment 2. In Experiment 3, three media were used for sperm capacitacion and fertilization: Treatment A (control group): spermatozoa were capacitated in mDM with 50 μg/mL heparin for 45 min and fertilized in TALP medium with 1 μg/mL hypotaurine; Treatment B: spermatozoa were capacitated in mDM with 50 μg/mL heparin + 388 μg/mL caffeine for 30 min and fertilized in TALP medium without hypotaurine; Treatment C: spermatozoa were capacitated in mDM with 50 μg/mL heparin for 45 min and fertilized in TALP medium with PHE (20 μM penicillamine, 10 μM hypotaurine and 2μM epinephrine). At 24 h post insemination, the ova were transferred to a granulosa cell monolayer, and early embryo development was evaluated until Day 8. In experiment 2, the results show, that mDM plus heparin for sperm capacitation and TALP medium with hypotaurine for oocyte fertilization provided the highest proportion of penetrated oocytes, both total number (79.6%) and normal fertilization (55.1%), whereas the use of caffeine (44.6 and 31.2%, total and normal fertilization rate, respectively) and PHE (31.8 and 20.6%, total and normal fertilization rate, respectively) as motility enhancers did not improve the results obtained in the control group (48.7% and 37.2%, total and normal fertilization rate, respectively). These were no differences for the results of morulae and blastocysts.

Pregnancies and live birth from in vitro fertilization of calf oocytes collected by laparoscopic follicular aspiration

Oocytes were recovered by laparoscopic aspiration from 3- to 8-week-old calves treated with follicle-stimulating hormone (FSH) followed by human chorionic gonadotropin (hCG) to induce follicular growth and oocyte maturation in vivo. Most of the recovered oocytes either had resumed meiotic maturation at the time of aspiration or were competent to undergo maturation during subsequent culture in vitro. Oocytes matured in vivo following FSH and hCG treatment underwent in vitro fertilization (70%) at rates not significantly different from those of control oocytes recovered from adult cow ovaries at abattoirs and matured in vitro (75%). Calf oocytes that were immature at aspiration exhibited lower fertilization rates after in vitro maturation (36%) but their rate of development to morulae and blastocysts did not differ from that of mature oocytes at aspiration. A total of 91% of the zygotes produced from calf oocytes developed to morula and 27% to blastocyst stages during 6 days of culture. The proportion developing to morulae was significantly higher (P<0.05) than that observed for zygotes resulting from in vitro maturation and fertilization of oocytes recovered from cow ovaries obtained at an abattoir and processed concomitantly (59% to morulae and 18% to blastocysts). Morulae or blastocysts developed from oocytes from 5 to 6-week-old calves, when transferred to synchronized recipient heifers, resulted in 2 confirmed pregnancies, one of which produced a single full-term live calf. The ability to produce embryos from oocytes recovered from newborn or prepubertal calves offers the potential for markedly reducing the generation interval in cattle, thereby substantially accelerating the rate of genetic gain that can be achieved through embryo transfer.

Developmental Capacity of Calf Oocytes

ABSTRACTOvaries were collected from slaughtered calves (4 month old) and examined for number and quality of fully grown oocytes. Capacity of oocytes for maturation and further development was analyzed. Mean number of oocytes per ovary was 120.3. Only 39% of all oocytes were in intact stages. After maturation for 24 h 60.8% reached the M 2 stage of meiosis. Percentages of oocytes that fertilized and cleaved after IVF were about 60 and 42%. The output of intact embryos on day 7 was 14.3%.