Fine structure of equine oocytes matured in vitro for 15 hours

Transmission electron microscopy (TEM) was used to evaluate the fine structure of equine oocytes cultured in vitro. Oocytes obtained by follicular aspiration were cultured for either zero or 15 hr. After treatment oocytes were processed either by light microsocopy (nuclear evaluation) or TEM (cytoplasmic evaluation). Those oocytes cultured for 15 hr were incubated in modified TCM 199 with 15% (v/v) mare serum (day of ovulation) at 39 ± 0.2°C. Evaluation using TEM revealed that cortical granules were present in all oocytes. However, zero-time oocytes contained few cortical granules, and these were scattered throughout the cytoplasm, whereas 15 hr oocytes contained numerous cortical granules primarily found in very close proximity to the oolemma. Further ultrastructural analysis of both groups revealed organelle structure similar to that previously described for in vivo matured equine oocytes. Evaluation of nucelar maturity (lacmoid stain) showed that 15 hr of culture resulted in significant numbers of oocytes at metaphase II (8/17; 47%). These data demonstrate that oocytes cultured for 15 hr in modified TCM 199 with 15% mare serum (day of ovulation) are mature with respect to nuclear configuration and cortical granule migration and, therefore, would be appropriate candidates for in vitro fertilization. © 1994 Wiley-Liss, Inc.     

In vitro fertilization of horse follicular oocytes matured in vitro

In vitro fertilizing ability of stallion spermatozoa was assessed using horse follicular oocytes matured in vitro. After collection, stallion spermatozoa were either: 1) washed and incubated in TALP medium with 3 mg/ml bovine serum albumin (BSA) and 10 micrograms/ml heparin for 4h, 2) washed and incubated in TALP with 3 mg/ml BSA for 3 h and cultured for a further 1 h with 1 mM caffeine and 5 mM dbcAMP, 3) washed and incubated in TALP medium with 3 mg/ml BSA at pH 7.9-8.2 for 2-4 h, or 4) diluted and incubated in TALP medium with 10 mg/ml BSA and 7.14 microM calcium ionophore A 23187 for 5-10 min followed by washing. After a given pretreatment, suspensions were diluted into B2 medium to a concentration of 5 x 10(6) sperm/ml and co-incubated with oocytes for 12 h or 24-48 h. In the ionophore-treated group, 18 of 54 oocytes (33%) were fertilized by 12 h, and 11 of 45 (24%) cleaved by 24-48 h. Evidence of fertilization was not found in the oocytes incubated with spermatozoa from other treatment procedures.     

Embryo development rates after transfer of oocytes matured in vivo, in vitro, or within oviducts of mares

Objectives of the present study were to use oocyte transfer: 1) to compare the developmental ability of oocytes collected from ovaries of live mares with those collected from slaughterhouse ovaries; and 2) to compare the viability of oocytes matured in vivo, in vitro, or within the oviduct. Oocytes were collected by transvaginal, ultrasound-guided follicular aspiration (TVA) from live mares or from slicing slaughterhouse ovaries. Four groups of oocytes were transferred into the oviducts of recipients that were inseminated: 1) oocytes matured in vivo and collected by TVA from preovulatory follicles of estrous mares 32 to 36 h after administration of hCG; 2) immature oocytes collected from diestrous mares between 5 and 10 d after aspiration/ovulation by TVA and matured in vitro for 36 to 38 h; 3) immature oocytes collected from diestrous mares between 5 and 10 d after aspiration/ovulation by TVA and transferred into a recipient's oviduct <1 h after collection; and 4) im mature oocytes collected from slaughterhouse ovaries containing a corpus luteum and matured in vitro for 36 to 38 hours. Embryo development rates were higher (P < 0.001) for oocytes matured in vivo (82%) than for oocytes matured in vitro (9%) or within the oviduct (0%). However, neither the method of maturation nor the source of oocytes affected (P > 0.1) embryo development rates after the transfer of immature oocytes.     

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 transfer in sheep embryos: The effect of cell-cycle coordination between nucleus and cytoplasm and the use of in vitro matured oocytes

The developmental ability of nuclear transplant sheep embryos derived from in vitro matured oocytes was studied by controlling cell-cycle coordination of donor embryonic nuclei and recipient cytoplasts. Oocytes were recovered from nonatretic antral follicles of adult sheep ovaries and cocultured with follicle shells in M199-based medium supplemented with gonadotrophins in a nonstatic system. Effective activation of IVM oocytes was obtained by applying two pulses of 1.0 kv/cm 22 min apart in inositol-based electroporation medium to oocytes matured in vitro for 27 hr. Synthesis of DNA (S-phase) was assessed by BrdU incorporation and was found to initiate around 5 hpa (hours postactivation) and to persist until 18 hpa. Mitotic blastomeres were induced by treating embryos with 6.6 μM nocodazole for 14–17 hr. Three types of transfers were compared directly: “S → S,” early embryonic nuclei (mostly in S-phase) were transferred to presumptive S-phase cytoplasts; “M → MII,” nocodazole-treated embryonic nuclei (most in M-phase) were transferred to MII-phase cytoplasts; and control (S → MII), conventional nuclear transfer of fusion and activation simultaneously. The results showed that fusion and recovery rates did not differ among the three groups. However, after 6 days of in vivo culture, the morula and blastocyst formation rate was significantly higher for the M → MII combination than for the control (28.3% vs. 8.1%, P < 0.05), while no significant differences in developmental rate were observed between S → S and M → MII, and between S → S and control, though developmental rate was also increased for S → S compared to control (20.9% vs. 8.1%, P > 0.05). Transfer of blastocysts derived from M → MII or S → S nuclear cytoplasmic reconstitution to synchronized recipient ewes resulted in the birth of lambs. These data suggest that in vitro matured oocytes can support full-term development of nuclear transplant sheep embryos when the cell cycle of nucleus and cytoplasm is coordinated, and that M → MII nuclear transfer might be an efficient and simple way to improve the developmental competence of the reconstituted embryos. Mol. Reprod. Dev. 47:255–264, 1997. © 1997 Wiley-Liss, Inc.     

In vitro fertilization of sheep oocytes matured in vivo

Incubating washed ram spermatozoa in a modified Brackett's defined medium buffered with Hepes (DM-H) containing 20% of heat-inactivated sheep serum appears to be a reliable method of capacitating sperm for in vitro fertilization. Raising the Ca(++) concentration in the fertilization medium (DM-H-SS) to 10 mM stabilized the fertilization rate of various rams (2). This study was designed to determine if the developmental competence of the oocytes fertilized under such conditions was normal. Thirty-seven ewes, treated with progestagen sponges, were superovulated with porcine follicle stimulating hormone (pFSH: 16 mg). An intramuscular injection of gonadotropin releasing hormone (GnRH: 100 mug); given 24 to 26 h after sponge removal, induced the synchronization of ovulations 24 h later. Ovulated oocytes (n = 229) recovered with flushing of the oviducts were inseminated in vitro and 17 h later either fixed in acetic/alcohol (n = 115) to evaluate fertilization or transferred (n = 114) into 38 synchronized recipients (three oocytes/recipient) to evaluate their developmental competence. Of the fixed oocytes, 82.6% were fertilized and 61.7% were monospermic. Nineteen of the recipient ewes (50%) were pregnant at Day 18, and 16 ewes produced a total of 26 live young (mean: 1.63/ewe). The results showed a high efficiency of in vitro fertilization of ovulated oocytes in sheep following a pFSH-GnRH treatment and the in vivo developmental competence of oocytes fertilized in the presence of elevated Ca(++) concentration.     

First pregnancy and live birth from vitrified rabbit oocytes after intraoviductal transfer and in vivo fertilization

Intraoviductal oocyte transfer in combination with in vivo fertilization has arisen as an alternative method to induce pregnancies from cryopreserved oocytes in rabbits. In this study, offspring were obtained for the first time from vitrified rabbit oocytes using this technique. In all the experiments, recipients were artificially inseminated 9 hours before oocyte transfer. Cryopreserved (vitrified and slow-frozen) and noncryopreserved (fresh) oocytes were transferred into both oviducts, which were immediately closed using cyanoacrylate tissue adhesive to block the entry of the recipient's own oocytes. Three transferred group females that received vitrified oocytes became pregnant and delivered a total of nine live young naturally. The results revealed that there were no differences in the live birth rate between vitrified and slow-frozen oocytes (5.5% and 4.4%, respectively). When fresh oocytes were transferred, this rate increased to 19.2%, whereas in the control females (nontransferred) the rate of offspring obtained was 71.4%. This is the first reported result of the development to term of vitrified rabbit oocytes and suggests that an in vivo environment could help improve the results of oocyte cryopreservation.     

Effects of cooling ovaries before oocyte aspiration on meiotic competence of porcine oocytes and of exposing in vitro matured oocytes to ambient temperature on in vitro fertilization and development of the oocytes

Experiments were conducted to evaluate the effects of cooling porcine ovaries to low temperature (4 degrees C, 15 degrees C, 20 degrees C, 25 degrees C or 30 degrees C) for 1 h on the meiotic competence of their oocytes. Moreover, it was determined whether or not the exposure of in vitro matured oocytes to ambient temperature (20 degrees C, 25 degrees C or 30 degrees C) for 1 h affects the fertilization and developmental competence of the oocytes. There was no difference between the proportions of oocytes that underwent maturation to metaphase II when isolated from control ovaries held at 35 degrees C and ovaries exposed to 30 degrees C. However, the percentages of oocytes from ovaries exposed to 25 degrees C or less were significantly lower than those of oocytes from ovaries exposed to 30 degrees C and control ovaries. The proportions of total and normal fertilization of oocytes that had been exposed to 20 degrees C before in vitro fertilization (IVF) were significantly lower than those of control oocytes maintained at 38.5 degrees C. However, cooling in vitro matured oocytes had no effects on their cleavage and development to blastocysts after IVF. These data suggest that exposing porcine ovaries to a low temperature of 25 degrees C or less before aspiration of oocytes may adversely affect their subsequent in vitro maturation. It may be necessary to maintain the oocytes at a temperature of more than 25 degrees C during manipulation of oocytes for retaining the fertilizability of the oocytes.     

Cloned piglets born after nuclear transplantation of embryonic blastomeres into porcine oocytes matured in vivo

Nuclear transplantation in the pig is more difficult than in other domestic animals and only one embryonic nuclear transplantation (NT) pig has been born to date. In this study, reconstituted porcine embryos were produced by electrofusion of blastomeres from in vivo four-cell embryos to enucleated in vivo or in vitro matured (IVM) oocytes. Nuclear transfer using cumulus cells as nuclear donors was also conducted. When blastomeres were used as donors, the electrofusion rate was significantly higher in oocytes matured in vivo (91.5%) than in those matured in vitro (66.1%) (p < 0.01). After fusion, the NT embryos reconstituted from in vivo matured oocytes developed to blastocysts at a rate of 10.3% after culture in rabbit oviducts for up to 5 days, while only 5.9% of the NT embryos reconstructed from in vitro matured oocytes developed to blastocyst stage. Electrofusion rate of cumulus cell nuclei with enucleated IVM oocytes was lower (47.6%) and only 1.5% (2/136) of the reconstituted eggs developed in vitro to morula stage, and 1.9% developed to blastocysts when cultured in the ligated rabbit oviducts. Transfer of 94 embryos reconstructed by blastomere NT with in vivo matured oocytes to five synchronous recipients resulted in the birth of two cloned piglets. No piglet was born following transfer to two recipients of embryos (n = 39) derived from NT with in vitro matured oocytes. The results demonstrate that in vivo matured oocytes are better recipients than those matured in vitro for pig cloning.     

Developmental competence of in vivo and in vitro matured porcine oocytes after subzonal sperm injection

In vivo and in vitro matured porcine oocytes were fertilized by subzonal sperm injection (SUZI), and their subsequent development in vitro was examined to determine whether ooplasmic incompetence is the major cause of limited developmental ability of in vitro matured/fertilized porcine oocytes (Experiment 1). There was no significant difference in rates of fertilization (61% vs. 70%), monospermy (37% vs. 45%), and male pronuclear formation (77% vs. 61%) between in vivo and in vitro matured oocytes. Blastocyst formation rate was significantly lower for in vitro matured oocytes (11% vs. 42%; P < 0.001). Forty-six percent of in vivo matured oocytes cleaved to the 2-4 cell stage by 24 hr in culture after SUZI, compared with 3% of in vitro matured oocytes (P < 0.01). In experiment 2, in vitro development of in vitro matured oocytes with evenly and unevenly granulated cytoplasm were compared after SUZI to examine whether developmentally competent in vitro matured oocytes can be identified on the basis of morphological appearance. Most of the blastocysts obtained developed from oocytes with unevenly granulated cytoplasm (7/56 vs. 1/45; P > 0.05). Experiment 3 revealed that the proportion of oocytes with evenly granulated cytoplasm was originally low (11%) in the population of oocytes used for in vitro maturation, and it increased approximately 3-fold (36%; P < 0.001) after maturation. These results suggest that ooplasmic incompetence in porcine in vitro matured oocytes is the major cause of their limited developmental competence. Cytoplasmic maturation measured by male pronucleus formation does not directly reflect developmental competence of the oocytes. It was also shown that evenness of granulation of the cytoplasm is not a useful morphological indicator of developmental competence. © 1996 Wiley-Liss, Inc.     

Laparoscopic oviductal transfer of in vitro matured and in vitro fertilized bovine oocytes

The objective of this study was to obtain normal pregnancy following laparoscopic oviductal transfer of in vitro matured and fertilized bovine oocytes. Methods for in vitro maturation and in vitro fertilization were similar to those previously reported (1). Primary oocytes judged to be potentially viable were cultured for 26 h in modified TCM 199 supplemented with heat-treated fetal calf serum (20% v/v), 5mug/ml FSH (USDA-bFSH-B-1), and 1mug/ml estradiol 17-beta. Oocyte cumulus complexes were microscopically evaluated for maturation (first polar body formation) following a brief treatment with hyaluronidase. Mature oocytes were inseminated with heparin-treated spermatozoa and incubated at 39 degrees C under paraffin oil and moist 5% CO(2), 5% O(2), 90% N(2). In this work, 450 oocytes were recovered at slaughter from ovaries of 42 random cows of unknown reproductive status and 336 oocytes (74.7%) with compact cumulus were selected for culture. Of these, 322 (95.4%) matured in vitro. Of 218 inseminated oocytes, 198 (90.8%) were penetrated by sperm and 83 (38.1%) cleaved, with 102 (46.6%) of the embryos reaching four- to eight-cell stages. None of 40 oocytes not exposed to sperm and none of 30 oocytes inseminated with untreated sperm showed signs of activation. In a control experiment with hormones added, 105 of 115 (91.3%) oocytes matured in vitro and 20 of 105 (19.5%) cleaved following in vitro insemination. Laparoscopy was performed on four synchronized recipients under local anesthesia. A catheter containing three embryos in the two to four cell stages was passed through the operating channel of a direct viewing bronchoscope for deposition in the oviduct ipsilateral to the recipients developing corpus luteum while the fimbria and the mesovarium were manipulated with Semm's forceps. A normal term pregnancy confirmed in vitro fertilization and provides feasibility data for use of laparoscopic methodology developed in this work for testing viability of bovine oocytes and embryos. These results are encouraging for the application of in vitro maturation and in vitro fertilization for overcoming infertility in domestic and endangered species.     

Parthenogenetic development of activated in vitro matured bovine oocytes

Bovine oocytes matured in vitro for 26 hours were electrically stimulated 1) by a single pulse (Treatment A); 2) by 3 pulses 30 minutes apart (Treatment B); 3) by a single pulse followed by 5 minutes of incubation in the stimulation medium (Treatment C); or 4) by a single pulse at 27 hours of maturation (Treatment D). The oocytes were then cultured for up to 8 days to assess parthenogenetic activation and development. Each electrical stimulation consisted of a 60-mus square wave pulse of 2.5 or 3.6 kV/cm. Treatment A was less effective than the other treatments (P<0.05), activating 47 or 59% of oocytes at 2.5 or 3.6 kV/cm, respectively. However, there were no differences due to voltage nor among the other treatments, which activated 64 to 78% of the oocytes. The cleavage rate, 28 to 38%, was not affected by the activation treatment, but development to the 8-cell stage or beyond was greater after activation with the higher voltage. While the numbers of morulae or blastocysts resulting from any given treatment were too small to support meaningful statistical comparison, the results indicate that bovine parthenogenotes produced in vitro are capable of development to the blastocyst stage.     

In vitro fertilization and cleavage of in vivo matured bovine oocytes

The effect of the interval between onset of estrus and oocyte collection on in vitro fertilization (IVF) rates has been investigated. The oocytes were surgically collected 6-18 h (Group I), 19-24 h (Group II), 25-29 h (Group III) and 30-36 h (Group IV) after the beginning of estrus. Recognizable stages of nuclear maturation were identified in 54.9% of the oocytes used for IVF (5.9% at germinal vesicle, 31.4% at metaphase I, 17.6% at metaphase II); the other 45.1% were degenerate. Considerable between- and within-cow variation in oocyte morphology, oocyte maturation and IVF results was observed. The cverall fertilization and cleavage rates (to four-cell stages) were 26.5 and 6.0%, respectively. The fertilization rate increased as the interval between onset of estrus and collection increased and was optimal 30-36 h after onset. Thus, onset of estrus proved an effective means of timing oocyte collection for IVF.     

Embryonic development of in vitro matured and in vitro fertilized dog oocytes

In several studies, early cleavage stage canine embryos have been derived from in vitro fertilized oocytes cultured under various conditions. Despite these results, IVF protocols for canine oocytes have yielded low fertilization rates. In this study, Experiment I compared the effects of tissue culture medium (TCM)-199 supplemented with either (A) 1 microg/ml estradiol or (B) 20 microg/ml estradiol + 1 microg/ml human somatotropin (hST) on the in vitro nuclear maturation rate of canine oocytes. Meiotic progression to the metaphase I and II (MI/MII) stages at 72 hr of in vitro culture (IVC) was 10.2% (11/108) in medium A versus 14.1% (30/142) in medium B (P = 0.802). In Experiment II, cleavage rate was determined among oocytes recovered from ovaries of bitches at different reproductive stages. Oocytes (n = 888) were retrieved from bitches at the follicular, anestrous, and luteal stages and selected for high morphological quality. Oocytes were matured for 48 hr in TCM-199 supplemented with 1 microg/ml hST + 20 microg/ml estradiol. Oocytes were in vitro fertilized with fresh canine spermatozoa that had been isolated on a Percoll gradient, and were cultured in synthetic oviduct fluid (SOF) medium with bovine serum albumin (BSA; 4 mg/ml) up to 5 days in 5% CO(2) in air at 37 degrees C. A proportion of oocytes (30.6%) with identifiable nuclear material had cytoplasm penetrated or fertilized by sperm. The percentage of oocytes developing into early stage embryos was 10.1% (27/267). Although pronuclear development was observed to be higher for oocytes recovered at the follicular phase, the cleavage rate was similar among oocytes recovered from bitches at the follicular, anestrus, and luteal stages. There was no correlation between the proportion of capacitated or acrosome reacted spermatozoa and pronuclei formation and/or percent cleavage. It was concluded that TCM-199 supplemented with 1 microg/ml hST and estradiol (20 microg/ml) supports nuclear and cytoplasmic maturation of canine oocytes. In this study, meiotic competence was verified by the in vitro production (IVP) and development of embryos up to the 8 cell-stage. Furthermore, the results indicate that, under the described conditions and despite the influence of reproductive status of the bitch on the developmental competence of in vitro fertilized oocytes to the pronuclei stage, cleavage was independent of donor's reproductive estrous cycle stage.     

Effects of caffeine, cumulus cell removal and aging on polyspermy and embryo development on in vitro matured and fertilized ovine oocytes

The objectives of these studies were to determine the effects of cumulus cell removal and caffeine treatment on the development of in vitro matured ovine oocytes aged in vitro until until fertilization. Oocytes were denuded (DO) at 24 h post-onset of maturation (hpm), control cumulus oocyte complexes (COC's) and DO groups were fertilized at 24 hpm or returned to culture in the presence or absence of 10 mM caffeine and fertilized at 30 hpm. Removal of cumulus cells and aging both increased polyspermy, caffeine reduced this increase, however, with the exception of DO's (30 hpm) vs. COC's (24 hpm) the differences were not statistically significant. Aging significantly decreased cleavage between COC groups at 24 hpm and 30 hpm and caffeine did not affect this (68.4%, 73.4%, 74.0% respectively). In contrast, the frequency of cleavage was significantly reduced in the DO (24 hpm) group as compared to COC controls (45.6% vs. 68.4% (P < 0.05)), however, cleavage increased in the DO group on aging (73.4%) and this was not affected by caffeine (73.0%). The percentage of COC's and DO's developing to the blastocyst stage significantly decreased on aging, caffeine treatment of DO's prevented this (31.3%, 12.7% and 29.4% respectively (P < 0.05)) but had no effect on COC's (4.2% vs. 3.9%). Total cell numbers in blastocysts were not statistically different (92.4 ± 5.2, 84.7 ± 3.7 and 80.4 ± 5.8 (P > 0.05)). In summary caffeine treatment of aged COC's had no significant effect on the frequency of development, however, in aged DO's caffeine treatment statistically increased development to blastocyst and lowered the frequency of polyspermy.     

In vitro maturation of bovine oocytes in the presence of growth hormone accelerates nuclear maturation and promotes subsequent embryonic development

Regulatory effect of GH on follicular growth and development in the cow is well documented. The aim of this study was to investigate the role of GH on in vitro bovine oocyte maturation. Therefore bovine cumulus oocyte complexes (COCs) were cultured in M199 without FCS and gonadotropins and in the presence of 10, 100, or 1,000 ng/ml bovine GH (NIH-GH-B18). The COCs were incubated at 39°C in a humidified atmosphere with 5% CO₂ in air and nuclear stage was assessed after 2, 4, 8, 16, 22, and 24 hr of incubation using DAPI staining. To assess the effect of GH on developmental capacity of the oocytes, COCs were incubated in the presence of GH for 22 hr, followed by IVF and in vitro embryo culture. Cultures without GH served as controls. For subsequent development, the embryos were cultured in M199 supplemented with 10% FCS on a monolayer of BRL cells. Embryos were scored morphologically and the efficiency of the culture system was evaluated as (1) the percentage of cleaved embryos 4 days after IVF, (2) the percentage of blastocysts on day 9 expressed on the basis of the number of oocytes at the onset of culture, and (3) the percentage of hatched blastocysts on day 11 expressed on the basis of the total number of blastocysts present at day 9. GH (100 and 1,000 ng/ml) significantly accelerated nuclear maturation (P < 0.001). A 4 and 8 h the percentage of oocytes in GV stage after GH treatment (54% and 19%) was significantly lower than the control (64% and 41%). Similarly at 16 and 22 h the percentage of oocytes in MII stage was significantly higher in the GH-treated group; (58% and 77%) and (46% and 62%) for GH and control respectively. The number of oocytes in MII beyond 22 hr of culture did not differ; 100 and 1,000 ng/ml GH induced significant cumulus expansion (P < 0.05), which was not observed in the absence of GH. Addition of 100 and 1,000 ng/ml GH during maturation significantly (P < 0.01) enhanced subsequent cleavage rate from (64% and 67%) in control to (75% and 81%) in GH-treated group; embryonic development in terms of day 9 blastocyst formation was also significantly increased in the presence of GH (29% and 34%) compared to the control (18% and 24%). The hatchability of the blastocysts was not influenced by GH. From the present data, it can be concluded that GH present during IVM has a beneficial effect on subsequent development. © 1996 Wiley-Liss, Inc.     

Caffeine supplementation during IVM improves frequencies of nuclear maturation and preimplantation development of dromedary camel oocytes following IVF

Caffeine supplementation during oocyte IVM has been reported to improve preimplantation embryo development and the quality of in vitro–produced blastocysts in a range of species; but no studies have been done in camels. The present study investigated the effect of caffeine supplementation during dromedary camel oocyte IVM on nuclear maturation rates, IVF events, and subsequent preimplantation development. Cumulus–oocyte complexes obtained at slaughter were matured in vitro in caffeine supplemented medium either for 30 hours (caffeine 30 hours) or in the medium without caffeine supplement for 24 hours and then transferred to freshly prepared IVM medium supplemented with 10 mM caffeine for another 6 hours (caffeine 6 hours). Cumulus–oocyte complexes matured for 30 hours in the medium without caffeine supplement were used as a control. Matured oocytes were fertilized in vitro by epididymal spermatozoa of mature male camels collected from a local slaughterhouse. Eighteen hours after insemination, presumptive zygotes were cultured in modified KSOMaa medium for 7 days. Maturation and fertilization rates were significantly higher in the caffeine 6-hour group compared with the control group (P < 0.05), whereas IVM of oocytes in caffeine-supplemented medium for 30 hours did not affect these parameters (P > 0.05). Interestingly, IVM of oocytes in caffeine supplemented medium for 6 hours significantly (P < 0.05) increased the frequencies of blastocyst development by more than two-fold when compared with control (27.78% vs. 11.76%). In conclusion, culturing dromedary camel oocytes in maturation medium without caffeine for 24 hours and then in the medium supplemented with 10 mM caffeine for 6 hours during 30-hour IVM can significantly improve frequencies of nuclear maturation, fertilization rate, and subsequent preimplantation development.