Effects of estrous cycle stage and transport temperature of ovaries on in vitro maturation of canine oocytes

Unlike other domestic animals, in vitro maturation (IVM) of canine oocytes still has limited success. The present study investigated the effects of estrous cycle stage and transport temperature of ovaries on in vitro maturation of canine oocytes. The donor bitches were categorized into three groups based on stage of estrus cycle: follicular (proestrus or estrous), luteal (diestrus) and anestrus. One ovary of each pair collected from 39 mature bitches was transported in Phosphate Buffer Saline (PBS) at 4 °C while the other was transported at 37 °C. A total of 1138 Grade I COCs obtained from all ovaries were grouped and matured in modified synthetic oviduct fluid (mSOF) supplemented with follicle stimulating hormone (FSH), luteinizing hormone (LH), essential and non-essential amino acids at 38.5 °C in a humidified 5% CO₂, 5% O₂, and 90% N₂ atmosphere for 72 h. The nuclear maturation rates were evaluated by aceto–orcein staining.Oocytes harvested from follicular and luteal ovaries have a significantly higher maturation rates (MI + MII) than the oocytes from anestrual ovaries in the 37 °C group (p < 0.05). However, oocytes harvested from anestrual ovaries transported at 4 °C had the highest maturation (MI + MII) rate, and the difference between anestrual and luteal ovary groups was significant (p < 0.05). The oocytes from anestrual ovaries transported at 4 °C have significantly higher maturation rates than those transported at 37 °C (p < 0.0001). However, the transport temperature (37 or 4 °C) did not significantly affect the maturation (MI + MII) rates of oocytes harvested from the luteal (p = 0.61) and follicular (p = 0.48) stage ovaries.It can be concluded from this study that (1) both transport temperature and transport temperature × estrus cycle stage interaction effected the maturation rates, while estrus cycle stage alone did not, and (2) transporting canine ovaries at 4 °C can improve in vitro maturation rates in oocytes harvested from anestrous ovaries.     

Mitochondrial distribution patterns in canine oocytes as related to the reproductive cycle stage

This study investigates the mitochondrial (mt) distribution in canine ovarian oocytes examined at recovery time, as related to the reproductive cycle stage, and in oviductal oocytes. Ovarian Germinal Vesicle (GV) stage oocytes were recovered from bitches in anestrous (A, n = 2), follicular phase (F, n = 4), ovulation (O, n = 2), early luteal (EL, n = 7) and mid/late luteal phase (MLL, n = 2). Oviductal GV, metaphase I (MI) or MII stage oocytes were recovered from six bitches between 56 and 110 h after ovulation. Mitochondria were revealed by using MitoTracker Orange CMTM Ros and confocal microscopy. In ovarian oocytes, three mt distribution patterns were found: (I) small aggregates diffused throughout the cytoplasm; (II) diffused tubular networks; (III) pericortical tubular networks. Significantly higher rates of oocytes showing heterogeneous mt patterns (II + III) were obtained from bitches in F (75%) and in O (96%) compared with bitches in A (31%; F vs. A: P < 0.05; O vs. A: P < 0.001), in EL (61%; O vs. EL: P < 0.01), or in MLL (0%; F vs. MLL: P < 0.05; O vs. MLL: P < 0.001). Fluorescence intensity did not vary according to mt distribution pattern except that it was lower in oocytes recovered in EL phase and showing small mt aggregations (P < 0.001). The majority of ovulated MII stage oocytes (79%) showed diffused tubular mt network. We conclude that mt distribution pattern of canine ovarian immature oocytes changes in relation to reproductive cycle stage and that patterns observed in oocytes recovered from bitches in periovulatory phases are heterogeneous and similar to those of in vivo matured oocytes.     

Possible involvement of Class III phosphatidylinositol-3-kinase in meiotic progression of porcine oocytes beyond germinal vesicle stage

Phosphatidylinositol-3-kinases (PI3Ks) play pivotal roles in meiotic progression of oocytes from metaphase I to metaphase II stage. Using a Class III-specific inhibitor of PI3K, 3-methyladenine (3MA), this study shows that Class III PI3K may be essential for meiotic progression of porcine oocytes beyond germinal vesicle (GV) stage. Treatment of immature porcine oocytes with 3MA for 22-42 h arrested them at the GV stage, irrespective of the presence or absence of cumulus cells. Furthermore, a significantly high proportion (60.9 ± 13.8%) of 3MA-treated oocytes acquired a nucleolus completely surrounded by a rim of highly condensed chromatin (GV-II stage). The GV-arresting effect of 3MA was, however, completely reversible upon their further culture in the absence of 3MA for 22 h. When cumulus-oophorus-complexes (COCs), arrested at the GV stage for 22 h by 3MA, were further cultured for 22 h in the absence of 3MA, 96.1 ± 1.5% of oocytes reached the MII stage at 42 h of IVM and did not differ from non-treated control oocytes with respect to their ability to fertilize, cleave and form blastocyst (P > 0.05) upon in vitro fertilization (IVF) or parthenogenetic activation (PA). These data suggest that 3MA efficiently blocks and synchronizes the meiotic progression of porcine oocytes at the GV stage without affecting their ooplasmic maturation in terms of post-fertilization/activation in vitro embryonic development. Our data also provide indirect evidence for the likely participation of Class III PI3K in meiotic maturation of porcine oocyte beyond the GV stage.     

The effects of EGF and IGF-1 on FSH-mediated in vitro maturation of domestic cat oocytes derived from follicular and luteal stages

The objective of this study was to evaluate the influence of epidermal growth factor (EGF) and insulin like growth factor-I (IGF-1) on the in vitro maturation of cat oocytes recovered from follicular and luteal stage ovaries. Oocytes from follicular (n = 580) and luteal (n = 209) stages were harvested and divided into four groups, which were cultured in FSH-mediated maturation medium supplemented with: (1) EGF alone (25 ng/mL); (2) IGF-1 alone (100 ng/mL); (3) EGF + IGF-1 (25 ng/mL EGF + 100 ng/mL IGF-I); or (4) no growth factor (control). The proportion of follicular stage oocytes reaching the metaphase II stage was significantly higher than that of oocytes obtained at the luteal stage in both control and study groups (p < 0.001). The percentages of oocytes reaching the metaphase II stage during the follicular period were 62.6% in control; 70.9% in EGF; 72.8% in IGF-1, and 78.1% in EGF + IGF-1 groups, whereas the respective values for gametes collected from luteal stage ovaries were 12.5%, 17.5%, 12.5%, and 16.9%. Additionally, the differences between the study and control groups were significant in the case of follicular stage oocytes. Finally, supplementing the maturation medium with EGF and/or IGF-1 significantly enhanced the meiotic maturation of oocytes recovered from follicular stage ovaries. The present study also demonstrated that the combination of EGF and IGF-I provides an additional or synergic effect on meiotic maturation of oocytes recovered from the follicular stage.     

Cumulus cell layers as a critical factor in meiotic competence and cumulus expansion of ovine oocytes

A critical stage in the optimization of in vitro maturation (IVM) is the selection of good quality oocytes. There exists a relationship between the size of the cumulus investment and the in vitro developmental ability of the cumulus–oocyte complex (COC), which provides a basis for the selection of the COCs. This study was designed to evaluate the effect of the number of cumulus cell layers which enclose the oocytes, on the in vitro maturation, cytoplasm quality and cumulus expansion of the ovine oocytes. Ovaries were obtained from an abattoir and transported to the laboratory within 1–2 h, at 37 °C. Oocytes (n = 535) were recovered by means of an aspiration pump (set at a flow rate of 10 mL H₂O/min), with a disposable 20 G needle attached. Oocytes were divided into four classes (classes I to IV – with more than 5, 3–4, 1–2 and no cumulus cell layers, respectively) and separately cultured in a TCM199 medium for 24 h. The morphology of oocytes was evaluated following in vitro culture (IVC) to assess cumulus expansion, cytoplasm quality (score I with a homogenous cytoplasm and II with granulated cytoplasm) and nuclear maturation stage. The percentage of maximum cumulus expansion for classes I to III oocytes were 53.0 ± 1.0, 36.3 ± 2.2 and 16.3 ± 1.8% respectively. The rate of meiotic resumption of oocytes in classes I to IV were 77.0 ± 2.7, 77.2 ± 1.9, 53.0 ± 2.1 and 2.7 ± 1.1% respectively. The proportion of oocytes with a cytoplasm quality I in oocyte classes I to IV were 62.8 ± 1.5, 59.4 ± 1.2, 36.4 ± 2.1 and 0.5 ± 1.1%, respectively. Results showed that the presence of ≥3 cumulus cell layers in the COC prior to IVM led to a better (p < 0.05) cumulus expansion, meiotic resumption and cytoplasmic maturation rate. Thus the morphological grading of immature ovine oocytes may be an appropriate selection criterion regarding their developmental ability.     

The presence of cumulus cells on nuclear maturation of sheep oocytes during in vitro maturation

This study was carried out to investigate the role of maturation by cumulus cells and the initial bond between the cumulus cells and the oocyte on nuclear maturation of sheep oocytes. Ovaries collected from the local abattoir were transported to the laboratory in saline at 30–35 °C within 1–3 h after collection. The oocytes of follicles, 2–6 mm in diameter, were recovered by aspiration and collected in a pre-incubated (at 38.6 °C, 5% CO₂, and 100% humidity) Hepes-modified TCM 199 medium. After preliminary evaluation, the oocytes with evenly granulated cytoplasm and which were surrounded with at least two layers of cumulus cells (good quality oocytes) were selected and subjected to culture in pre-incubated bicarbonate-buffered TCM 199 supplemented with 0.05 IU/ml recombinant human follicle stimulating hormone (rhFSH), 1 IU/ml human chorionic gonadotropin (hCG), and 1 μg/ml estradiol (OCM: oocyte culture medium). Before culturing, the selected oocytes were randomly divided into four treatment groups: Group 1, cumulus enclosed oocytes cultured in OCM; Group 2, denuded oocytes cultured in OCM; Group 3, denuded oocytes co-cultured with a cumulus cell monolayer in OCM; Group 4, denuded oocytes cultured in OCM in the presence of cumulus cells-conditioned medium. After an incubation period (26–27 h), the nuclear status of the oocytes in each treatment group was assessed using a 2% orcein stain. The rate of oocytes reaching the metaphase II (MII) stage (metaphase of second stage of meiosis division) was 82%, 5%, 11%, and 47% for Groups 1, 2, 3, and 4, respectively. The differences between groups were significantly (P < 0.05) different. The percentage of MII oocytes in Group 4 (47%) was higher than that obtained in Group 3 (11%), indicating a higher efficiency in a cumulus cell-conditioned medium, compared to the cumulus cells monolayer in providing the proper condition for sheep oocyte nuclear maturation. The results suggest the ability of sheep oocytes to resume meiosis in the absence of gap junctional communication (GJC) between the cumulus cells and oocyte being drastically interrupted while for optimum oocyte nuclear maturation, the intact physical contact between the oocyte and cumulus cells is essential.     

Cryopreservation of human failed maturation oocytes shows that vitrification gives superior outcomes to slow cooling

This study investigated whether failed maturation oocytes could be used to evaluate different cryopreservation procedures. A total of 289 failed maturation oocytes (GV and MI stages), obtained from 169 patients undergoing IVF treatment (mean age 33.84 ± 5.0) were divided into two different slow-cooling groups (1.5 mol/l 1,2-propanediol + 0.2 mol/l sucrose in either NaCl (group A) or choline chloride (ChCl) (group B) based cryopreservation solutions) and one vitrification group (15% ethylene glycol + 15% dimethyl sulphoxide). Survival rate, in vitro maturation (IVM) rate, fertilization and developmental rate of cryopreserved oocytes were assessed. Regardless of the stage at which cryopreservation was performed (GV + MI), the slow cooling with ChCl based medium always gave significantly lower survival rate than the slow cooling in NaCl based medium (p = 0.01) and vitrification (p < 0.001). An extended study also showed statistically reduced survival rate between slow-cooling NaCl based medium and vitrification (p < 0.05). Global results of in vitro maturation and fertilization showed worse results between both slow-cooling NaCl and ChCl based media versus vitrification. In conclusion, for oocytes that had failed to mature, vitrification gave better survival, maturation, fertilization and also cleavage rates than the slow-cooling protocols. Four cells embryos were obtained only from vitrified in vitro matured MI oocytes.     

The effect of relaxin supplementation of in vitro maturation medium on the development of cat oocytes obtained from ovaries stored at 4 °C

Relaxin is a member of the insulin-like family of hormones that promotes growth in a number of reproductive tissues, including the granulosa and theca cells. Cat oocytes collected from cold-stored ovaries remain capable of maturing in vitro, but the developmental ability of the oocytes decreases after 24 h of cold storage. To improve the developmental ability of cat oocytes from cold-stored ovaries, we investigated the effect of relaxin supplementation of maturation medium on their meiotic ability and subsequent development. Cat oocytes were collected from ovaries stored at 4 °C for one day and cultured in maturation medium supplemented with different concentrations (0, 10, 20, and 40 ng/ml) of relaxin for 24 h. They were then fertilized in vitro for 12 h with frozen-thawed spermatozoa. After in vitro fertilization, the zygotes were cultured in synthetic oviduct fluid medium for 8 days. There were no significant differences in the maturation rates and glutathione contents of oocytes among the groups, irrespective of relaxin supplementation. The rate of blastocyst formation from oocytes matured with 10 ng/ml relaxin (16.0%) was higher (p < 0.05) than that from oocytes matured without relaxin (5.9%). Our findings indicate that supplementation of 10 ng/ml relaxin into maturation medium may improve blastocyst formation of cat oocytes after in vitro fertilization.     

Cryopreservation of human failed maturation oocytes shows that vitrification gives superior outcomes to slow cooling

This study investigated whether failed maturation oocytes could be used to evaluate different cryopreservation procedures. A total of 289 failed maturation oocytes (GV and MI stages), obtained from 169 patients undergoing IVF treatment (mean age 33.84 ± 5.0) were divided into two different slow-cooling groups (1.5 mol/l 1,2-propanediol + 0.2 mol/l sucrose in either NaCl (group A) or choline chloride (ChCl) (group B) based cryopreservation solutions) and one vitrification group (15% ethylene glycol + 15% dimethyl sulphoxide). Survival rate, in vitro maturation (IVM) rate, fertilization and developmental rate of cryopreserved oocytes were assessed. Regardless of the stage at which cryopreservation was performed (GV + MI), the slow cooling with ChCl based medium always gave significantly lower survival rate than the slow cooling in NaCl based medium (p = 0.01) and vitrification (p < 0.001). An extended study also showed statistically reduced survival rate between slow-cooling NaCl based medium and vitrification (p < 0.05). Global results of in vitro maturation and fertilization showed worse results between both slow-cooling NaCl and ChCl based media versus vitrification. In conclusion, for oocytes that had failed to mature, vitrification gave better survival, maturation, fertilization and also cleavage rates than the slow-cooling protocols. Four cells embryos were obtained only from vitrified in vitro matured MI oocytes.     

Effect of the exposure to methyl-β-cyclodextrin prior to chilling or vitrification on the viability of bovine immature oocytes

The present study aimed to evaluate the effect of methyl-β-cyclodextrin (MβCD) as a cholesterol loader to change oocyte plasma membrane and increase its tolerance toward cryopreservation. The first and second experiments were conducted to investigate if MβCD could improve nuclear and cytoplasmic maturation after oocyte exposure to cold stress for 10 or 30 min, respectively. No differences (P > 0.05) in either experiment in the metaphase II (MII) rate of oocytes exposed to MβCD and cold stress; but these oocytes presented lower maturation rates than control groups. In the second experiment, a lower percentage of oocytes showed degenerated chromatin (P < 0.05) after exposure to 2 mg/mL of MβCD compared to the group exposed to 0 mg/mL. However, no differences among treatments were observed in cytoplasmic maturation. Groups exposed to cold stress demonstrated a lower (P < 0.05) capacity for embryonic development compared to the control groups. In the third experiment immature oocytes were exposed to MβCD and then, vitrified (cryotop). After warming, we observed that the ability to reach MII and chromatin degeneration were altered (P < 0.05) by MβCD. The blastocysts rate (P < 0.05) on D7 was higher in the 2 mg/mL MβCD group, but an identical finding was not observed on D8 (P > 0.05). Chromatin degeneration was higher in the vitrification groups. We conclude that MβCD improved nuclear maturation by reducing oocyte degeneration after cold stress or vitrification; however, more studies are required to clarify the usefulness of MβCD use in oocyte cryopreservation.     

Development to the blastocyst stage of immature pig oocytes arrested before the metaphase-II stage and fertilized in vitro

In vitro fertilization (IVF) and embryonic development of mature and meiotically arrested porcine oocytes were compared in the present study. After in vitro maturation (IVM) of cumulus-oocyte complexes for 48 h, 75.4% of them extruded a visible polar body (PB). Most of the oocytes with a first polar body (PB+ group) were at the metaphase-II (M-II) stage (91.4%). Most of the oocytes without a visible polar body (PB− group) appeared to be arrested at the germinal vesicle (GV) (41.6%) and metaphase-I (M-I) (34.0%) stages. After IVF of oocytes (day of IVF = Day 0), there was no difference between PB⁺ and PB⁻ groups in rates of sperm penetration, mono-spermy, however oocyte activation rate after penetration was greater in the PB+ than in the PB− group (P < 0.05). On Day 2, there was no difference between rates of embryos cleaved at the 2–4 cell stages in PB+ and PB− groups (42.1 ± 48.8% and 33.6 ± 2.1%, respectively). On Day 4, the rate of PB+ embryos developing beyond the 4-cell stage was greater than that of PB− embryos (P < 0.05, 31.7 ± 3.9% and 14.1 ± 1.5%, respectively), and PB+ embryos had more cells than the PB− embryos (P < 0.05, 8.3 ± 0.4 and 6.0 ± 0.8 cells, respectively). On Day 6, a greater proportion of PB+ embryos developed to the blastocyst stage than did PB− embryos (P < 0.05, 34.6 ± 2.4% and 20.7 ± 2.8%, respectively). However, when the GV oocytes of the PB− group were not included in recalculations, there was no difference in blastocyst rates between M-I arrested and M-II oocytes (35.3 and 34.6%, respectively). The number of blastomere nuclei in embryos obtained from the PB+ group (52.0 ± 2.5) was greater than that from the PB− group (P < 0.05, 29.1 ± 2.8). The proportion of degenerated parts in the blastocysts, as determined by morphological appearance, was the same in the PB+ and PB− groups. Although the quality of PB+ embryos was enhanced as compared with that of the PB− group, the proportion of inner cell mass and trophectoderm cells in PB+ and PB− blastocysts did not differ (1:1.9 and 1:2.2, respectively). Chromosome analysis revealed that PB+ blastocysts had more diploidy (P < 0.05, 69.7%) than did PB− blastocysts (44.0%), whereas PB− blastocysts had more triploid cells (P < 0.05, 34.0%) than did PB+ oocytes (8.4%). These results indicate that pig oocytes arrested before the M-II stage (M-I oocytes) undergo cytoplasmic maturation during maturation culture and have the same ability to develop to blastocysts after IVF as M-II oocytes, but some of them resulted in degeneration or delayed development with poor embryo quality.     

Utility of rapidly matured oocytes as recipients for production of cloned embryos from somatic cells in the pig

The present study was conducted to examine the utility of rapidly matured oocytes as recipients for production of porcine embryos reconstituted with adult skin fibroblasts and whether arrest of meiotic resumption of recipient oocytes at the germinal vesicle (GV) stage by dibutyryl cyclic AMP (dbcAMP) improves in vitro developmental rates after reconstruction. At 24 h of maturation in the medium, 36.3% of oocytes reached the metaphase II (MII) stage. At 30 h of maturation, the percentage (71.4%) of MII oocytes did not significantly differ from that (78.0%) at 42 h of maturation. When MII oocytes recovered at 24 h of maturation were used as recipients, 22/156 (14.1%) cloned embryos developing to the blastocyst stage was significantly (P < 0.05) higher than those of embryos reconstituted with oocytes collected at 30 h (5/168; 3.0%) and 42 h (13/217; 6.0%) of maturation. Culture of oocytes in medium containing 1 mM dbcAMP for 20 h maintained 72.9% in the GV stage, whereas only 15.0% of nontreated oocytes were in the GV stage (P < 0.05). The effect of dbcAMP was reversible. However, the treatment of recipient oocytes with dbcAMP did not affect the development of reconstructed embryos when compared with nontreated oocytes. These results indicate that rapidly matured oocytes are superior in their ability to support development of porcine reconstructed embryos; however, arrest of meiotic resumption of recipient oocytes at the GV stage by dbcAMP does not improve reconstructed embryo developmental rates.     

The influence of cumulus-oocyte complex morphology and meiotic inhibitors on the kinetics of nuclear maturation in cattle

This study evaluated whether pre-established morphological classes of bovine cumulus oocyte complex (COCs) differ in their kinetics of meiosis resumption after 4 h of incubation and whether the timing of COCs resumption of meiosis differed after a period of maintained meiotic arrest. Bovine COCs were aspirated from 2- to 5- mm follicles and classified according to the state of their cumulus cells and cytoplasm (Classes 1 to 3). Groups of 15 to 20 COCs were fixed at 0 h or after an incubation period of 4 h. In addition, COCs from Class 1 were first incubated for 4 h on a theca cell monolayer or in the presence of 2 microg/mL of cycloheximide, rinsed and then incubated in cycloheximide and theca cell-free medium for another 4 h. Oocytes then were fixed and evaluated for state of nuclear maturation. Results show that at 0 h, COCs from Class 3 have fewer oocytes at the GV stage than COCs from Class 1 and Class 2 (respectively 69.3+/-3.2 vs 88.8+/-3.4% and 86.9% GV+/-4.3% SEM; P < 0.05). After 4 h of incubation, all COCs classes show a significant decrease in the number of COCs at the GV stage. The COCs maintained in meiotic arrest and then incubated for 4 h resume meiosis faster than COCs incubated in cycloheximide and theca cell-free medium (19.4+/-2.5, 33.3+/-7.3 and 59.9+/-6.5% GV SEM, respectively). The COCs of Class 3 have fewer oocytes at the GV stage at the beginning of incubation than all other classes. The number of COCs at the GV stage after 4 h of incubation in cycloheximide and theca cell-free medium is not significantly different than those COCs incubated in the presence of theca cell monolayers for 24 h (58.8+/-6.5 vs. 56.4+/-6.4% SEM; respectively). Our results indicate that the ability of theca cells to maintain oocytes at the GV stage could be limited to those oocytes that were not committed or primed in vivo to resume maturation as indicated by their faster maturation kinetics.     

Effect of FSH on E2/GPR30-mediated mouse oocyte maturation in vitro

Mammalian oocyte restores meiosis can be stimulated by follicle-stimulating hormone (FSH) under normal physiological conditions. G-protein coupled receptor 30 (GPR30), an non-classical estrogen membrane receptor, has been widely reported in teleost oocyte maturation. However, it remains unknown whether GPR30 involves the role of FSH in mammalian cumulus expansion and oocyte maturation. Here, we used mouse cumulus-oocyte complexes (COCs) as a model to investigate how FSH affects the in vitro maturation of mouse oocytes mediated by 17β-estradiol (E₂)/GPR30 signaling. Our study reveals that FSH starts regulating mouse cumulus expansion precisely at 8 h in in vitro culture. ELISA measurement of E₂ levels in culture medium revealed that FSH activated aromatase to promote E₂ production in vitro in cultured mouse COCs. Moreover, the results of real-time quantitative PCR indicated that FSH-induced in vitro maturation of mouse oocytes was regulated by the estrogen-signaling pathway mediated by GPR30; FSH treatment markedly increased the mRNA expression of HAS2, PTGS2, and GREM1 in COCs. Exploration of the underlying mechanism suggested that E₂ produced by mouse COCs regulated the phosphorylation level of extracellular signal-regulated kinase 1/2 (ERK1/2) through GPR30 and thereby promoted mouse cumulus-cell expansion and oocyte maturation. In conclusion, our study reveals that FSH induced estrogen production in mouse COCs through aromatase, and that aromatase/GPR30/ERK1/2 signaling is involved in FSH-induced cumulus expansion.     

Influence of caffeine pretreatment on biphasic in vitro maturation of dog oocytes

Phosphodiesterase (PDE) inhibitors have been utilized for in vitro maturation (IVM) of oocytes to manipulate the meiotic resumption and progression. Premature chromatin condensation and DNA replication of the oocytes, immediately after the decrease in the cAMP level, are the difficulties in canine IVM. Caffeine, a nonselective competitive PDE inhibitor, due to its structural similarity to adenosine molecule maintains the cAMP level by occupying PDE enzymes such as PDE-3A inside the oocyte and PDE-4 and PDE-5 in the cumulus cells. In this study, the effects of 12-hour caffeine pretreatment in a biphasic IVM protocol were assessed on maturation rates of canine oocytes. Sixty hours of culture after a 12-hour of 10 mM caffeine pretreatment resulted in 16.9% ± 2.4 of the oocytes reaching metaphase II stage (MII) and 25.9% ± 5.2 degeneration rate compared with the control group with 2.2% ± 2.2 MII and 37.6% ± 4.3 degeneration rates (P < 0.05). Caffeine pretreatment induced higher mitogen-activated protein kinases (MAPK1 and MAPK3) phosphorylation and maturation-promoting factor activity at 12 hours and activated MAPK1 and maturation-promoting factor at 48 hours after culture in cumulus-oocyte complexes (COCs) compared with the control group (P < 0.05). Fresh canine COCs were also analyzed before IVM using brilliant cresyl blue (BCB) staining. Oocytes showed difference in meiotic resumption (MI-MII) (BCB+ = 16.11% ± 5.5, BCB− = 9.86% ± 5.0; P < 0.05) after 60 hours of culture following 12-hour caffeine pretreatment. The BCB+ canine oocytes had higher MII rate than the BCB− group under caffeine pretreatment (10.2% ± 2.9 vs. 1.1% ± 1.1, respectively; P < 0.05). Results indicated that 12-hour caffeine pretreatment of canine COCs improves the MII maturation rates at 72 hours and BCB+ oocytes have higher competency in vitro for nuclear maturation.     

Effect of serum albumin supplementation on in vitro capacitation and fertilization of caprine oocytes

The aim of the investigation was to study the effect of purity and the type of serum albumin on in vitro fertilization (IVF) and cleavage rate of in vitro matured goat oocytes. Ovaries were collected from the local abattoir and transported within 4 h to the laboratory in warm saline (37 °C) containing 100 IU penicillin-G and 100 μg streptomycin sulfate per ml. A total of 2509 cumulus oocyte complexes (COCs) were collected from 1313 ovaries. Oocytes were matured in TCM-199 medium containing FSH (5 μg/ml), LH (5 μg/ml) and estradiol-17β (1 μg/ml), supplemented with 20% fetal bovine serum at 38.5 °C and 5% CO₂ in an incubator under humidified air for 27 h. After 27 h of in vitro maturation (IVM), oocytes were denuded, washed and randomly divided into 4 groups. Group 1 consisted of in vitro matured oocytes (n = 627) co-incubated with sperm in a 50 μl drop of TALP medium containing a 6 mg/ml crystalline bovine serum albumin (BSA) fraction V and 10 μg/ml heparin. Group 2 was comprised of in vitro matured oocytes (n = 470), co-incubated with sperm in a 50 μl drop of TALP medium containing 3 mg/ml crystalline BSA fraction V, 10% estrous goat serum and 10 μg/ml heparin. Group 3 was comprised of in vitro matured oocytes (n = 489) co-incubated with sperm in a 50 μl drop of TALP medium containing a 6 mg/ml fatty acid free BSA and 10 μg/ml heparin. Group 4 consisted of in vitro matured oocytes (n = 422) co-incubated with sperm in a 50 μl drop of TALP medium containing 20% estrous goat serum and 10 μg/ml heparin. After 18 h of co-incubation, the oocyte–sperm mixture was washed in the culture medium 15–20 times and cultured in 50 μl EDM. Cleavage of the in vitro fertilized oocytes were recorded 48 h post-insemination under an inverted phase contrast microscope. The average oocyte recovery rate/ovary and maturation rate was 1.91% and 80.03%, respectively. The cleavage rate in Group 1, Group 2, Group 3 and Group 4 was 1.59%, 8.93%, 11.86% and 35.30%, respectively. It could be concluded that the use of fatty acid free albumin resulted in a significantly higher (P < 0.05) cleavage rate, compared to unmodified albumin, and the supplementation of 20% estrous goat serum in the fertilization medium, significantly (P < 0.05) increased the cleavage rate of in vitro matured goat oocytes, compared to defatted albumin.     

Nuclear maturation and embryo development of porcine oocytes vitrified by cryotop: Effect of different stages of in vitro maturation

The present study was designed to evaluate the viability, meiotic competence and subsequent development of porcine oocytes vitrified using the cryotop method at different stages of in vitro maturation (IVM). Cumulus–oocyte complexes (COCs) were cultured in IVM medium supplemented with 1 mM dibutyryl cAMP (dbcAMP) for 22 h and then for an additional 22 h without dbcAMP in the medium. Germinal vesicle (GV), germinal vesicle breakdown (GVBD), metaphase I (MI), anaphase I/telophase I (AI/TI) and metaphase II (MII) were found to occur predominantly at 0–22, 26, 32, 38 and 44 h of IVM, respectively. Oocytes were exposed to cryoprotectant (CPA) or vitrified after different durations of IVM (0, 22, 26, 32, 38 and 44 h). After CPA exposure and vitrification, surviving oocytes that were treated before completion of the 44 h maturation period were placed back into IVM medium for the remaining maturation period, and matured oocytes were incubated for 2 h. CPA treatment did not affect the viability of oocytes matured for 26, 32, 38 or 44 h, but significantly decreased survival rate of oocytes matured for 0 or 22 h. CPA treatment had no effect on the ability of surviving oocytes to develop to the MII stage regardless of the stage during IVM; however, blastocyst formation following PA was severely lower (P < 0.05) than that in the control. At 2 h post-warming, the survival rates of oocytes vitrified at 26, 32, 38 and 44 h of IVM were similar but were higher (P < 0.05) than those of oocytes vitrified at 0 or 22 h of IVM. The MII rates of surviving oocytes vitrified at 0 and 38 h of IVM did not differ from the control and were higher (P < 0.05) than those of oocytes vitrified at 22, 26 or 32 h of IVM. After parthenogenetic activation (PA), both cleavage and blastocyst rates of vitrified oocytes matured for 22, 26, 32, 38 and 44 h did not differ, but all were lower (P < 0.05) than those matured 0 h. In conclusion, our data indicate that survival, nuclear maturation and subsequent development of porcine oocytes may be affected by their stage of maturation at the time of vitrification; a higher percentage of blastocyst formation can be obtained from GV oocytes vitrified before the onset of maturation.     

Porcine nuclei in early growing stage do not possess meiotic competence in matured oocytes

To determine whether the nuclei of early growing stage porcine oocytes can mature to the MII stage, we examined meiotic competence of nuclei that had been fused with enucleated GV oocytes using the nuclear transfer method. In vitro matured oocytes were enucleated and then fused with early growing oocytes (30-40 μm in diameter) from 5 to 7-wk-old piglets using the hemagglutinating virus of Japan (HVJ). Reconstructed oocytes were cultured for 24 h to the MII stage. Although these oocytes extruded the first polar body, they did not contain normal haploid chromosomes, and the spindles were misaligned or absent at the metaphase II (MII) stage. Furthermore, maturation promoting factor (MPF) activity levels were low in oocytes reconstructed with early growing oocytes at metaphase I (MI) and MII. In contrast, mitogen-activated protein kinase (MAPK) activity was detected between the MI and MII stages, although at slightly lower levels. In conclusion, the nuclei of early growing oocytes did not accomplish normal meiotic division in matured oocytes due to misaligned or absent spindle formation.     

Effect of ammonium during in vitro maturation on oocyte nuclear maturation and subsequent embryonic development in pigs

The effects of ammonium in a chemically defined maturation medium on oocyte nuclear maturation and subsequent embryonic development of pigs after in vitro fertilization (IVF) and parthenogenetic activation (PA) were examined. Cumulus–oocyte complexes were matured in Purdue Porcine Medium (PPM) supplemented with 0 mM, 0.02 mM, 0.2 mM, 2 mM, or 20 mM ammonium chloride, or TCM199 with 10% porcine follicle fluid (TCM + pFF; positive control) at 38.7 °C in 7% CO₂ in air for 40–44 h. No significant difference (P > 0.05) in nuclear maturation was found between oocytes matured in TCM + pFF or PPM with 0 mM, 0.02 mM and 0.2 mM ammonium chloride. However, nuclear maturation was decreased (P < 0.05) in oocytes matured in PPM with 2 mM or 20 mM ammonium. After IVF, oocytes matured in PPM with 20 mM ammonium resulted in embryos with reduced (P < 0.05) embryonic cleavage and blastocyst development than all other treatment groups. After PA, oocytes matured in PPM with 20 mM ammonium resulted in embryos with lesser (P < 0.05) embryonic cleavage compared to TCM + pFF. However, PA embryos derived from oocytes matured in PPM with both 2 mM and 20 mM ammonium had reduced (P < 0.05) blastocyst development compared with TCM + pFF. These results demonstrate the detrimental effect of ammonium during in vitro oocyte maturation on nuclear progression to metaphase II. Additionally, the presence of ammonium during in vitro maturation negatively influences subsequent embryonic development, although PA embryos appear to be more sensitive to the negative effects of ammonium during oocyte maturation than do IVF embryos.     

Is it best to cryopreserve human cumulus-free immature oocytes before or after in vitro maturation?

Freezing unfertilized oocytes is an option for females without a partner, either to preserve their fertility prior to sterilizing cancer treatment or for social reasons. Our study considered whether it is best to freeze immature human oocytes at the germinal vesicle (GV) stage, prior to in vitro maturation (IVM) or at metaphase-II (M-II), after IVM. Sibling GV-stage oocytes from stimulated ICSI cycles were allocated to freezing either prior to (n = 109) or after (n = 107) IVM. Cumulus-free oocytes were cryopreserved using a choline-substituted slow-freezing protocol and matured in a defined medium, with analysis of chromatin, microtubules, and microfilaments by three-dimensional imaging. Cryopreserved oocytes were compared with oocytes matured in vitro but never frozen (n = 114). Survival was similar between oocytes frozen before or after IVM (69.7% vs. 70.5%). Polar body extrusion after IVM was lower in oocytes frozen at the GV stage versus those matured and then frozen (51.3% vs. 75.7%) or not frozen (75.4%). Stratification by patient age (<36 and ?36 year) showed no difference in oocyte survival or maturation. Oocytes frozen as GVs showed elevated proportions of spontaneous activation (with or without polar body), an effect augmented by patient age. Spindle and chromosome configurations were disrupted to similar extents in both groups of frozen oocytes, with no further detrimental effect of patient age. The length, width, and volume of bipolar M-II spindles were comparable in all three groups. When frozen as GVs, oocytes exhibited decreased maturation and increased spontaneous activation, suggesting that it is best to freeze oocytes at M-II.