Effect of LDL on the Mitochondrial Transmembrane Potential and ZP Protein Ubiquitination in Vitrified-warmed MⅡ Oocytes

The purpose of this study was to determine the effect of LDL addition on oocyte developmental rate,mitochondrial membrane potential and ZP protein ubiquitination level in MⅡ oocytes from vitrified-warmed GV oocytes.Mitochondrial membrane potentials were labeled with specific probe JC-1,and ZP protein samples of different treatment groups in MⅡ oocytes were analyzed by SDS-PAGE and Western blotting methods. The results showed that normal rate and in vitro maturation of MⅡ oocytes in the 10 mg/mL LDL group (71.92% and 69.86%) were significantly higher than those in control group (58.26% and 54.55%)(P<0.05),that were nearest to non-vitrified group.The mitochondrial membrane potential of MⅡ oocytes in the 10 mg/mL LDL group was significantly higher than those in control group and 1,20 mg/mL LDL groups (P<0.05).The ubiquitinated ZP1,ZP2 and ZP3 of MⅡ oocytes in non-vitrified group and LDL treated groups were labeled at 61,80 and 106 ku,respectively.The ubiquitinated ZPs (ZP1,ZP2 and ZP3) level of MⅡ oocytes in the 10 mg/mL LDL group was significantly higher than those in 1 and 20 mg/mL LDL groups (P<0.05),while significantly lower than that of non-vitrified group (P<0.05). In conlusion, LDL could improve the maturation rate, mitochondrial membrane potential and ubiquitinated ZPs level of MⅡ oocytes from vitrified-warmed GV oocytes.     

LDL对玻璃化冷冻解冻培养MⅡ期猪卵母细胞线粒体膜电位和透明带泛素化水平的影响

本试验旨在探究添加低密度脂蛋白（low density lipoprotein,LDL）对玻璃化冷冻解冻后MⅡ期猪卵母细胞发育率、线粒体膜电位及透明带泛素化水平的影响。采用线粒体膜电位特异性探针JC-1检测各处理组线粒体膜电位,并采用SDS-PAGE及Western blotting方法分析不同处理组MⅡ期猪卵母细胞透明带蛋白泛素化水平。结果显示,玻璃化冷冻法处理中,10 mg/mL LDL处理组MⅡ期卵母细胞正常率和成熟率（71.92%和69.86%）显著高于对照组（58.26%和54.55%）（P<0.05）,最接近未冷冻组。10 mg/mL LDL处理组MⅡ期卵母细胞线粒体膜电位显著高于对照组、1和20 mg/mL LDL组（P<0.05）。免疫印迹结果显示,未冷冻组和LDL处理组MⅡ期卵母细胞ZP1、ZP2及ZP3蛋白分别在61、80、106 ku发生不同程度的泛素化标记;10 mg/mL LDL处理组ZPs（ZP1、ZP2、ZP3）蛋白泛素化水平显著高于1和20 mg/mL LDL组（P<0.05）,但显著低于非冷冻组（P<0.05）。结果表明LDL可改善玻璃化冷冻解冻培养后MⅡ期猪卵母细胞成熟率、线粒体膜电位及透明带泛素化水平。     

Ca2+ Cascade and Meiotic Resumption of the Caprine Primary Oocyte

In this study, we investigated the fluctuations of concentration of intracytoplasmic free Ca(2+) during in vitro maturation of caprine primary oocytes and its role in meiotic resumption. Oocytes that were extracted from caprine ovaries were cultured and allowed to mature in vitro to determine their developmental stages including germinal vesicle (GV), germinal vesicle breakdown (GVBD), metaphase of the first meiotic division (MI) and metaphase of the second meiotic division (MII). Intracytoplasmic free Ca(2+) turnovers of caprine oocytes at these different developmental stages were measured using the calcium fluorescent probe Fura-2/AM (C(44)H(47)N(3)O(24)) to investigate the dynamics of cytosolic free Ca(2+) during in vitro maturation of oocytes and the role of Ca(2+) in inducing the initiation of meiotic resumption of oocytes. Moreover, the oocytes were cultured in Ca(2+) culture medium and Ca(2+)-free culture medium to examine the effect of extracellular Ca(2+) on the oocyte maturation. The results indicated that Ca(2+) concentrations at GV, GVBD, MI and MII stages were 78.06, 147.41, 126.97 and 97.73 nmol/l, respectively, and that 86.30% of oocytes remained at the GV stage and no oocyte developed to MII in Ca(2+)-free culture medium, and 1.1% of oocytes stayed at the GV stage and 83.5% of oocytes developed to MII in Ca(2+) culture medium. These results suggest that the occurrence of GVBD and cell cycle progression to MI and MII stages are closely related to Ca(2+), and that extracellular Ca(2+) performs a specific function for the initiation of meiotic resumption in caprine oocytes.     

The localization and function of p38α mitogen‐activated protein kinase in rat oocytes

P38α mitogen‐activated protein kinase (MAPK), which is a member of the canonical MAPK family, is activated in response to various extracellular stresses and plays a role in multiple cellular processes. In this study, we investigated the expression, subcellular localization and functional roles of p38α MAPK during the meiotic maturation of rat oocytes. We found that p38α MAPK phosphorylation (p‐p38α MAPK, indicative of p38α MAPK activation) was low at the germinal vesicle (GV) stage, increased 3 hr after germinal vesicle breakdown (GVBD) and maintained its maximum at metaphase I (MI) or metaphase II (MII). The p‐p38α MAPK mainly accumulated in the GV and had no obvious expression in the nucleus. From GVBD to MII, p‐p38α MAPK was distributed in the cytoplasm around either the chromosomes or the spindle. We used SB203580, an inhibitor of p38α MAPK, to investigate the possible functional role of p38α MAPK during rat oocyte meiotic maturation. Treatment of GV stage oocytes with 20 μM SB203580 blocked p‐p38α MAPK activity, and the spindles appeared abnormal. Additionally, the rate of GVBD after 3 hr of culture with 20 μM SB203580 (58.8%) was significantly inhibited compared with the control (82.5%, p < .05), and the polar body extrusion rate after 12 hr of culture with SB203580 was also significantly decreased compared with the control (40.1% vs 73.3%, p < .05). Taken together, these data indicate that p38α MAPK may play a vital role in rat oocyte meiotic maturation.     

Meiotic competence of mouse oocytes reconstructed by replacing the germinal vesicle with a male pronucleus and somatic nucleus

The present study examines the contribution of the nucleus to meiotic competence in mouse oocytes that were reconstructed using nuclear transfer. Three types of reconstructed oocytes were produced: MP‐GV, by transplanting the male pronucleus (MP) into germinal vesicle (GV) stage oocytes; 3T3‐GV, by transplanting the nucleus of a National Institute of Health (NIH) 3T3 cell into a GV stage oocyte; and 3T3‐MII, by transplanting the nucleus of an NIH 3T3 cell into a metaphase II (MII) stage oocyte. The fusion rates differed, but not significantly, in the MP‐GV, 3T3‐GV, and 3T3‐MII groups (77, 63, 56%, respectively). Then, meiotic competence was compared in MP‐GV, 3T3‐GV and non‐manipulated GV stage oocytes as a control. Nuclear envelope breakdown occurred in all the reconstructed oocytes, as well as the control ones. The percentage of first polar body extrusion differed between the MP‐GV (100%), 3T3‐GV (72%), and control (67%) groups. DNA staining with Hoechst 33342 revealed that in the MP‐GV‐group oocytes that had reached MII stage, the chromosomes were condensed and aligned in a regular array similar to the normal metaphase plate. By contrast, in 3T3‐GV group oocytes, the condensed chromosomes were irregularly scattered in the cytoplasm. These results suggest that the donor nucleus affects meiotic competence in reconstructed oocytes.     

In Vitro Compaction of Germinal Vesicle Chromatin is Beneficial to Survival of Vitrified Cat Oocytes

The immature cat oocyte contains a large-sized germinal vesicle (GV) with decondensed chromatin that is highly susceptible to cryo-damage. The aim of the study was to explore an alternative to conventional cryopreservation by examining the influence of GV chromatin compaction using resveratrol (Res) exposure (a histone deacetylase enhancer) on oocyte survival during vitrification. In Experiment 1, denuded oocytes were exposed to 0, 0.5, 1.0 or 1.5 mmol/l Res for 1.5 h and then evaluated for chromatin structure or cultured to assess oocyte meiotic and developmental competence in vitro . Exposure to 1.0 or 1.5 mmol/l Res induced complete GV chromatin deacetylation and the most significant compaction. Compared to other treatments, the 1.5 mmol/l Res concentration compromised the oocyte ability to achieve metaphase II (MII) or to form a blastocyst. In Experiment 2, denuded oocytes were exposed to Res as in Experiment 1 and cultured in vitro either directly (fresh) or after vitrification. Both oocyte types then were assessed for meiotic competence, fertilizability and ability to form embryos. Vitrification exerted an overall negative influence on oocyte meiotic and developmental competence. However, ability to reach MII, achieve early first cleavage, and develop to an advanced embryo stage (8–16 cells) was improved in vitrified oocytes previously exposed to 1.0 mmol/l Res compared to all counterpart treatments. In summary, results reveal that transient epigenetic modifications associated with GV chromatin compaction induced by Res is fully reversible and beneficial to oocyte survival during vitrification. This approach has allowed the production of the first cat embryos from vitrified immature oocytes.     

Effects of UCHL1 Inhibition on Porcine Oocyte Matuation in vitro,Zona Pellucida Ubiquitination and Polyspermy

This study was aimed to examine the effects of UCHL1 inhibition on porcine oocyte maturation in vitro, zona pellucida (ZP) ubiquitination and polyspermy. DAPI staining, Hoechst staining and SDS-PAGE methods were used to detect the matuation rate of porcine oocytes in vitro, the level of ubiquitination of zona pellucida (ZP) and polyspermy. The results showed that after different concentrations UCHL1 inhibitor (10, 20, 25 and 30 μmol/L, DMSO and control group) were added into maturation medium for culturing 46 h in vitro, the mature rate of control group was 86.22%, while the maturation rate of 30 μmol/L group was 15.30%, and the maturation rate of every treatment group had significant difference (P<0.05). Western blotting result showed that every group generated ubiquitin markers of ZP were about 61, 80 and 106 ku in different degree. According to the analysis of gray value, the result had significant difference (P<0.05). Conducting fertilization in vitro, the number of sperm adhered on oocyte ZP in control group was the most, the number of sperm running into oocyte was fewer, the number of sperm adhered on oocyte ZP with 30 μmol/L UCHL1 inhibitor was the fewest, and there was almost no sperm running into the oocyte. The results showed that UCHL1 inhibitor had an impact on maturation of porcine oocytes in vitro. With the higher concentration of UCHL1, the lower degree of ZP protein ubiquitinated, UCHL1 could regulate sperm attachment and polyspermy.     

抑制UCHL1对猪卵母细胞体外成熟、透明带泛素化及多精入卵的影响

试验旨在研究抑制泛素羧基末端水解酶-1（UCHL1）对猪卵母细胞体外成熟、透明带泛素化及多精入卵的影响。利用DAPI染色、Hoechst染色及SDS-PAGE等方法检测猪卵母细胞体外成熟率、透明带泛素化水平及多精入卵等情况。结果表明,添加不同浓度UCHL1抑制剂（10、20、25、30 μmol/L,二甲基亚砜（DMSO）及对照组）体外培养猪卵母细胞46 h后,对照组成熟率为86.22%,而30 μmol/L UCHL1抑制剂组的成熟率为15.30%,且各处理组间成熟率差异显著（P<0.05）;经Western blotting检测,各处理组的透明带在约61、80、106 ku处均发生不同程度的泛素标记,通过灰度值分析差异显著（P<0.05）;进行体外受精试验后,发现对照组透明带精子黏附数最多,精子入卵数较少,添加30 μmol/L UCHL1抑制剂组的透明带精子黏附数最少,几乎没有精子入卵。结果显示,UCHL1抑制剂对猪卵母细胞的体外成熟有一定影响,随着UCHL1抑制剂浓度的增加,透明带发生泛素化的程度逐渐降低,且UCHL1可调节透明带精子黏附及多精入卵。     

Intermediate Filament Keratin Dynamics During Oocyte Maturation Requires Maturation/M‐Phase Promoting Factor and Mitogen‐Activated Protein Kinase Kinase Activities in the Hamster

Research related to intermediate filaments in mammalian oocytes remains poorly advanced. We investigated keratin reorganization in oocytes during meiotic maturation using immunofluorescence, and examined effects of inhibitors for cdc2 and mitogen‐activated protein kinase kinase (MAPKK) on keratin assembly. In germinal vesicle (GV) oocytes (n = 26), large and oval‐shaped aggregates of non‐fibrillar keratin were found in the cortical ooplasm (designated as a ‘cortical’ pattern). The delicate network of keratin filaments was concentrated in the GV periphery. The large keratin aggregates began to divide into small fragments at the pro‐MI/MI stage (n = 22, designated as a ‘fragmented’ pattern). Some keratin fragments were occasionally broken down into several granules at the peripheral region. In the MII oocytes (n = 24), the filament network was extended over the ooplasm and numerous keratin granules were scattered across the oocyte (designated as a ‘granular’ pattern). After 12 h of incubation with roscovitine, 66.7% of the oocytes (20/30) were at the GV stage and showed a cortical pattern of keratin. After incubation with U0126, most oocytes (83.9%, 26/31) were at the MII stage; most of them (76.9%, 20/26) showed a fragmented pattern of keratin. The increasing complexity of keratin filament network from the GV to MII stages suggests a possible role in maintaining cell integrity under physical stress after ovulation. In fact, maturation/M‐phase promoting factor is necessary for such keratin reorganization, as is meiotic nuclear progression. In addition, MAPKK is involved in keratin reorganization from a fragmented pattern to a granular pattern.     

Influence of growth differentiation factor 9 and bone morphogenetic protein 15 on in vitro maturation of canine oocytes

Growth differentiation factor 9 (GDF‐9) and bone morphogenetic protein 15 (BMP‐15) have pivotal roles in oocyte development in many species, therefore the aim was to investigate these factors during in vitro maturation (IVM) of canine oocytes. Canine cumulus oocytes complexes (COCs) were cultured in six groups for 72 hr in a supplemented TCM199‐Hepes medium as (a) Control group; (b) GDF‐9 antibody (Ab); (c) BMP‐15 Ab; (d) recombinant human (rh) GDF‐9; (e) rh BMP‐15 or (f) rh BMP‐15 and GDF‐9. Data were evaluated by ANOVA. The Abs against GDF‐9 or BMP‐15 had a negative impact on meiotic development. Higher (p < 0.05) number of oocytes was arrested at GVBD stage when they were incubated with either GDF‐9 Ab (64.4 ± 2.1%) or BMP‐15 Ab (67.2%± 4.9%) in comparison to those in control group (32.4 ± 7.8%). In contrast, more (p < 0.05) oocytes in control group reached MI (37.4 ± 1.3%) and MII stages (10.2 ± 2.1%) comparing to those groups with GDF‐9 Ab (23.1 ± 4.7% MI; 0.0% MII) or BMP‐15 Ab (16.4 ± 2.4%MI; 5.9% ± 2.1 MII). Higher rates (p < 0.05) of oocytes in control group stayed still arrested at GV (19.9 ± 8.6%) in comparison to those cultured with either rhGDF‐9 (3.7 ± 0.4%) or rhBMP‐15 (10.9 ± 0.7%). However, there were no differences in MII rates between oocytes cultured with GDF‐9 (14.7 ± 3.1) and BMP‐15 (7.8 ± 2.5) separately. But, more oocytes (p < 0.05) reached the MII stage (20.5 ± 3.8%) compared to those exposed to each protein separately and to the control group. These results suggest that these proteins likely contribute to the meiotic development in dogs.     

Distribution of protein disulfide isomerase during maturation of pig oocytes

Oocyte maturation in mammals is characterized by a dramatic reorganization of the endoplasmic reticulum (ER). In mice, the ER forms accumulations in the germinal vesicle (GV) stage and distinctive cortical clusters in metaphase II (MII) of the oocyte. Multiple evidence suggests that this ER distribution is important in preparing the oocyte for Ca²⁺ oscillations, which trigger oocyte activation at fertilization. In this study, we investigated the time course and illustrated the possible functional role of ER distribution during maturation of porcine oocytes by immunostaining with protein disulfide isomerase (PDI). PDI forms clusters in the cytoplasm of oocytes. After immunostaining, PDI clusters were identified throughout the cytoplasm from the GV to metaphase I (MI) stage; however, at the MII stage, the PDI formed large clusters (1–2 µm) in the animal pole around the first polar body. PDI distribution was prevented by bacitracin, a PDI inhibitor. Our experiments indicated that, during porcine oocyte maturation, PDI undergoes a dramatic reorganization. This characteristic distribution is different from that in the mouse oocyte. Moreover, our study suggested that formation of PDI clusters in the animal pole is a specific characteristic of matured porcine oocytes.     

Changes of HCO3-/Cl- exchanger activity during meiotic maturation in Balb/c strain mouse oocytes and zygotes

Intracellular pH-regulatory mechanisms are acquired by growing mouse oocytes with meiotic competence, and these mechanisms become fully active when the oocytes develop to the germinal vesicle (GV) stage as shown in CF1 and Balb/c strains mice. On the other hand, there is some evidence showing that intracellular pH-regulatory mechanisms are inhibited at the stages of Metaphase I (MI) and II (MII) oocytes in the CF1 strain mouse and hamster. Since it has been shown that the intracellular pH regulatory mechanism can be functionally different among mouse strains (e.g., CF1, Balb/c), the aim of this study was to investigate the activity of HCO3-/Cl- exchanger (anion exchanger, AE), which protects cells against alkalosis during the meiotic maturation process, in the GV oocyte up to the pronuclear (PN) zygote derived from the Balb/c strain mouse. Intracellular pH (pHi) was recorded using a microspectrofluorometric technique during meiotic maturation stages. KSOM-based solutions were used as culture and recording solutions. AE activity was determined using a Cl- removal assay and was reported as the change in pHi per minute. AE activity was high in GV stage oocytes but was significantly inhibited at the MI and MII stages. AE activity was higher in the PN zygote stage. This activity was significantly inhibited in all oocyte and zygote stages by 4,4'-Diisocyanatostilbene-2,2'-disulfonic acid disodium salt. After alkalosis induction, the pHi of MI and MII stage oocytes did not completely recover; however, almost complete recovery occurred in the GV stage oocytes and PN zygotes. These results suggest that AE is inhibited during the meiotic maturation process in the Balb/c strain mouse.     

Expression of Perilipin 2 (PLIN2) in Porcine Oocytes During Maturation

Perilipins have been reported to limit the interaction of lipases with neutral lipids within the droplets, thereby regulating neutral lipid accumulation and utilization. This study aimed to identify the location and expression of PLIN1 and PLIN2 in porcine oocytes during maturation. Quantitative real‐time polymerase chain reaction (qRT‐PCR), immunostaining and Western blot methods were used to characterize the expression and distribution patterns of PLIN1 and PLIN2 in porcine oocytes. The results showed that PLIN1 was not detectable in porcine oocytes. PLIN2 and BODIPY 493/503‐detected neutral lipid droplets appeared identical distribution patterns and extensive colocalization in both GV and MII porcine oocytes. PLIN2 protein expression was higher in GV oocytes than that in MII oocytes (p < 0.05), although PLIN2 mRNA expression was similar in both groups. These findings suggested that PLIN2 was a major lipid droplet‐associated protein in porcine oocytes.     

Effect of vitrification at different meiotic stages on epigenetic characteristics of bovine oocytes and subsequently developing embryos

Vitrification by the Cryotop method is frequently used for bovine oocyte cryopreservation. Nevertheless, vitrified oocytes still have reduced developmental competency compared with fresh counterparts. The objective of this study was to compare the effect of vitrification either at the germinal vesicle (GV) stage or at the metaphase II (MII) stage on epigenetic characteristics of bovine oocytes and subsequently developing embryos. Our results demonstrated that vitrification of oocytes at each meiotic stage significantly reduced blastocyst development after in vitro fertilization (IVF). However, vitrification at the GV stage resulted in higher blastocyst development than did vitrification at the MII stage. Irrespective of the meiotic stage, oocyte vitrification did not affect 5-methylcytosine (5mC) immunostaining intensity in oocyte DNA. However, at both stages, it caused a similar reduction of 5mC levels in DNA of subsequently developing blastocysts. Oocyte vitrification had no effect on the intensity of H3K9me3 and acH3K9 immunostaining in oocytes and subsequent blastocysts. The results suggest that irrespective of meiotic stage, oocyte vitrification alters global methylation in resultant embryos although such alteration in the oocytes was not detected. Oocyte vitrification might not influence histone acetylation and methylation in oocytes and resultant embryos. Vitrification at the immature stage was more advantageous for blastocyst development than at the mature stage.     

Exposure to L-Ascorbic Acid or α-Tocopherol Facilitates the Development of Porcine Denuded Oocytes from Metaphase I to Metaphase II and Prevents Cumulus Cells from Fragmentation

It is known that alpha-tocopherol (vitamin E) and L-ascorbic acid (vitamin C) can modulate many biochemical processes intracellularly or extracellularly as antioxidants. The objective of the present study was to investigate the effects of alpha-tocopherol and L-ascorbic acid on porcine oocyte meiotic maturation, viability and the functions of cumulus cells. In two independent experiments, porcine oocytes with or free from cumulus cells were exposed to different levels of alpha-tocopherol (0, 10, 100 and 200 microM) or L-ascorbic acid (0, 50, 250 and 750 microM). Cumulus expansion, cumulus cell DNA fragmentation, meiotic maturation and degeneration of oocytes were assessed 48 h after in vitro culture. The results showed that: (1) neither alpha-tocopherol nor L-ascorbic acid influenced cumulus expansion but both prevented cumulus cell DNA fragmentation. (2) Alpha-tocopherol lowered the percentage of denuded oocytes (DOs) arrested at germinal vesicle stage (GV). Among the oocytes undergoing germinal vesicle breakdown (GVBD) proportion, fewer DOs treated by alpha-tocopherol were at metaphase I (MI) and more at metaphase II (MII). L-ascorbic acid caused lower percentage of DOs arrested at GV stage and higher percentage of DOs undergoing GVBD, especially at MII. The influences of alpha-tocopherol and L-ascorbic acid were not obvious in cumulus-enclosed oocytes (CEOs). (3) Both vitamins compromised the viability of CEOs and DOs. These results indicate that exposure to alpha-tocopherol or L-ascorbic acid promotes the development of porcine DOs from MI to MII and prevents cumulus cell DNA fragmentation at certain levels, especially 10 microM alpha-tocopherol or 250 microM L-ascorbic acid.     

Kid depletion in mouse oocytes associated with multinucleated blastomere formation and inferior embryo development

This study investigated the knockdown (KD) of Kid on maturation developmental competence and multinucleation of mouse germinal vesicle (GV) oocytes after parthenogenetic activation. Data revealed that Kid messenger RNA (mRNA) was expressed in GV and MII stage oocyte and 1‐ and 2‐cell embryos. Additionally, Kid mRNA expression in the Kid KD group decreased by nearly 46% compared to the control small interfering RNA (siRNA) groups. The rate of multinucleated embryos in the Kid KD group (52.4%) was significantly higher (P < 0.05) than the control siRNA group (4.7%). Finally, the developmental rates were significantly lower in the Kid siRNA group at > 4‐cell stage (28.6% vs. 53.5%) and the blastocyst stage (2.4% vs. 23.3%) compared to the control siRNA groups. Suppression of Kid using siRNA caused multinucleation in early embryos with high frequency and it may increase 2‐ to 4‐cell arrested embryos and reduce the developmental competence to blastocyst.     

Oocyte holding in the Iberian red deer (Cervus elaphus hispanicus): Effect of initial oocyte quality and epidermal growth factor addition on in vitro maturation

Current in vitro embryo production protocols in the Iberian red deer (Cervus elaphus hispanicus) need to be optimized; oocyte harvesting in situ followed by overnight holding could reduce the human effort and shipping costs. In our work, post‐mortem ovaries were retrieved, and the oocytes were harvested and allocated to G1 group (good quality) or G2 + G3 group (low quality). The oocytes were separately subjected to immediate in vitro maturation (IVM) or held overnight in a holding medium composed of 40% of TCM 199 with Earle's salts, 40% TCM 199 with Hanks' salts and 20% fetal bovine serum (FBS), at room temperature (16 hr). In vitro maturation was carried out in a basal medium supplemented or not with 50 ng/ml of epidermal growth factor (EGF). Our data showed that addition of EGF to the maturation medium increases the percentage of G1 oocytes reaching metaphase II (3.9% vs. 50%, basal vs. EGF; p < .001) and decreased their degeneration rate (69.9% vs. 22.2%, basal vs. EGF; p < .01) when oocytes were immediately matured. Overnight holding increased the meiotic competence of G1 oocytes (37.5% matured in basal medium) and EGF increased prophase arrest in G2 + G3 oocytes (16.1% vs. 38.8% in germinal vesicle [GV] stage in basal medium vs. EGF added medium; p < .05). Our data demonstrate that oocyte holding can be used in Iberian red deer oocytes. Interestingly, EGF addition increases the oocytes' meiotic competence in immediately matured oocytes but not after oocyte holding depending upon initial oocyte quality.     

Improvement of cumulus-free oocyte maturation in vitro and its application to microinsemination with primary spermatocytes in mice

In micromanipulation experiments using immature oocytes, final ooplasmic maturation is often compromised because the oocytes are usually first freed from their nurturing cumulus cells. This study was undertaken to determine whether cumulus-free in vitro maturation (IVM) in mice could be improved by modifying IVM medium having defined components. Cumulus-free germinal vesicle (GV) stage oocytes were subjected to IVM in either alphaMEM medium, TYH medium, or a 1:1 mixture of the two (termed TaM). TYH medium produced a better maturation rate (181/196; 92.3%) than alphaMEM (184/257; 71.6%). However, alphaMEM supported better embryo development to the morula/blastocyst stage than TYH following in vitro fertilization (93.3% vs. 76.5%) or parthenogenetic activation (82.4% vs. 60.4%). Mitochondrial distribution in MII oocytes was diffuse following IVM in alphaMEM, but was aggregated with TYH. The maturation promoting factor (MPF) activity in MII oocytes was significantly higher in TYH than in alphaMEM (P<0.05). Oocytes cultured in TaM had intermediate characteristics and essentially resembled in vivo matured oocytes, with the mitochondrial distribution pattern being most typical of that condition. The highest rate of development from GV oocytes to full-term fetuses following in vitro fertilization and embryo transfer to foster mothers (23.8%) was obtained using TaM. When this IVM system was applied to MI oocytes injected with spermatocytes, offspring were first obtained without cytoplasmic replacement at MII. Thus, optimization of the culture medium can considerably improve the quality of cumulus-free oocyte IVM in mice.