High survival rate of bovine oocytes matured in vitro following vitrification

Improving pregnancy rates associated with the use of cryopreserved human oocytes would be an important advance in human assisted reproductive technology (ART). Vitrification allows glasslike solidification of a solution without ice crystal formation in the living cells. We have attempted to improve the survival rates of oocytes by a vitrification technique using bovine models. In vitro matured oocytes with or without cumulus cells were vitrified with either 15.0% (v/v) ethylene glycol (EG) + 15% (v/v) dimethylsulfoxide (DMSO) + 0.5 M sucrose or 15% (v/v) EG + 15% (v/v) 1,2-propanediol (PROH) + 0.5 M sucrose, using 'Cryotop' or 'thin plastic sticker', respectively. The oocyte survival rates after vitrifying-warming, and the capacity for fertilization and embryonic development were examined in vitro. The rate of embryonic development to blastocyst was significantly higher (P<0.05) in the oocytes vitrified with 15% (v/v) EG + 15% (v/v) PROH + 0.5 M sucrose than in the oocytes vitrified with 15% (v/v) EG + 15% (v/v) DMSO + 0.5 M sucrose (7.4% +/- 4.1 vs. 1.7% +/- 3.0, respectively). Oocytes vitrified without cumulus cells had a higher survival rate after thawing and a superior embryonic developmental capacity compared with oocytes vitrified with cumulus cells. Prolonged pre-incubation time after thawing adversely affected the rates of embryonic cleavage and development. These results indicate that in vitro matured bovine oocytes can be vitrified successfully with the mixture of the cryoprotectants, EG + PROH, the absence of cumulus cells for vitrification does not affect oocyte survival rate after warming, and vitrified and warmed oocytes do not require pre-incubation before in vitro fertilization.     

High developmental rates of mouse oocytes cryopreserved by an optimized vitrification protocol: the effects of cryoprotectants, calcium and cumulus cells

Unfertilized oocytes are one of the most desired germ cell stages for cryopreservation because these cryopreserved oocytes can be used for assisted reproductive technologies, including in vitro fertilization (IVF) and intracytoplasmic sperm injection. However, in general, the fertility and developmental ability of cryopreserved oocytes are still low. The aim of the present study was to improve vitrification of mouse oocytes. First, the effects of calcium and cryoprotectants, dimethyl sulfoxide and ethylene glycol (EG), in vitrification medium on survival and developmental ability of vitrified oocytes were evaluated. Oocytes were vitrified by a minimal volume cooling procedure using different cryoprotectants. Most of the vitrified oocytes were morphologically normal after warming, but their fertility and development were low independently of calcium and cryoprotectants. Second, the effect of cumulus cells on ability of oocytes to be fertilized and develop in vitro was examined. The fertility and developmental ability of denuded oocytes (DOs) after IVF were reduced compared with cumulus-oocyte complexes (COCs) both in fresh and cryopreserved groups. Vitrified COCs showed significantly (P<0.05) higher fertility and ability to develop to the 2-cell and blastocyst stages than those of vitrified DOs with cumulus cells and vitrified DOs alone. The vitrified COCs developed to term at a high success rate equivalent to the rate obtained with IVF using fresh COCs. Taken together, the current results clearly demonstrate that, in the presence of surrounding cumulus cells, matured mouse oocytes vitrified using calcium-free media and EG retain their developmental competence. These findings will contribute to improve oocyte vitrification in not only experimental animals but also clinical application for human infertility.     

Effect of Meiotic Stages During <Emphasis Type="Italic">In Vitro</Emphasis> Maturation on the Survival of Vitrified-Warmed Buffalo Oocytes

The present study was conducted to investigate the effect of meiotic stages during in vitro maturation (IVM) on the survival of vitrified-warmed buffalo oocytes, vitrified at different stages of IVM. Cumulus oocyte complexes obtained from slaughterhouse ovaries were randomly divided into 6 groups: control (non-vitrified, matured for 24 h at 38 ± 1^°C, 5% CO₂ in humidified air), and those matured for 0 h (vitrified before IVM) or 6, 12, 18 and 24 h before vitrification. Cumulus oocyte complexes were vitrified in solution consisting of 40% w/v propylene glycol and 0.25 mol/L trehalose in phosphate-buffered saline supplemented with 4% w/v bovine serum albumin. Vitrified cumulus oocyte complexes were stored at −196^∘C (liquid nitrogen) for at least 7 days and then thawed at 37^°C; cryoprotectant was removed with 1 mol/L sucrose solution. Cumulus oocyte complexes in the 0, 6, 12, 18 and 24 h groups were then matured for an additional 24, 18, 12, 6 and 0 h, respectively, to complete 24 h of IVM. Among the five vitrification groups, 89–92% of cumulus oocyte complexes were recovered, after warming, of which 84–91% were morphologically normal. Overall survivability of vitrified cumulus oocyte complexes was lower (p < 0.05) than that of non-vitrified cumulus oocyte complexes (94.5%). Survival rates of cumulus oocyte complexes matured 24 h prior to vitrification (61.3%) were higher (p < 0.05) than those matured for 12 h (46.7%), 6 h (40.6%) and 0 h (37.6%). Nuclear status following 24 h IVM was assessed. A higher proportion of non-vitrified (control) oocytes (72.7%) reached metaphase II (M-II) stage in control than oocytes vitrified for 24 h (60.0%), 18 h (54.4), 12 h (42.3%), 6 h (33.3%) and 0 h (31.6%) (p < 0.05). The results suggest that length of time in maturation medium prior to vitrification influences post-thaw survivability of buffalo oocytes; longer intervals resulted in higher survival rates.     

猪卵母细胞在GV期与MⅡ期的冷冻保存效果比较研究

为比较猪卵母细胞在GV期与MⅡ期的冷冻保存效果,试验在这两个成熟阶段对其进行玻璃化冷冻,GV期卵母细胞解冻后培养至成熟,MⅡ期卵母细胞解冻后恢复2 h,然后采用免疫荧光标记、Western blotting和链霉蛋白酶溶解方法分别检测它们的皮质颗粒分布、CD9蛋白表达水平和透明带消化时间上的差异。结果表明,GV期卵母细胞在解冻后2 h的存活率显著低于MⅡ期卵母细胞（P<0.05）,但极体排出率与对照卵母细胞无明显差异（P>0.05）;在冷冻MⅡ期卵母细胞中,皮质颗粒的皮质区分布比例和CD9的蛋白表达水平显著下降（P<0.05）,但冷冻GV期卵母细胞经体外成熟后则无明显变化（P>0.05）;冷冻GV期与MⅡ期卵母细胞均不会影响透明带的消化时间（P>0.05）。由此可见,猪卵母细胞在GV期的冷冻存活率虽然较MⅡ期低,但其体外成熟后极体排出率、皮质颗粒分布和CD9蛋白表达水平均未受到冷冻的影响。     

紫杉醇预处理对猪体外成熟卵母细胞玻璃化冷冻的影响

为了提高猪成熟卵母细胞细胞玻璃化冷冻效果.本试验拟添加紫杉醇,比较其对冷冻环冷冻效果的影响.结果显示使用1.0μmolL~(-1)紫杉醇预处理卵母细胞,冷冻后其形态完整率(89.93%)和FDA染色存活率(83.33%)都显著高于未处理组的79.12%和70.97%(P＜0.05),继续提高紫杉醇浓度则表现为对卵母细胞的毒副作用.在不同预处理时间上,预处理30 min组冷冻后卵母细胞形态完整率和FDA染色存活率最高,分别达到90.21%和84.13%.预处理浓度1.0μmol·L~(-1),30 min是比较合适的处理方法;紫杉醇、细胞松弛素B(CB)或两者联合添加能显著提高猪成熟卵母细胞的玻璃化冷冻的效果(P＜0.05),但两者之间没有显著差异(P＞0.05).     

Vitrification of in vitro matured oocytes of Mangalica and Large White pigs

The breeding of Mangalica, a native pig breed in Hungary, had been started in 1833, but this pig breed almost became extinct in Hungary in the past decades. In 1991, the number of sows was only 200. Although in these days the existing Mangalica population consists of more than 6000 animals representing different colour variations, the preservation of this traditional pig breed is still very important. Vitrification is a potential tool for the preservation of gametes and embryos of these animals. The aim of this study was to investigate the effects of vitrification on the developmental competence of Mangalica (M) and Large White (LW) oocytes following fertilisation. The oocytes were vitrified by the Open Pulled Straw (OPS) method using different concentrations of ethylene glycol and dimethyl sulphoxide as cryoprotectants. After rehydration the oocytes underwent in vitro fertilisation; the resultant zygotes were then cultured in vitro for four days to assess embryonic development. In the first experiment, in vitro maturation of M and LW oocytes was compared. No significant difference was observed in the nuclear maturation rate of LW and M oocytes. In the second experiment, the sensitivity of oocytes to vitrification was examined by evaluating oocyte morphology after thawing. A higher percentage of LW oocytes showed normal morphology compared to M oocytes, indicating that Mangalica oocytes are more sensitive to cryoprotectants than Large White oocytes. After warming and in vitro fertilisation, more than 50% of the oocytes started embryonic development and by the end of the incubation period morula stage embryos had developed in both groups. The results show that the OPS vitrification technique is well suited to preserve Mangalica oocytes and from these oocytes morula embryos can be produced.     

Cryopreservation of Immature Bovine Oocytes to Reconstruct Artificial Gametes by Germinal Vesicle Transplantation

Joining immature gamete cryopreservation and germinal vesicle transplantation (GVT) technique could greatly improve assisted reproductive technologies in animal breeding and human medicine. The present work was aimed to assess the most suitable cryopreservation protocol between slow freezing and vitrification for immature denuded bovine oocytes, able to preserve both nuclear and cytoplasmic competence after thawing. In addition, the outcome of germinal vesicle transfer procedure and gamete reconstruction was tested on the most effective cryopreservation system. Oocytes, isolated from slaughterhouse ovaries, were stored after cumulus cells removal either by slow freezing or by vitrification in open pulled straws. After thawing, oocytes were matured for 24 h in co-culture with an equal number of just isolated intact cumulus enclosed oocytes, and fixed in order to evaluate the stage of meiotic progression and cytoskeleton organization. Our results showed that after warming, vitrified oocytes reached metaphase II (MII) in a percentage significantly higher than oocytes cryopreserved by slow freezing (76.2% and 36.5% respectively, p < 0.05). Moreover, vitrification process preserved the organization of cytoskeleton elements in a higher proportion of oocytes than slow freezing procedure. Therefore vitrification has been identified as the elective method for denuded immature oocytes banking and it has been applied in the second part of the study. Our results showed that 38.3% of oocytes reconstructed from vitrified gametes reached the MII of meiotic division, with efficiency not different from oocytes reconstructed with fresh gametes. We conclude that vitrification represents a suitable method of GV stage denuded oocyte banking since both nuclear and cytoplasmic components derived from cryopreserved immature oocytes can be utilized for GVT.     

不同浓度紫杉醇预处理对绵羊卵母细胞玻璃化冷冻保存效果的影响

细胞骨架系统的稳定对于提高卵母细胞或胚胎冷冻后的存活率及其发育能力具有重要作用。紫杉醇(Taxol)作为细胞骨架稳定剂,可增强α、β-微管蛋白二聚体的紧密联系,增大微管交联,促进微管聚合和稳定。本实验以绵羊体外成熟卵母细胞为材料,旨在探讨紫杉醇预处理对玻璃化冷冻绵羊卵母细胞存活率、形态正常率及体外受精后胚胎发育率的影响。采用0、0.5、1.0、1.5μmol/L的紫杉醇预处理绵羊卵母细胞并进行玻璃化冷冻保存,未经处理的新鲜卵母细胞为对照组。结果表明:采用浓度为0.5μmol/L紫杉醇预处理绵羊卵母细胞冷冻保存效果最佳,其解冻后的存活率(82.38%)与其他3个试验组相比有显著差异性(P0.05);体外受精卵裂率(51.17%)和桑囊胚率(20.30%)也显著高于其他3个试验组(P0.05),但低于对照组(69.42%,34.77%)(P0.05)。由此可见,以0.5μmol/L浓度的紫杉醇预处理组绵羊体外成熟卵母细胞冷冻后能获得较好的效果。     

Effect of Different Combinations of Cryoprotectants on In Vitro Maturation of Immature Buffalo (Bubalus bubalis) Oocytes Vitrified by Straw and Open‐Pulled Straw Methods

This study was designed to evaluate effects of different combinations of cryoprotectants on the ability of vitrified immature buffalo oocytes to undergo in vitro maturation. Straw and open‐pulled straw (OPS) methods for vitrification of oocytes at the germinal vesicle stage also were compared. The immature oocytes were harvested from ovaries of slaughtered animals and were divided into three groups: (i) untreated (control); (ii) exposed to cryoprotectant agents (CPAs); or (iii) cryopreserved by straw and OPS vitrification methods. The vitrification solution (VS) consisted of 6 m ethylene glycol (EG) as the standard, control vitrification treatment, and this was compared with 3 m EG + 3 m dimethyl sulfoxide (DMSO), 3 m EG + 3 m glycerol, and 3 m DMSO + 3 m glycerol. Cryoprotectants were added in two steps, with the first step concentration half that of the second (and final) step concentration. After warming, oocyte samples were matured by standard methods and then fixed and stained for nuclear evaluation. Rates of MII oocytes exposed to CPAs without vitrification were lower (54.3 ± 1.9% in EG, 47.5 ± 3.4% in EG + DMSO, 36.8 ± 1.2% in EG + glycerol and 29.9 ± 1.0% in DMSO + glycerol; p < 0.05) than for the control group (79.8 ± 1.3%). For all treatments in each vitrification experiment, results were nearly identical for straws and OPS, so all results presented are the average of these two containers. The percentages of oocytes reaching telophase‐I or metaphase‐II stages were lower in oocytes cryopreserved using all treatments when compared with control. However, among the vitrified oocytes, the highest maturation rate was seen in oocytes vitrified in EG + DMSO (41.5 ± 0.6%). Oocytes cryopreserved in all groups with glycerol had an overall low maturation rate 19.0 ± 0.6% for EG + glycerol and 17.0 ± 1.1% for DMSO + glycerol. We conclude that the function of oocytes was severely affected by both vitrification and exposure to cryoprotectants without vitrification; the best combination of cryoprotectants was EG + DMSO for vitrification of immature buffalo oocytes using either straw or OPS methods.     

2-氨基乙基联苯基硼酸酯对玻璃化冷冻牛成熟卵母细胞发育能力的影响

【目的】研究内质网IP3受体(IP3R)抑制剂2-氨基乙基联苯基硼酸酯(2-APB)对玻璃化冷冻-解冻牛MⅡ期卵母细胞发育能力的影响。【方法】将体外成熟24 h的卵丘-卵母细胞复合体(COCs)用0.1%透明质酸酶消化去除卵丘颗粒细胞,获得的卵母细胞分为对照组和2-APB组,采用OPS法进行玻璃化冷冻,对照组直接进行玻璃化冷冻,2-APB组在玻璃化冷冻前先用10μmol/L 2-APB预处理10 min。2 d后解冻卵母细胞,统计解冻后(0 h)及恢复培养2 h时卵母细胞的存活率,用FITC-PNA荧光探针检测恢复培养2 h时卵母细胞皮质颗粒(CG)的分布,用2′,7′-DCHFDA和Cell Tracker Blue CMF2HC分别检测胞内活性氧(ROS)和谷胱甘肽(GSH)含量。将成熟培养24 h未冷冻卵母细胞(Fresh组),与解冻后恢复2 h的对照组和2-APB组卵母细胞同时进行孤雌激活,于培养的第2、7天分别统计孤雌胚胎的卵裂率和囊胚率。【结果】与对照组相比,2-APB组冷冻-解冻卵母细胞0和2 h的存活率均显著增加(P<0.05);2-APB组皮质颗粒皮质区分布比例...     

Effects of partial removal of cytoplasmic lipid on survival of vitrified germinal vesicle stage pig oocytes

This study was designed to investigate whether the partial removal of cytoplasmic lipid from immature pig oocytes prior to vitrification had any positive effects on subsequent maturation, fertilization and early development. Oocytes at the germinal vesicle stage were partially freed from cumulus cells and centrifuged, and then polarized cytoplasmic lipid was removed by micromanipulation. When cultured for 44-48 h, significantly fewer of the centrifuged oocytes reached metaphase II (M-II) than did the non-centrifuged oocytes (approximately 53% vs approximately 68%, respectively); however, no further reduction in the M-II rate was observed when centrifuged oocytes were then delipated prior to culture (approximately 47%). To evaluate their sensitivity to the equilibration and vitrification solutions containing ethylene glycol, non-centrifuged, centrifuged, and delipated oocytes were cultured continuously for several minutes in those solutions, then washed and cultured further; no significant differences in the M-II rates (approximately 20-27%) were observed among the three treatment groups. When oocytes were vitrified and then warmed, significantly more delipated oocytes reached M-II in culture (approximately 15%) than did the non-delipated oocytes, whether centrifuged or not (approximately 4% in each group). When delipated, vitrified and matured oocytes were microsurgically injected with frozen-thawed spermatozoa, approximately 39% were activated and male pronucleus formation was observed in approximately 40% of activated oocytes; none developed beyond the 4-cell stage. These results show that maturation in vitro of vitrified pig oocytes can be promoted by partial removal of cytoplasmic lipid prior to vitrification and that the vitrified oocytes can be fertilized, although the embryonic development obtained in this study was limited.     

Vitrification with DAP 213 and Cryotop of Ex Situ and In Situ Feline Cumulus–Oocyte Complexes

This study was undertaken to compare cryotolerance, in terms of viability and resumption of meiosis after warming and culture (24 and 48 h), of ex situ (isolated) and in situ (enclosed in the ovarian tissue) feline cumulus–oocyte complexes (COCs) vitrified with DAP 213 (2 m DMSO, 1 m acetamide, 3 m propylene glycol) in cryotubes or Cryotop method. Ovaries were harvested from 49 pubertal queens. Of each pair of ovaries, one was dissected to release COCs randomly divided into three groups: fresh COCs (control), ex situ COCs vitrified with DAP 213 and Cryotop. The cortex of the other ovary was sectioned into small fragments (approximately 1.5 mm³) and randomly assigned to be vitrified by DAP 213 or Cryotop. After warming, ex situ and in situ (retrieved form vitrified ovarian tissue) COCs were matured in vitro. Viability of oocytes was highly preserved after warming and culture in all treatments. Proportions of oocytes surrounded by complete layers of viable cumulus cells were remarkably decreased (p < 0.00001) in both vitrification procedures compared to fresh oocytes. Resumption of meiosis occurred in all treatments. After 24 h of culture, results were similar in ex situ and in situ vitrified oocytes regardless of the vitrification protocol used (range 29–40%), albeit lower (p < 0.05) than those of fresh oocytes (65.8%). After 48 h of culture, ex situ oocytes vitrified with Cryotop achieved the rates of meiosis resumption similar to fresh oocytes (53.8% vs 67.5%; p > 0.05) and ex situ and in situ oocytes vitrified with DAP 213 showed similar rates of resumption of meiosis. These findings demonstrated that DAP 213 and Cryotop preserve the viability of ex situ and in situ oocytes, but cumulus cells are highly susceptible to vitrification. However, the capability to resume meiosis evidences that feline immature oocytes vitrified as isolated or enclosed in the ovarian cortex have comparable cryotolerance.     

Vitrification procedure decreases inositol 1,4,5‐trisphophate receptor expression,resulting in low fertility of pig oocytes

Although cryopreservation of mammalian oocytes is an important technology, it is well known that unfertilized oocytes, especially in pigs, are highly sensitive to low temperature and that cryopreserved oocytes show low fertility and developmental ability. The aim of the present study was to clarify why porcine in vitro matured (IVM) oocytes at the metaphase II (MII) stage showed low fertility and developmental ability after vitrification. In vitro matured cumulus oocyte complexes (COCs) were vitrified with Cryotop and then evaluated for fertility through in vitro fertilization (IVF). Although sperm‐penetrated oocytes were observed to some extent (30–40%), the rate of pronuclear formation was low (9%) and none of them progressed to the two‐cell stage. The results suggest that activation ability of cryopreserved oocytes was decreased by vitrification. We examined the localization and expression level of the type 1 inositol 1,4,5 trisphosphate receptor (IP₃R1), the channel responsible for Ca²⁺ release during IVF in porcine oocytes. Localization of IP₃R1 close to the plasma membrane and total expression level of IP₃R1 protein were both decreased by vitrification. In conclusion, our present study indicates that vitrified‐warmed porcine COCs showed a high survival rate but low fertility after IVF. This low fertility seems to be due to the decrease in IP₃R1 by the vitrification procedure.     

Effect of vitrification procedures on the subsequent development of in vitro matured swamp buffalo oocytes following in vitro fertilization

Nowadays, the efficiency of buffalo oocytes cryopreservation is still low. The purpose of this study was to evaluate effects of two combinations of cryoprotectant agents (CPAs) and two vitrification devices for vitrification of swamp buffalo oocytes on their survival after vitrification warming, and subsequent developmental ability after in vitro fertilization. In vitro matured (IVM) oocytes were vitrified by either Cryotop (CT) or solid surface vitrification (SSV) interacting with vitrification solution A (VA) or B (VB). In the VA or VB solution exposed test, the oocytes showed similar survival rates, but decreased blastocyst rates after in vitro fertilization compared with that of untreated oocytes. After vitrification, the CT method combined with VA solution yielded a higher survival rate (91.3 ± 5.84%) of vitrified oocytes than that combined with VB solution (69.8 ± 4.19%–75.8 ± 4.55%); however, all the vitrification treatments showed lower blastocyst rates (1.1 ± 0.07%–5.2 ± 0.24%) compared with that of untreated oocytes (18.0 ± 1.09%). Our results indicated that combined vitrification treatments in this study did not improve the decreased ability of vitrified oocytes developing to the blastocyst stage.     

Effects of 17beta-estradiol on in vitro maturation of pig oocytes in protein-free medium

The present study examined the effects of 17 beta-estradiol (E(2)) on in vitro maturation and subsequent in vitro fertilization of pig oocytes matured with or without cumulus cells. When E(2) (10 ng/ml) was added to the protein-free maturation medium, the proportions of cumulus-enclosed oocytes that underwent germinal vesicle breakdown and reached metaphase II were significantly reduced (P<0.05), and cumulus expansion was also significantly inhibited (P<0.05) compared with the control (no E(2) added). Although oocytes matured in the presence of E(2) were penetrated by sperm in vitro at the same level as the control, the incidences of male pronuclear (MPN) formation and activated oocytes were significantly lower (P<0.05) than the control. These inhibitory effects of E(2) were prevented when the medium was supplemented with E(2) together with its antagonist, ICI 182,780 (1 microg/ml), although the presence of the antagonist alone in the medium had no effect on the maturation and fertilization in vitro of oocytes. In cumulus-free oocytes, E(2) had no effect on nuclear maturation and penetration in vitro, but low MPN formation was observed in oocytes matured in the presence and absence of E(2). When cumulus-enclosed oocytes were cultured in the presence of progesterone (P(4); 600 ng/ml) alone or together with E(2), no significant differences in nuclear maturation, cumulus expansion or penetration in vitro were observed compared with control oocytes. The concentration of P(4) in maturation medium was significantly (P<0.01) lower when cumulus-enclosed oocytes were cultured for 44 h in the medium with E(2) than in medium without E(2). These results indicate that E(2) inhibits both nuclear and cytoplasmic maturation of cumulus-enclosed pig oocytes, and that this inhibition can be prevented by an E(2) antagonist or P(4). This E(2) inhibition may occur indirectly via the cumulus cells and inhibition of P(4) synthesis.     

Comparative Effects of Porcine Oocytes Vitrified at the GV and MⅡ Stages

This study was designed to compare the efficiency of porcine oocytes vitrified at the GV and MⅡ stages. The vitrified GV oocytes were matured in vitro and then evaluated their cortical granule distribution with immunofluorescence, CD9 protein level with Western blotting and zona pellucida dissolution time with pronse digestion method, as compared to vitrified MⅡ oocytes.The results showed that the survival percentages of oocytes vitrified at the GV stage were significantly lower than those vitrified at the MⅡ stage after 2 h of warming (P<0.05);However, there was no difference in maturation rate between vitrified and fresh oocytes (P>0.05). The oocytes vitrified at MⅡ stage resulted in significantly decreased normal cortical granule distribution and CD9 protein level (P<0.05), but no such results were found in vitrified GV oocytes after maturation (P>0.05). In addition, vitrification did not affect the dissolution time of zona pellucida in GV and MⅡ oocytes (P>0.05). The data demonstrated that despite of lower survival rate compared with MⅡ oocytes, vitrified porcine GV oocytes after maturation showed normal polar body extrusion, cortical granule distribution and CD9 protein level.     

Effect of permeable cryoprotectant‐free vitrification on DNA fragmentation of equine oocyte–cumulus cells

DNA fragmentation of cumulus cells could be used as an indicator of oocyte vitrification success as an indirect indicator of the quality of the oocyte. This study was designed to compare the DNA fragmentation of post‐mortem equine cumulus cells before or after vitrification in the absence of permeable cryoprotectant agents. Cumulus–oocyte complexes (COCs; n = 56) were recovered from slaughterhouse ovaries and subjected to in vitro maturation (42 hr/38.2°C/5%CO₂) before (control group) or after a permeable cryoprotectant‐free vitrification method using 1 M sucrose (vitrification group). After in vitro maturation, COCs were denuded, and cumulus cells were washed and stored at ?80°C until thawing. Cumulus cell samples were processed with the chromatin dispersion test (Ovoselect, Halotech DNA, Spain). Low, high and total DNA fragmentation percentages of cumulus cells were recorded and compared between the two groups by Student's t test. Results were expressed as mean ± SEM. The vitrified group resulted in significantly higher (p < 0.05) percentages for low (16.81 ± 1.62 vs. 6.63 ± 0.77) and total (21.14 ± 1.84 vs. 12.76 ± 1.48) DNA fragmentation of cumulus cells. There were no significant differences between groups for high DNA fragmentation of cumulus cells. In conclusion, permeable cryoprotectant‐free vitrification of equine oocytes increased the total DNA fragmentation rate of cumulus cells but protected them against high DNA fragmentation rates. Further studies are needed to examine the relationship between DNA fragmentation of cumulus cells and the developmental competence of equine oocytes.     

Effects of maturation conditions on spindle morphology in porcine MII oocytes

Incomplete cytoplasmic maturation of in vitro matured (IVM) oocytes has been known to cause microtubule and microfilament alterations, which may result in abnormal pronuclear formation and failed embryonic development. We examined the influences of maturation conditions on meiotic spindle morphology at metaphase of meiosis II (MII) in porcine oocytes. Porcine oocytes were matured under various conditions, i.e., in vitro or in vivo, with different amounts of cumulus cells, with or without hormonal supplements, and with various exposure durations to the hormones, to examine the effects on spindle morphology in MII oocytes by immunofluorescence under confocal laser microscopy. Interpolar spindle length (microm) and spindle area (microm2) were compared among these maturation conditions. The spindle length was significantly shorter in IVM oocytes compared to those matured in vivo. Oocytes collected from cumulus oocyte complexes (COCs), which were poor in cumulus cells, showed smaller spindle areas than those from cumulus-rich COCs. The spindle length and area were both significantly reduced in oocytes grown without hormonal supplements. When oocytes were grown with hormonal supplements for either 6 or 22 hours for the first half of culture, there was no difference in the spindle morphology between these oocytes. These results suggested that maturation conditions significantly influence morphogenesis of MII spindles in porcine oocytes. Oocytes matured in poor conditions were more likely to have a shorter spindle length (long axis) and smaller spindle areas.     

Vitrification of Immature Feline Oocytes with a Commercial Kit for Bovine Embryo Vitrification

The aim of this study was to evaluate the suitability of a commercial kit for bovine embryo vitrification for cryopreserving cat oocytes and to evaluate comparatively the effects of its use with slow freezing procedure on cryotolerance in terms of morphology and oocyte resumption of meiosis. Germinal vesicle stage oocytes isolated from cat ovaries were either vitrified (n = 72) using a vitrification kit for bovine embryo or slow frozen (n = 69) by exposing oocyte to ethylene glycol solution before being transferred to a programmable embryo freezer. After thawing and warming, oocytes were cultured for 48 h and then were examined for meiosis resumption using bisbenzimide fluorescent staining (Hoechst 33342). Fresh immature oocytes (n = 92) were used as the control group. The proportion of oocytes recovered in a morphologically normal state after thawing/warming was significantly higher in frozen oocytes (94.5%) than in the vitrified ones (75%, p < 0.01). Morphological integrity after culture was similar in vitrified (73.6%) and slow frozen oocytes (76.8%); however, only 37.5% of the morphologically normal oocytes resumed meiosis after vitrification compared to 60.9% of those submitted to slow freezing procedure (p < 0.01). Fresh oocytes showed higher morphological integrity (91.3%) and meiosis resumption rates (82.6%, p < 0.002) than cryopreserved oocytes, irrespective of the procedure used. These results suggest that immature cat oocytes vitrified with a kit for bovine embryos retain their capacity to resume meiosis after warming and culture, albeit at lower rates than slow frozen oocytes. Vitrification and slow freezing methods show similar proportions of oocytes with normal morphology after culture, which demonstrate that thawed and warmed oocytes that resist to cryodamage have the same chances to maintain their integrity after 48 h of culture.     

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.