F. A. Diaz scite author profile

Heat stress affects oocyte developmental competence and is a major cause of reduced fertility in heat stressed cattle. Negative effects of heat stress on the oocyte have been observed at morphological, biochemical and developmental levels. However, the mechanisms by which heat stress affects the oocyte at the transcriptional and epigenetic levels remain to be further elucidated. Here we aimed to investigate the effect of heat stress on oocyte quality, transcriptomic profiles and DNA methylation of oocytes collected through the transition from spring to summer under Louisiana conditions. Summer season resulted in a lower number of high quality oocytes obtained compared to the spring season. There was no difference in in vitro maturation rates of oocytes collected during spring as compared to summer. RNA sequencing analysis showed that a total of 211 and 92 genes were differentially expressed as a result of heat stress in GV and MII oocytes, respectively. Five common genes (E2F8, GATAD2B, BHLHE41, FBXO44, and RAB39B) were significantly affected by heat in both GV and MII oocytes. A number of pathways were also influenced by heat stress including glucocorticoid biosynthesis, apoptosis signaling, and HIPPO signaling in GV oocytes, and Oct4 pluripotency, Wnt/beta-catenin signaling, and melatonin degradation I in MII oocytes. In addition, fluorescent immunocytochemistry analysis showed no difference in global levels of DNA methylation and DNA hydroxymethylation at either the GV or MII stage between spring and summer oocytes. The results of this study contribute to a better understanding of the effect of heat stress on the molecular mechanisms altered in bovine oocytes.

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41 Effects of Dimethyl Sulfoxide- or Glycerol-Based Vitrification Protocols on Zona Pellucida Hardening in Mature Bovine Oocytes

Rogers

Foster

Guiterrez

et al. 2018

Reprod. Fertil. Dev.

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Zona pellucida hardening is a natural process that occurs after oocyte fertilization to prevent polyspermic fertilization and to protect embryonic development. Pre-fertilization hardening of the zona pellucida, however, decreases fertilization rates. Cryoprotectants have also been shown to negatively affect fertilization rates, one possible mechanism of which being through zona hardening. This experiment was conducted to determine the effect of different cryoprotectants on hardening of the zona pellucida of mature bovine oocytes. Oocytes were collected by ovum pick-up (OPU) by transvaginal ultrasound guided aspiration (TUGA) from mixed-breed cows. After collection, oocytes were randomly assigned to 3 cryoprotectant treatment groups: dimethyl sulfoxide (DMSO), glycerol, or PBS (control). Drops (50 µL) of each vitrification solution were placed under mineral oil. Vitrification solution 1 (VS1) contained 10% ethylene glycol (EG), either 10% DMSO or glycerol, and 0.5 M sucrose. Vitrification solution 2 (VS2) contained 20% EG, 20% DMSO or glycerol, and 0.5 M sucrose. All oocytes were held in VS1 for 5 min before being transferred to VS2 for 45 s. All oocytes were washed in a common dilution solution (80% PBS, 20% calf serum, 0.025 M sucrose) for 5 min. Next, oocytes were moved to 50-µL drops of protease solution (0.1% protease) under mineral oil. Control oocytes were held in PBS for ~10 min before entering the protease solution to represent the same period as the vitrification procedure. The oocytes were observed until the zonae pellucidae were completely digested and times were recorded for each oocyte. This experiment included 4 replicates with a total of 88 oocytes used, 32 each in DMSO and glycerol and 24 in PBS. The data were analysed using ANOVA. The DMSO group had the lower mean zona digestion time out of the 2 cryoprotectants at 15.75 min and glycerol had the highest mean digestion time at 19.3 min. The control group (PBS) had the lowest mean of the 3 treatments at 12.7 min. The differences between DMSO and glycerol, and between DMSO and PBS were not significant (P = 0.0654 and 0.1073, respectively). However, both glycerol versus PBS and the average of DMSO and glycerol versus PBS were significantly different (P-value = 0.0053 and 0.0119, respectively). These results suggest that glycerol hardens the zona pellucida more than DMSO or PBS; however, there is not enough evidence to determine whether DMSO hardens the zona pellucida compared with PBS. This would suggest that, in relation to zona hardening and ensuring proper fertilization, glycerol-based cryoprotectants may be a better option than DMSO-based ones. Further, these results may be important in embryo vitrification as zona hardening may prevent blastocyst hatching, suggesting that glycerol-based cryoprotectants should be investigated as the optimal cryoprotectant here also.

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Effect of bovine oocyte vitrification with EGTA and post-warming recovery with resveratrol on meiotic spindle, mitochondrial function, reactive oxygen species, and developmental competence

et al. 2023

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46 Vitrification of Immature and Mature Bovine Oocytes

Hardin

Diaz

Foster

et al. 2017

Reprod. Fertil. Dev.

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While vitrification has become a valuable system used in oocyte and embryo preservation, there is still much to be learned in optimizing this protocol. Both mature and immature oocytes can be vitrified but each presents challenging aspects. Mature oocytes have microfilaments that are not yet developed in immature oocytes, which are fragile and may be disrupted by ice crystal formation during freezing. Further, currently many different cryoprotectants are used in different concentrations, most being combinations of dimethyl sulfoxide (DMSO), glycerol, and ethylene glycol. This study aimed to determine if vitrification solutions composed of ethylene glycol and either dimethyl sulfoxide or glycerol resulted in more-competent post-thaw oocytes, and to determine if maturation stage affected optimal vitrification solution. As validation of the IVF protocol, fresh mature oocytes from a commercial source were fertilized and proportion, with pronuclei formation 48 h post-IVF was recorded. Two experiments evaluated 2 cryoprotectant solutions by analysing post-vitrification and thaw competence of in vitro-fertilized oocytes to form pronuclei. Oocytes in both studies were exposed to 2 sequential vitrification solutions containing 10% DMSO or glycerol, 10% ethylene glycol and 0.5 M sucrose, and then 20% DMSO/glycerol and ethylene glycol and 0.5 M sucrose, before vitrification on cryolocks. In the first study, immature bovine oocytes (n = 200) were vitrified. Following thawing and IVM, they were analysed for pronuclei formation, with 8.49% and 0% fertilization following vitrification in DMSO and glycerol, respectively (P < 0.01). In the second study, mature oocytes were vitrified (n = 200), thawed, and fertilized using the same methods as in study 1. In total, 12.62% and 3.4% of the mature oocytes were successfully fertilized following vitrification in DMSO and glycerol, respectively (P < 0.05). Fisher’s exact test was used for all statistics in both studies. These results suggest that DMSO in combination with ethylene glycol may be superior to glycerol for vitrification of both immature and mature bovine oocytes.

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F. A. Diaz

Cryopreservation of Day 8 equine embryos after blastocyst micromanipulation and vitrification

Evaluation of Seasonal Heat Stress on Transcriptomic Profiles and Global DNA Methylation of Bovine Oocytes

41 Effects of Dimethyl Sulfoxide- or Glycerol-Based Vitrification Protocols on Zona Pellucida Hardening in Mature Bovine Oocytes

Effect of bovine oocyte vitrification with EGTA and post-warming recovery with resveratrol on meiotic spindle, mitochondrial function, reactive oxygen species, and developmental competence

46 Vitrification of Immature and Mature Bovine Oocytes

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