Single in vitro bovine embryo production: coculture with autologous cumulus cells, developmental competence, embryo quality and gene expression profiles

Studies concerning oocyte quality markers, oocyte/embryo metabolism or commercial OPU settings treating donors with low oocyte yields, indicate a need for optimization of IVP protocols to culture single oocytes to the blastocyst stage. However, culture conditions for single oocyte usually impair development, although previous research showed that single oocyte culture on a monolayer of cumulus cells can lead to similar developmental competence than group oocyte culture. Aiming to develop a fully single IVP procedure, Experiment 1 and 2 revealed that individual maturation, fertilization and culture in 20 μL droplets, using a monolayer of heterologous (SSSm, Exp 1) or autologous cumulus cells in coculture (SSSa, Exp 2), resulted in 23.9% and 15.1% of blastocysts 8 days p.i., respectively, which is significantly less compared to regular group IVP (GGGc, 33.5% (Exp 1) and 26.2% (Exp 2), respectively). In a third Experiment, day 7 p.i. blastocyst quality was analyzed in four treatment groups: regular group IVP (GGGc), group IVP with coculture (GGGm), in group produced zygotes, singly cultured on a heterologous cumulus cell monolayer (GGSm) and individually matured and fertilized zygotes, singly cultured on a monolayer (SSSm). Mean cell number and apoptotic cell index, were similar for all treatment groups. Moreover, mRNA abundance relative to H2AFZ was equal for 9 qualitatively linked genes (TP53, BAX, SHC1 SHC, IGF2R, PTGS2, AKR1B1, PLAC8, SLC2A1, and MNSOD). Only GPX1, involved in detoxification and mtDNA protection to oxidative stress, was significantly downregulated (ANOVA, P < 0.05) in singly produced blastocysts (SSSm), compared to the other treatments. In conclusion, a valuable individual IVP system was established and autologous cumulus cells in coculture showed to partly neutralize hampered individual culture conditions. Additionally, to our knowledge this is the first report in which blastocyst quality, in terms of cell number, apoptosis and gene expression, of singly produced embryos was investigated and shown to be similar to in group produced embryos, implicating that the single IVP system can be applied as a tool in oocyte and embryo quality studies.     

Combination of oocyte and zygote selection by brilliant cresyl blue (BCB) test enhanced prediction of developmental potential to the blastocyst in cattle

The cumulus oocyte complexes (COCs) were obtained from local abattoir. After aspiration, the COCs were allotted into four treatments to evaluation of brilliant cresyl blue (BCB) test. Control treatment (C): oocytes were cultured directly (without exposure to BCB) after recovery in in vitro production (IVP) process. Oocyte treatment (OBCB): immediately after aspiration, COCs were incubated in modified Dulbecco's phosphate-buffered saline (mDPBS) supplemented with 26 μM of BCB for 90 min and classified into two classes: oocytes with blue cytoplasm coloration (OBCB+: more competent oocytes) and oocytes without blue cytoplasm coloration (OBCB−: low competent oocytes). Directly after classification, the oocytes were maintained undisrupted in the IVP process. Zygote treatment (ZBCB): After oocyte collection, maturation and fertilization, zygotes were stained with BCB for 10 min and categorized into three ways, according to whether they were highly stained (ZBCB++: low competent zygotes), moderately stained (ZBCB+: moderate competent zygotes) and unstained (ZBCB−: more competent zygotes). Directly after classification, the zygotes were maintained undisrupted in the culture process. Oocyte and zygote treatments (OBCB/ZBCB): COCs were stained with BCB after recovery and classified into two classes (OBCB+ and OBCB−). After fertilization, the zygotes produced from OBCB+ and OBCB− oocytes were further stained with BCB for 10 min and categorized six ways (OBCB+/ZBCB++, OBCB+/ZBCB+, OBCB+/ZBCB−, OBCB−/ZBCB++, OBCB−/ZBCB+ and OBCB−/ZBCB−). Directly after classification, the zygotes were maintained undisrupted in the culture process. The selection rate produced from OBCB treatment (OBCB+; 54.3%) was greater (P < 0.05) than ZBCB treatment (ZBCB−; 44.3%). In addition, the selection rate produced from double application (combination of oocyte and zygote selection) of BCB test (OBCB+/ZBCB−: 28.8%) was less (P < 0.01) than single application of BCB test (ZBCB−: 44.3%or OBCB+: 54.3%). The percentage of blastocyst production from OBCB+ oocytes (35.7%) and ZBCB− zygotes (36.6%) were greater (P < 0.05) than that from C oocytes (25.7%), OBCB− oocytes (16.5%), ZBCB++ (13.5%) and ZBCB+ zygotes (21.3%). However, there were no significant differences (P > 0.05) in the percentages of blastocyst production between OBCB+ oocytes (35.7%) and ZBCB− zygotes (36.6%). The proportion of blastocyst production from double application of BCB test (OBCB+/ZBCB−: 48.0%) was greater (P < 0.05) than that from single application of BCB test (OBCB+: 35.7% or ZBCB−: 36.6%). In conclusion, current results confirmed that combination of oocyte and zygote selection by BCB test enhanced the efficiency of selecting for high quality embryos, compared to the single BCB test.     

Pregnancies established from handmade cloned blastocysts reconstructed using skin fibroblasts in buffalo (Bubalus bubalis)

Handmade cloning (HMC), a simple, micromanipulation-free cloning technique, has been applied for the production of cloned embryos and offspring in many livestock species. The objective of the present study was to compare the effect of donor cell type on developmental competence of HMC embryos and to explore the possibility of establishing pregnancies using these embryos in buffalo. After technical optimization of the HMC procedure for in vitro development of cloned blastocysts, various donor cells were compared for their developmental efficiency. Using buffalo fetal-, newborn-, adult fibroblasts and cumulus cells, blastocyst production rates obtained from reconstructed embryos were 24.0 ± 1.8% (35/145), 33.0 ± 8.0% (56/163), 21.0 ± 9.3% (29/133) and 49.6 ± 1.9% (77/154), respectively. Blastocyst rates were higher (P < 0.05) in cumulus cell reconstructed embryos in comparison to those derived from fetal or adult fibroblasts. Pregnancy diagnosis (transrectal ultrasonography) was carried out at Day 40 of gestation. Following transfer of HMC embryos reconstructed using newborn fibroblasts 25% (2/8) buffaloes were pregnant and are at Days 201 and 94 of gestation, whereas after transfer of HMC embryos reconstructed using fetal fibroblasts, 20% (1/5) buffaloes were pregnant and are at Day 73 of gestation. In conclusion, HMC could be a simple and efficient technique for the production of cloned embryos for establishing pregnancies in buffalo.     

Comparison of embryo yield and pregnancy rate between in vivo and in vitro methods in the same Nelore (Bos indicus) donor cows

To investigate why the preferred means to produce bovine embryos in Brazil has changed from in vivo to in vitro, we compared these two approaches in the same Nelore cows (n = 30) and assessed total embryo production and pregnancy rates. Without a specific schedule, all cows were subjected to ultrasound-guided ovum pick up (OPU)/in vitro production (IVP) and MOET, with intervals ranging from 15 to 45 d between procedures, respectively. To produce in vivo embryos, cows were superovulated and embryos were recovered nonsurgically from 1 to 3 times (1.4 ± 0.6), whereas OPU/IVP was repeated from 1 to 5 times (3.2 ± 1.2) in each donor cow during a 12-mo interval. Embryos obtained from both methods were transferred to crossbred heifers. On average, 25.6 ± 15.3 immature oocytes were collected per OPU attempt. The average number of embryos produced by OPU/IVP (9.4 ± 5.3) was higher (P < 0.05) than the MOET method (6.7 ± 3.7). However, pregnancy rates were lower (P < 0.05) following transfer of IVP (33.5%) versus in vivo-derived embryos (41.5%) embryos. Embryonic losses between Days 30 and 60 and fetal sex ratio were similar (P > 0.05) between in vivo and in vitro-derived embryos. We concluded that in Nelore cows, with an interval of 15 d between OPU procedures, it was possible to produce more embryos and pregnancies compared to conventional MOET.     

Vitrification of in vitro produced ovine embryos at various developmental stages using two methods

This study was conducted to evaluate the effects of developmental stage of in vitro produced (IVP) ovine embryos and the type of vitrification procedure used on embryo cryotolerance.The IVP embryos were vitrified at five different developmental stages: 4-, 8- and 16-cell, morula, and blastocyst. For each stage, half of the embryos were vitrified in either 30 μl 3.4 M glycerol + 4.6 M ethylene glycol in straw (method 1) or in <0.1 μl 2.7 M ethylene glycol + 2.1 M Me₂SO + 0.5 M sucrose placed on the inner surface of a straw (method 2) of vitrification solution, based on two different procedures. After warming embryo viability was determined by assessing the rates of re-expansion, survival, and blastocyst formation. The quality of surviving embryos was evaluated by their hatching rate and blastocyst cell numbers. In both vitrification methods, embryo survival progressively increased as the developmental stage progressed. In method 1 few of the early cleavage stage embryos (4-, 8- and 16-cell) could reach to the blastocyst stage following warming. There was no significant difference in blastocyst cell numbers (total, ICM, and trophectoderm cells) or hatching rate of blastocysts derived from vitrified embryos at different developmental stages. The number of dead cells in vitrified blastocysts in method 1 was higher than for non-vitrified blastocysts (P < 0.05). The number of apoptotic cells in vitrified blastocysts was higher than for non-vitrified counterparts (P < 0.05). In conclusion, both the developmental stage of IVP ovine embryos and the method of vitrification have a significant effect on the viability and developmental competence of sheep embryos.     

Effect of droplet vitrification on development competence, actin cytoskeletal integrity and gene expression in in vitro cultured mouse embryos

The effect of modified droplet vitrification was assessed on cellular actin filament organization, apoptosis related gene expression and development competence in mouse embryos cultured in vitro. Mouse zygotes, 2-cell embryos and morulae were vitrified in ethylene glycol (VS-1) and ethylene glycol plus DMSO (VS-2) and thawed by directly placing the vitrified drop into 0.3 M sucrose solution at 37 °C. High recovery (93-99%) of morphologically normal embryos was evident following vitrification and thawing. No detectable actin filament disruption was observed in the embryos at any development stage following vitrification and thawing and/or in vitro culture. The expression pattern of Bax, Bcl2 and p53 genes was altered (P < 0.05) in vitrified zygotes and 2-cell embryos, but not in morulae. Although a large proportion of the vitrified zygotes (59.5 ± 4.4% in VS-1 and 57.9 ± 4.5% in VS-2; mean ± S.E.M.) and 2-cell embryos (63.1 ± 4.4% in VS-1 and 59.2 ± 4.3% in VS-2) developed into blastocysts, development of control embryos (70.2 ± 5.0% of zygotes and 75.5 ± 4.4% of 2-cell embryos) into blastocysts was higher (P < 0.05). In contrast, development of the control and vitrified morulae into blastocysts (more than 85%) was similar. We concluded that the modified droplet vitrification procedure supported better survival of morula stage compared to zygotes and 2-cell mouse embryos.     

Effect of MEM vitamins and forskolin on embryo development and vitrification tolerance of in vitro-produced pig embryos

The aims of this study were (1) to determine the effect of in vitro maturation (IVM) medium supplementation with MEM vitamins on in vitro embryo development and sensitivity to vitrification of Day 6 blastocysts and (2) to evaluate whether the addition of forskolin to in vitro culture (IVC) medium enhances blastocyst survival following Super Open Pulled Straw (SOPS) vitrification. Cumulus–oocyte complexes (COCs; n = 4000) were matured with 0.0% or 0.05% (v/v) MEM vitamins. After 44 h of IVM, the oocytes were in vitro fertilized, and presumptive zygotes were cultured. At Day 5 of IVC, embryos from both experimental groups were cultured for 24 h with 0 or 10 μM forskolin, achieving a 2 × 2 factorial design. The blastocyst formation rate was assessed on Day 6, and subsets of samples from the four experimental groups were vitrified (n = 469) or kept fresh (n = 546). Fresh and vitrified-warmed blastocysts were cultured for 24 h prior to embryo survival and total blastocyst cell number assessment. The MEM vitamins increased (P < 0.001) the blastocyst formation rate at Day 6, but they did not affect embryo survival after vitrification. In contrast, the addition of forskolin to the culture medium enhanced (P < 0.05) the blastocyst vitrification tolerance. The total blastocyst cell number was similar among the groups. In conclusion, supplementation with 0.05% MEM vitamins improved the blastocyst formation rate, and the addition of 10 μM forskolin to the culture medium increased survival in Day 6 in vitro-produced blastocysts after SOPS vitrification.     

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

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

Lyophilized somatic cells direct embryonic development after whole cell intracytoplasmic injection into pig oocytes

The study investigated the feasibility of lyophilization for long-term preservation of somatic cells and embryonic development after whole cell intracytoplasmic injection (WCICI) into enucleated pig oocyte. Confluent cultured porcine fetal fibroblast (pFF) cells were lyophilized and stored at 4 °C for at least 6 months. Results showed that compared to non-lyophilized control cells, lyophilized cells had drastically reduced cellular viability (P < 0.01). WCICI of reconstituted lyophilized cells could support complete embryonic development. However, the rates of cleavage (64.7 ± 2.7 vs. 43.5 ± 4.7%) and blastocyst formation (18.2 ± 0.6 vs. 10.2 ± 1.6%) were lower than that of control (P < 0.05). Total nuclei number per blastocyst (30.4 ± 4.5 vs. 25.2 ± 4.7) and intensity of acetylation at histone H3 (AcH3) protein (55.9 ± 3.5 vs. 53.3 ± 3.8) did not differ (P > 0.05). The development ability of embryos, produced from lyophilized somatic cells, was further increased (19.5 ± 2.4 vs. 10.2 ± 1.6%; P < 0.05) by treatment with trichostatin A (TSA) for 24 h post-activation. These TSA-treated embryos also had AcH3 level comparable with in vitro fertilized embryos (63.1 ± 3.2 vs. 69.9 ± 1.3). In conclusion, our results suggest that lyophilized somatic cells can direct embryonic development up to blastocyst stage after WCICI into pig oocytes. Treatment of embryos, produced from lyophilized somatic cells, with TSA can further increase their in vitro developmental potential.     

Stimulatory effect of Rho-associated coiled-coil kinase (ROCK) inhibitor on revivability of in vitro-produced bovine blastocysts after vitrification

Inhibition of Rho-associated coiled-coil kinase (ROCK) activity promoted recovery and growth of frozen-thawed human embryonic stem cells. The primary objective was to determine if a ROCK inhibitor (Y-27632) in post-thaw culture medium improved revivability of vitrified IVP bovine blastocysts. Expanding or expanded blastocysts (7 d after IVF) were vitrified (minimum volume cooling procedure, using a Cryotop) in 15% ethylene glycol, 15% DMSO and 0.5 M sucrose. When post-warm blastocysts were cultured in mSOF medium, survival rate (re-expansion of blastocoel at 24 h of culture) was improved (P < 0.05) by the addition of 10 μM Y-27632 (94.9 ± 2.4%, mean ± SEM) compared to a control (78.0 ± 6.0%). Conversely, after 48 h of culture, there were no significant differences in hatching rate (62.8 ± 11.1 vs. 59.6 ± 9.4%) and mean total cell number (135.2 ± 13.1 vs. 146.7 ± 13.3). In non-vitrified IVP bovine blastocysts, the hatching rate on Day 9 was improved by Y-27632 (91.7 ± 3.8 vs. 54.7 ± 8.9%, P < 0.05), with no difference in mean total cell number of blastocysts (230.0 ± 23.0 vs. 191.2 ± 22.2, P = 0.23). In an additional experiment, Y-27632 was added to culture medium on either Day 0, Day 2, or Day 4 (and remained present until Day 8), resulting in no improvement in blastocyst yield compared to a control group (7.5 ± 2.1, 31.4 ± 2.3, 36.2 ± 3.2, and 28.6 ± 6.9%, respectively). In conclusion, adding a ROCK inhibitor to post-thaw culture medium improved revivability of IVP bovine blastocysts after vitrification and warming.     

Utilization of endogenous fatty acid stores for energy production in bovine preimplantation embryos

Although current embryo culture media are based on carbohydrate metabolism of embryos, little is known about metabolism of endogenous lipids. L-carnitine is a β-oxidation cofactor absent in most culture media. The objective was to investigate the influence of L-carnitine supplementation on bovine embryo development. Abattoir-derived bovine cumulus oocyte complexes were cultured and fertilized. Post-fertilization, presumptive zygotes were transferred into a basic cleavage medium ± carbohydrates (glucose, lactate and pyruvate) ± 5 mm L-carnitine and cultured for 4 days in vitro. In the absence of carbohydrates during culture, embryos arrested at the 2- and 4-cell stages. Remarkably, +L-carnitine increased development to the morula stage compared to +carbohydrates alone (P < 0.001). The beneficial effects of L-carnitine were further demonstrated by inclusion of carbohydrates, with 14-fold more embryos reaching the morula stage after culture in the +carbohydrates +L-carnitine group compared to the +carbohydrates group (P < 0.05). Whereas there was a trend for +L-carnitine to increase ATP (P = 0.09), ADP levels were higher and ATP: ADP ratio were 1.9-fold lower (main effect, P < 0.05) compared to embryos cultured in -L-carnitine. Therefore, we inferred that +L-carnitine embryos were more metabolically active, with higher rates of ATP-ADP conversion. In conclusion, L-carnitine supplementation supported precompaction embryo development and there was an additive effect of +L-carnitine +carbohydrates on early embryo development, most likely through increased β-oxidation within embryos.     

Cumulus cell function during bovine oocyte maturation,fertilization, and embryo development in vitro

Several contemporary micromanipulation techniques, such as sperm microinjection, nuclear transfer, and gene transfer by pronuclear injection, require removal of cumulus cells from oocytes or zygotes at various stages. In humans, the cumulus cells are often removed after 15–18 hr of sperm-oocyte coincubation to assist the identification of the fertilization status. This study was designed to evaluate the function of cumulus cells during oocyte maturation, fertilization, and in vitro development in cattle. Cumulus cells were removed before and after maturation and after fertilization for 0,7,20, and 48 hr. The cumulus-free oocytes or embryos were cultured either alone or on cumulus cell monolayers prepared on the day of maturation culture. Percentages of oocyte maturation, fertilization, and development to cleavage, morula, and blastocyst stages and to expanding or hatched blastocysts were recorded for statistical analysis by categorical data modeling (CATMOD) procedures. Cumulus cells removed before maturation significantly reduced the rate of oocyte maturation (4–26% vs. 93–96%), fertilization (0–9% vs. 91–92%), and in vitro development at all stages evaluated. Cumulus cells removed immediately prior to in vitro fertilization (IVF) or 7 hr after IVF reduced the rates of fertilization (58–60% and 71%, respectively, vs. 91–92% for controls), cleavage development (40–47% and 53–54% vs. 74–78% for controls), and morula plus blastocyst development (15% and 24% vs. 45%, P < 0.05). Cumulus cell co-culture started at various stages had no effect on fertilization and cleavage development but significantly improved rates of embryo development to morula or blastocyst stages (P < 0.05). Cumulus cell removal at 20 hr after IVF resulted in similar development to controls (P > 0.05) at all stages tested in this study. The intact state of surrounding cumulus cells of oocytes or embryos appears to be beneficial before or shortly after insemination (at or before 7 hr of IVF) but not essential at 20 hr after IVF. © 1995 Wiley-Liss, Inc.     

Effect of addition of hyaluronan to embryo culture medium on survival of bovine embryos in vitro following vitrification and establishment of pregnancy after transfer to recipients

Two experiments were conducted to determine whether addition of hyaluronan to culture medium could improve survival of bovine embryos after vitrification or following embryo transfer. In Experiment 1, embryos were produced in vitro and cultured for 7 days in modified synthetic oviductal fluid (SOF) containing one of four concentrations of hyaluronan (0, 0.1, 0.5, or 1 mg/mL), with or without 4 mg/mL of bovine serum albumin (BSA). On Day 7 after insemination, blastocysts and expanded blastocysts were vitrified using open-pulled straws. At a concentration of 1 mg/mL, hyaluronan increased (P < 0.05) the percentage of oocytes that were blastocysts and re-expansion rate at 24 h after warming. At 0.5 mg/mL, hyaluronan tended (P < 0.10) to increase re-expansion rate at 48 h after warming and increased (P < 0.05) embryo hatching rate at 24 and 72 h. Treatment with BSA caused a slight reduction in cleavage rate (P < 0.05), but only for cultures containing hyaluronan (BSA × hyaluronan, P = 0.10), an increase in the percentage of oocytes that became blastocysts (P < 0.001), and a reduction in re-expansion rates (P < 0.001) and hatching rates (P < 0.05 or P < 0.01) at all times examined. In Experiment 2, embryos were produced in vitro and cultured in modified SOF containing 4 mg/mL BSA, with or without 1 mg/mL hyaluronan. At 159-162 h after insemination, grade 1 morula, blastocysts and expanded blastocysts were harvested for embryo transfer. Harvested embryos were transferred individually to lactating Holstein recipients with a palpable corpus luteum on Day 7 after presumptive ovulation. There was an interaction (P < 0.05) between hyaluronan and embryo stage on pregnancy rate. Recipients that received morula and blastocyst stage embryos treated with hyaluronan had a higher pregnancy rate than recipients that received control embryos of the same stage. There was no effect of hyaluronan on pregnancy rates of recipients that received expanded blastocysts. In conclusion, addition of hyaluronan to embryo culture enhanced blastocyst yield, improved survival following vitrification, and enhanced the post-transfer survival of fresh morula and blastocyst stage embryos.     

Effect of cytoplasmic lipid content on in vitro developmental efficiency of bovine IVP embryos

The objective was to evaluate the effect of cytoplasmic lipid content on the embryonic developmental efficiency of bovine in vitro embryo production (IVP) embryos. Ovaries from Korean native cows (Bos taurus coreanae) were collected from a local abattoir, and cumulus-oocyte complexes (COCs) were recovered from follicles 2 to 8 mm in diameter. The oocytes were divided into three groups, dependent on their cytoplasm color: pale color (PC), brown color (BC), and dark color (DC). The COCs were fertilized using frozen-thawed semen from a single Hanwoo bull. Based on measurement of the cytoplasmic color intensity of oocytes after 22 h of in vitro maturation (IVM), the DC group had lower (P < 0.05) color intensity than that in the BC and PC groups (56.3 ± 2.7, 93.3 ± 5.1, and 123.9 ± 12.0, respectively). Based on MitoTracker Green FM staining, the number of mitochondria in the DC (170.1 ± 31.2) group was significantly higher than that in the BC (137.5 ± 30.8) and PC (105.5 ± 25.3) groups. The cleavage rate in the DC (81.5%) group was also higher than that in the PC (50.4%) group (P < 0.05), as was the development rate to blastocyst stage (18.9% vs. 9.8%). Finally, cell numbers of blastocysts in the DC (150.8 ± 28.0) group were higher (P < 0.05) than that in the BC (107.6 ± 17.8) and PC (80.5 ± 12.3) groups. In conclusion, cytoplasm color was a useful selection parameter for abattoir-derived oocytes destined for IVP.     

Effects of bovine Herpesvirus Type 5 on development of in vitro-produced bovine embryos

Bovine (Bos indicus) herpesviruses have been associated with reproductive disease. Type 1, the most studied species, is best known for its reproductive and respiratory effects. Type 5 (BoHV-5) has been detected in bull semen and aborted fetuses but not in oocytes and embryos. This study consisted of three experiments that evaluated (1) BoHV-5-infected oocytes matured in medium with fetal bovine serum (BoHV-FBS) or polyvinyl alcohol (BoHV-PVA) and fertilized by noninfected sperm; (2) noninfected oocytes fertilized by BoHV-5-infected sperm; and (3) infection of presumptive zygotes by BoHV-5. Each treatment involved nine drops of 15 to 20 oocytes. Infection with BoHV-5 was detected by polymerase chain reaction and in situ hybridization assay, and fertilization capacity and embryonic development were assessed using in vitro culture. Experimentally induced infection was obtained in all experiments, and vertical transmission of BoHV-5 by gametes was confirmed. The cleavage rate was reduced (P = 0.0201) in BoHV-FBS (80.4 ± 8.9%; mean ± SD) compared with that of noninfected oocytes (89.9 ± 6.5%); neither differed from BoHV-PVA (87.3 ± 7.1%), and the resulting embryo production rate was not significantly different among groups. Rates of cleavage (87.5 ± 7.5% vs. 92.2 ± 5.5%, control vs. infected) and development of embryos (41.7 ± 9.9% vs. 44.3 ± 7.7% to morula/blastocyst/expanded blastocyst [M/B/EB] and 39.6 ± 10.3% vs. 40.8 ± 9.2% to blastocyst/expanded blastocyst/hatching blastocyst [B/EB/HB] stages) were not compromised by infected sperm (P = 0.1462, P = 0.5402, and P = 0.8074, respectively). However, presumptive zygotes directly infected 1 d after fertilization produced a lower number (P = 0.0140 to M/B/EB and P = 0.002 to B/EB/HB stages) of in vitro-produced embryos (31.6 ± 4.6 vs. 25.0 ± 5.5 and 31.6 ± 4.6 vs. 20.2 ± 5.4; control vs. infected). In conclusion, BoHV-5 infected gametes and was transmissible to the embryo during in vitro development. As zygotes infected 1 d after fertilization had compromised development, BoHV-5 has the potential to be a pathogen with economic consequences.     

Closed pulled straw vitrification of in vitro-produced and in vivo-produced bovine embryos

The objective of this study was to evaluate the efficiency of the closed pulled straw (CPS) method for cryopreserving in vitro-produced and in vivo-produced bovine (Bos taurus) embryos. Based on the open pulled straw (OPS) protocol, the top end of a CPS was closed by tweezers (heated in a flame) to prevent the cryoprotectant medium containing embryos from contacting the liquid nitrogen. Bovine in vitro or in vivo morulae and early blastocyst embryos were frozen by slow cryopreservation, OPS vitrification, or CPS vitrification. Morphology of postthawed embryos was evaluated, and normal embryos were used for successive culture for 72 h. There were no significant differences between OPS and CPS freezing groups in postthawed in vitro-produced embryos with respect to rates of morphologically normal embryos (mean ± SD, 87.9 ± 5.2% vs. 85.4 ± 4.9%), survival at 24 h (58.0 ± 6.8% vs. 56.3 ± 4.4%), and survival at 72 h (35.2 ± 6.0% vs. 34.9 ± 6.7%). However, both OPS and CPS vitrification resulted in higher postthaw rates of morphologically normal embryo and survival at 24 and 72 h than those of the slow-freezing method (P < 0.05). Similar results were obtained for in vivo-derived embryos. We concluded that CPS vitrification was a feasible method to cryopreserve both in vitro-derived and in vivo-derived bovine embryos. This method not only eliminated the risk of embryo contamination by preventing contact with liquid nitrogen but also retained the advantages of the OPS vitrification method.     

Vitrification of early-stage bovine and equine embryos

The objectives of this study were to: (1) determine an optimal method and stage of development for vitrification of bovine zygotes or early embryos; and (2) use the optimal procedure for bovine embryos to establish equine pregnancies after vitrification and warming of early embryos. Initially, bovine embryos produced by in-vitro fertilization (IVF) were frozen and vitrified in 0.25 mL straws with minimal success. A subsequent experiment was done using two vitrification methods and super open pulled straws (OPS) with 1- or 8-cell bovine embryos. In Method 1 (EG-O), embryos were exposed to 1.5 M ethylene glycol (EG) for 5 min, 7 M ethylene glycol and 0.6 M galactose for 30 s, loaded in an OPS, and plunged into liquid nitrogen. In Method 2 (EG-DMSO), embryos were exposed to 1.1 M ethylene glycol and 1.1 M dimethyl sulfoxide (DMSO) for 3 min, 2.5 M ethylene glycol, 2.5 M DMSO and 0.5 M galactose for 30 s, and loaded and plunged as for EG-O. Cryoprotectants were removed after warming in three steps. One- and eight-cell bovine embryos were cultured for 7 and 4.5 d, respectively, after warming, and control embryos were cultured without vitrification. Cleavage rates of 1-cell embryos were similar (P > 0.05) for vitrified and control embryos, although the blastocyst rates for EG-O and control embryos were similar and higher (P < 0.05) than for EG-DMSO. The blastocyst rate of 8-cell embryos was higher (P < 0.05) for EG-O than EG-DMSO. Therefore, EG-O was used to cryopreserve equine embryos. Equine oocytes were obtained from preovulatory follicles. After ICSI, injected oocytes were cultured for 1-3 d. Two- to eight-cell embryos were vitrified, warmed and transferred into recipient's oviducts. The pregnancy rate on Day 20 was 62% (5/8) for equine embryos after vitrification and warming. In summary, a successful method was established for vitrification of early-stage bovine embryos, and this method was used to establish equine pregnancies after vitrification and warming of 2- to 8-cell embryos produced by ICSI.