Effect of glucose levels during the in vitro culture in synthetic oviduct fluid medium on in vitro development of bovine oocytes matured and fertilized in vitro

Bovine embryo production in vitro: evolution of culture media and commercial perspectives

In vitro produced embryos exhibit lower viability compared to their in vivo counterparts. Mammalian preimplantation embryos have the ability to reach the blastocyst stage in diverse culture media, showcasing considerable metabolic adaptability, which complicates the identification of optimal developmental conditions. Despite embryos successfully progressing to the blastocyst stage, adaptation to suboptimal culture environments may jeopardize blastocyst viability, cryotolerance, and implantation potential. Enhancing our capacity to support preimplantation embryonic development in vitro requires a deeper understanding of fundamental embryo physiology, including preferred metabolic substrates and pathways utilized by high-quality embryos. Armed with this knowledge, it becomes achievable to optimize culture conditions to support normal, in vivo-like embryo physiology, mitigate adaptive stress, and enhance viability. The objective of this review is to summarize the evolution of culture media for bovine embryos, highlighting significant milestones and remaining challenges.

Improvement of preimplantation development of in vitro-fertilized bovine zygotes by glucose supplementation to a chemically defined medium

The influences of glucose supplementation on early development of bovine embryos in BSA-free synthetic oviduct fluid were examined. Among the groups supplemented with 1.5, 2.0, 4.0 or 5.6 mM glucose either at 0, 72 or 144 hr after fertilization, blastocysts yield significantly increased in the group supplemented with 4.0 mM glucose 144 hr after fertilization compared to the controls without glucose supplementation. The results suggest that appropriate amounts of glucose supplemented to the medium at the specific stage of embryo culture may be useful for the production of bovine blastocysts.

Effect of superovulation on uterine and serum biochemical parameters and its potential association with transferable embryos in Holstein dairy cows

The objective of this study was to determine the effects of superovulation (SOV) on serum and uterine biochemical parameters, uterine bacteriology and cytology and number of transferable embryos (TE). Dairy cows were placed on a Presynch/CIDR Synch protocol. The SOV group was superovulated, induced in estrus, and inseminated, whereas the control group was induced in estrus and inseminated without SOV. Uterine bacteriology and cytology and uterine and serum biochemical parameters were measured at day 7 of the estrous cycle to start the SOV protocol, as well as on the day of embryo recovery (DER). The SOV group produced 7.5 ± 6.7 oocytes/embryos, of which 3.4 ± 4.7 were TE. Serum urea and E2 and uterine Glu, CK, LDH, TP, P4 and PGFM in the control group and serum P4 and PGFM and uterine LDH and PGFM in the SOV group were significantly higher (p < 0.01) at DER than day 7. At DER, uterine urea, LDH, PGFM and TP and serum urea, LDH, PGFM, and P4 concentrations were higher (p < 0.01) in the SOV group than the control. There was no significant variation in uterine bacteriology or cytology. Overall, these results infer that SOV affects both serum profile and uterine secretions, and that these changes may influence the number of TE.

Effect of energy source during culture on in vitro embryo development, resistance to cryopreservation and sex ratio

The aim of this work was to evaluate whether minimizing the glucose concentration during culture or replacing the hexose with other energy substrates and/or embryotrophic compounds would affect the in vitro development, the resistance to cryopreservation and the sex ratio of bovine embryos. In vitro matured and fertilized oocytes were randomly assigned to 4 groups for in vitro culture, that differed in the energy substrates included: group A) 1.5 mM glucose, as in standard SOF; group B) 0.15 mM glucose; group C) 0.125 mM G3P, in the presence of 0.15 mM glucose and group D) 0.34 mM citrate, in combination with 2.77 mM myo-inositol. Blastocysts were evaluated on day 7, then vitrified by cryotop in 16.5% DMSO, 16.5% EG and 0.5 M sucrose and warmed in decreasing concentration of sucrose (0.25 to 0.15 M sucrose). The survival rates were assessed after 24 h in vitro culture. Finally, the blastocysts produced were sexed by PCR. An increased blastocyst rate was recorded in groups B, C and D, i.e., when glucose concentration was reduced, compared to group A (28.2, 41.0, 35.7 and 35.8, respectively in groups A, B, C and D; P < 0.01). However, the embryos cultured in group D showed the slowest developmental speed, indicated by the lowest percentage of advanced stage-embryos (expanded and hatched blastocysts) out of the total blastocysts (56.1, 45.8, 56.9 and 31.8 %, respectively in groups A, B, C and D; P < 0.01). Furthermore, survival rates after 24 h culture of vitrified-warmed blastocysts also decreased in group D (73.3, 73.1, 71.4 and 58.4%, respectively in groups A, B, C and D; P < 0.01). Interestingly, in group D a higher percentage of female embryos was obtained compared to group A, with intermediate values in groups B and C (45.6, 53.4, 50.0 and 61.5%, respectively in groups A, B, C and D; P < 0.05). In conclusion, it was demonstrated that the energy substrate during in vitro culture affects both the production and the viability of blastocysts. Furthermore, manipulating the metabolic profile of embryos during in vitro culture may have an impact on sex ratio.

Somatic cell nuclear transfer: Past, present and future perspectives

It is now over a decade since the birth, in 1996, of Dolly the first animal to be produced by nuclear transfer using an adult derived somatic cell as nuclear donor. Since this time similar techniques have been successfully applied to a range of species producing live offspring and allowing the development of transgenic technologies for agricultural, biotechnological and medical uses. However, though applicable to a range of species, overall, the efficiencies of development of healthy offspring remain low. The low frequency of successful development has been attributed to incomplete or inappropriate reprogramming of the transferred nuclear genome. Many studies have demonstrated that such reprogramming occurs by epigenetic mechanisms not involving alterations in DNA sequence, however, at present the molecular mechanisms underlying reprogramming are poorly defined. Since the birth of Dolly many studies have attempted to improve the frequency of development, this review will discuss the process of animal production by nuclear transfer and in particular changes in the methodology which have increased development and survival, simplified or increased robustness of the technique. Although much of the discussion is applicable across species, for simplicity we will concentrate primarily on published data for cattle, sheep, pigs and mice.

The Impact of Nutrition of the Cumulus Oocyte Complex and Embryo on Subsequent Development in Ruminants

Cumulus-oocyte complexes (COCs) and early embryos rely on a histotrophic nutrition source for energy production and the synthesis of macromolecules. There is accumulating evidence suggesting that the balance of supply and demand for energy and other anabolic substrates during oocyte maturation and very early stages of development programmes subsequent developmental potential, and this may include subsequent fetal growth trajectory. One example is the role of glucose (Glc) during cumulus-oocyte complex maturation. Glucose is an essential nutrient for maturation, especially its role during cumulus expansion. Our laboratory has shown that during in vitro culture, too little glucose during cumulus-oocyte complex maturation affects meiotic competence. We have focussed on glucose (Glc) metabolism through the hexosamine biosynthesis pathway (HBP) during COC maturation in vitro. The HBP in somatic cells is regarded as a "fuel-sensing" pathway and its interaction with cell signalling systems and transcriptional regulation is increasingly apparent. Up-regulation of the HBP during oocyte maturation in vitro has negative consequences for subsequent development. Another example is the role of hypoxia (low O2) during peri-compaction development. My laboratory believes that ruminant embryos during compaction, blastulation and subsequent development in the uterine cavity lack a key hypoxia responsive element. Because of this, hypoxia is important for normal development in ruminants but perturbs further development in rodents. The implication of these examples to the fundamental concept of peri-conception nutritional programming of development are discussed.

Cloning: Eight Years After Dolly

It is now 8 years since the birth of Dolly, the first animal produced by nuclear transfer using a donor cell population established from an adult animal. During this time, the technique of nuclear transfer has been successfully applied to a range of mammalian species for the production of offspring using a plethora of donor cell types derived from both foetal and adult tissues. In addition, when coupled with genetic manipulation of the donor cells, transgenic offspring have been produced with a range of genetic modifications including gene knockouts and gene knockings. Despite the apparent successes of the technology, the efficiency of development to live offspring has remained low and developmental abnormalities still occur. The objectives of this paper are to review some of the successes and failures of the nuclear transfer procedure since the production of Dolly. In particular, we will review the major steps in the procedure and discuss studies from our laboratory and others which have modified the procedure in ways which may impact on development.

Donor and recipient rat strains affect full-term development of one-cell zygotes cultured to morulae/blastocysts

The present study was conducted to examine the developmental potential to offspring of rat embryos cultured from 1-cell to morula/blastocyst stage. Pronuclear zygotes from Wistar x Wistar or (SD x DA) x Wistar strains were cultured in modified rat 1-cell embryo culture medium (mR1ECM) for 96 h in 5% CO(2) in air at 37 C. The proportion of the 3-way cross hybrid zygotes developing into morula/blastocyst stage (74%) was higher than that of the Wistar zygotes (66%). Day-5 morulae/blastocysts developed in vitro were transferred into Day-3 or -4 pseudopregnant recipients of Wistar or SD x DA strain. The transfer of cultured embryos resulted in the birth of offspring at 13-59%, while that of non-cultured control blastocysts showed birth rates of 35-65%. The best offspring rate of cultured embryos (59%) was obtained when the hybrid 1-cell zygotes were cultured in mR1ECM medium and transferred into the 2-days earlier uteri of SD x DA recipients. These results suggest that genetic background of recipients as well as donors is a possible factor affecting full-term development of rat morulae/blastocysts derived from 1-cell stage zygotes cultured in vitro.

Nuclear transfer in practice

The technique of nuclear transfer (NT) allows the production of embryos, fetuses, and offspring from a range of embryonic, fetal, and adult derived cell types in a range of species. Successful development is dependent upon numerous factors, including type of recipient cell, source of recipient cell, method of reconstruction, activation, embryo culture, donor cell type, and donor and recipient cell cycle stages. The present review will discuss the uses of NT, the techniques presently available, and the factors affecting subsequent development.

Different factors affect developmental competence and cryotolerance in in vitro produced bovine embryo

The present study was conducted to examine the effects of culture systems and culture media on developmental competence and freezability of bovine embryos obtained by in vitro culture of in vitro matured and fertilized (IVM-IVF) oocytes. No significant difference was observed in the proportions of oocytes developed to blastocysts, the speed at which the oocytes reached the blastocyst stage and the number of cells, when the IVM-IVF oocytes were cultured in CR1aa with or without cumulus cells. Nevertheless, more of the IVM-IVF oocytes cultured either with or without cumulus cells in CR1aa were seen to reach the blastocyst stage much sooner than those cultured with cumulus cells in TCM199 (P<0.05). The proportion of embryos developed to the blastocyst stage by day 7 in CR1aa culture was significantly higher than embryos cultured in TCM199. Viability after frozen-thawed blastocysts were obtained in vitro, was seen in a significantly higher percentage of embryos cultured in TCM199 and developed to the hatched blastocysts than in those cultured in CR1aa (P<0.05). These results indicate that CR1aa was superior to TCM199 for the potential developmental of IVM-IVF oocytes to blastocysts during in vitro culture regardless of co-culture with or without cumulus cells. But the freezability of blastocysts developed in CR1aa was inferior to those developed in TCM199.

Taurina no desenvolvimento de embriões bovinos fecundados in vitro

O objetivo deste trabalho foi avaliar o efeito de diferentes concentrações de taurina no desenvolvimento de embriões bovinos fecundados in vitro em meio de cultivo com diferentes fontes de soro. No experimento 1, zigotos (n=440) fecundados in vitro foram distribuídos aleatoriamente nos tratamentos com 0, 3, 7 ou 14 mM de taurina em meio de cultivo acrescido de 10% de soro fetal bovino (SFB) e 3g/l de albumina sérica bovina (BSA). No experimento 2, os zigotos (n=940) foram divididos nos tratamentos com 0, 3 ou 14 mM de taurina em meio acrescido de 10% de SFB ou 3g/l de BSA. No experimento 3, os zigotos (n=191) foram divididos nos tratamentos com 0 ou 3 mM de taurina em meio de cultivo sem fonte de soro, porém adicionado de 3 g/l de álcool polivinil. Nos experimentos 1 e 2 não se observou diferença (P>0,05) na taxa de clivagem, na produção de blastocistos e no número de células entre as concentrações de taurina avaliadas. No experimento 3 encontraram-se maior (P<0,05) taxa de clivagem (68,5% vs. 16,9%) e produção de blastocistos (8,3% vs. 0%) na presença de taurina. O cultivo de zigotos em meio adicionado de SFB produziu maior (P<0,01) taxa de blastocistos no sétimo (25,6% vs. 6,7%) e oitavo (30,8% vs. 13,9%) dia pós-fecundação e número de células/blastocistos (104,8± 2,63 vs. 84,7± 3,86) do que no cultivo com BSA, apesar de menor (P<0,01) taxa de clivagem (58,1% vs. 71,3%). Conclui-se que o efeito benéfico da taurina no desenvolvimento embrionário somente é observado na ausência de SFB e BSA. O SFB produz menor taxa de clivagem mas melhora o desenvolvimento embrionário após as primeiras divisões celulares.

In vitro development and nutrient uptake by embryos derived from oocytes of pre-pubertal and adult cows

The present study compared the developmental potential and uptake of nutrients by embryos from pre-pubertal and adult cows. Oocytes retrieved from ovaries of 5 to 7 month old calves and adult cows were matured and fertilized in vitro. Embryos were cultured in SOFaa to the blastocyst stage (7 days post-insemination). At successive stages of development, rates of glucose and pyruvate uptake were measured non-invasively by microfluorescence for individual embryos. Fertilization was equivalent in embryos from pre-pubertal and adult cows (P > 0.05), however development to blastocyst was significantly lower in embryos from pre-pubertal cows (9.8% versus 33.7%, respectively; P < 0.05). Total blastocyst cell number was not different between pre-pubertal and adult material (P > 0.05). Glucose uptake was exponential (pre-pubertal, r = 0.82; adult, r = 0. 82; P < 0.05), with an increase in uptake beyond the 8- to 16-cell stage. Glucose uptake was significantly lower in embryos from pre-pubertal cows at the 2- to 4-cell stages (1.5 versus 3.0 pmoles/embryo/hr; P < 0.05), but was equivalent to the adult cow at all other stages of development (P > 0.05). Pyruvate uptake was low until the blastocyst stage. Pyruvate uptake by embryos from pre-pubertal cows was significantly different to adult cows at the 1-cell stage (2.7 versus 4.6 pmoles/embryo/hr, respectively; P < 0. 05) and 2- to 4-cell stages (4.9 versus 3.6 pmoles/embryo/hr, respectively; P < 0.05). Pyruvate uptake was equivalent in the two groups in the later stages of development (P > 0.05). Perturbations in the uptake of nutrients by embryos from pre-pubertal cows were most likely due to the presence of a high proportion of developmentally incompetent embryos. Further, embryos from pre-pubertal cows that did develop to the blastocyst were as viable as blastocysts from adult cows with respect to nutrient uptakes and total cell number.

Metabolism of glucose, pyruvate, and glutamine during the maturation of oocytes derived from pre-pubertal and adult cows

The aim of the study was to compare the energy metabolism of oocytes from pre-pubertal (2 to 3 months) and adult cows during maturation, to identify the cause of poor developmental potential in many pre-pubertal oocytes. The metabolism of [5-(3)H] glucose, [2-(14)C] pyruvate, and [G-(3)H] glutamine was measured at 0 hr, 12 hr, and 24 hr maturation. Oxidative metabolism was important during maturation of oocytes from both pre-pubertal and adult cows, with pyruvate metabolism peaking at 12 hr and glutamine metabolism increasing linearly and peaking at 24 hr. Peak oxidative metabolism was significantly lower in oocytes from pre-pubertal animals, for both pyruvate and glutamine (P < 0.05). Glucose metabolism increased significantly during oocyte maturation in both groups (0hr to 24 hr). Glucose metabolism was significantly lower in oocytes from pre-pubertal cows at 12 hr (P < 0.05). Oocytes from pre-pubertal animals were significantly smaller than oocytes from adult cows at 0 hr, 12 hr, and 24 hr maturation (P < 0.05). When metabolic rates were corrected for oocyte volume, there were no significant differences in substrate metabolism between oocytes from pre-pubertal and adult cows. There was however, a delay in the increase in glucose metabolism in pre-pubertal oocytes 0 hr to 12 hr maturation. Germinal vesicle breakdown was slower in oocytes from pre-pubertal animals with more oocytes still at the germinal vesicle stage approximately 5 hr post-aspiration, compared to oocytes from adult cows (P < 0.05). By 24 hr, development to metaphase II was equivalent for pre-pubertal and adult oocytes. This study identified differences in energy metabolism, oocyte size, and meiotic progression between the oocytes from pre-pubertal and adult cows that may account for the poor developmental potential of many pre-pubertal oocytes.

Temporal and differential effects of amino acids on bovine embryo development in culture

The aim of the study was to determine the amino acid requirements of the in vitro-produced bovine embryo as it develops from the zygote to the blastocyst, using a two-step culture system. When added to synthetic oviduct fluid (SOF) for the first 72-h culture, Eagle's nonessential amino acids and glutamine (NeGln) significantly increased development to the 8- to 16-cell stage (Day 4 postinsemination [pi]) and subsequent blastocyst development (Day 7 pi). Glutamine alone during the first 72-h culture did not stimulate development to the 8- to 16-cell stage (p > 0.05); however, the removal of glutamine from NeGln reduced the stimulatory effects of the nonessential amino acids. Replacing glutamine with betaine (an organic osmolyte) in NeGln did not stimulate development to the 8- to 16-cell stage compared to culture in SOF, but it did improve subsequent blastocyst development, indicating an osmolytic function of glutamine during the first 72-h culture. The addition of Eagle's essential amino acids and glutamine to SOF, or to medium already containing nonessential amino acids and glutamine for the first 72-h culture, did not affect cleavage to the 8- to 16-cell stage or subsequent blastocyst development (p > 0.05). Beyond Day 4 pi, culture with 20aa (nonessential and essential amino acids and glutamine) increased blastocyst development, total cell number, and the number of cells in both the trophectoderm and inner cell mass, compared to culture with other groups of amino acids (p < 0.05). Substituting betaine for glutamine in 20aa reduced blastocyst formation, indicating a non-osmolytic function of glutamine during the second 72-h culture. Further, there was a significant negative correlation between the concentration of essential amino acids (quarter, half, or single strength) and embryo development during both the first 72-h and second 72-h culture (p < 0.01), indicating that the concentration of essential amino acids was too high during culture of the bovine embryo. This study identified the temporal and differential effects of amino acids during development of the bovine embryo from the zygote to the blastocyst.

Changes in requirements and utilization of nutrients during mammalian preimplantation embryo development and their significance in embryo culture

Along with the transition from maternal to embryonic genome control the mammalian preimplantation embryo undergoes significant changes in its physiology during development. Concomitant with these changes are altering patterns of nutrient uptake and differences in the subsequent fate of such nutrients. The most significant nutrients to the developing mammalian preimplantation embryo are carbohydrates and amino acids, which serve not only to provide energy but also to maintain embryo function by preventing cellular stress induced by suboptimal culture conditions in vitro. It is subsequently proposed that optimal development of the mammalian embryo in culture requires the use of two or more media, each designed to cater for the changing requirements of the embryo. Importantly, culture conditions that maintain the early embryo are not ideal for the embryo post-compaction, and conditions that support excellent development and differentiation of the blastocyst can actually be inhibitory to the zygote. A marker of in vitro-induced cellular stress to the embryo is the relative activity of the metabolic pathways used to generate energy for development. Quantification of embryo energy metabolism may therefore serve as a valuable marker of embryo development and viability.

Effectiveness of Menuzo's B2 medium with buffalo rat liver cells for development of in vitro matured/in vitro fertilized bovine oocytes

PURPOSE

The effectiveness of two culture media on the development of bovine embryos in a buffalo rat liver (BRL) coculture system was investigated.

METHODS

Bovine oocytes were matured and fertilized in vitro, then cocultured, 25 per well, for 7 days in 500 microliters of modified M199 or modified Menuzo's B2 medium over a BRL cell monolayer at 39 degrees C in an atmosphere of 5% CO2 in air. Medium 199 was modified by the addition of 10% of (v/v) fetal bovine serum (FBS), 9 mg/ml bovine serum albumin, 2 mM glycine, 1 mM alanine, and 0.1 mM nonessential amino acids (NEAA). Menuzo's B2 medium was modified by the addition of 10% (v/v) FBS, 1 mM alanine, and 0.1 mM NEAA.

RESULTS

Modified Menuzo's B2 medium improved embryo development to the morula or blastocyst stage compared to modified M199 (121/353, 34.3%, versus 99/362, 27.3%, P < 0.05).

CONCLUSIONS

These results suggest that Menuzo's B2 medium with modifications in a BRL coculture system can provide a significant benefit for culture of early bovine embryos over the traditional use of medium 199.

Modifications made to culture medium by bovine oviduct epithelial cells: changes to carbohydrates stimulate bovine embryo development

Co-culture remains a common method to support the development of bovine embryos, derived from IVM/IVF procedures. However, the mechanism by which somatic cells confer their benefit to the developing embryo remains undetermined. This study therefore analysed the changes made to the culture medium TCM-199, used in bovine embryo co-culture systems, by somatic cells and determined the effects of specific changes in medium composition on bovine embryo development in culture. Bovine oviduct epithelial (BOE), Buffalo rat liver (BRL) and fibroblast (3T3) cells were compared. The concentrations of glucose, L-lactate, pyruvate, amino acids, NH4+, H+ and the gas tensions of O2 and CO2 were measured in TCM-199 supplemented with 10% fetal calf serum (FCS) prior to and directly following 48 h incubation periods with each cell type. All three somatic cell types modified the carbohydrate composition of the media in a similar manner with the greatest changes made by the BOE cells. Notable alterations were an increase in the levels of L-lactate and pyruvate and a reduction in glucose concentration, which in the case of the BOE cells, fell from 5.55 mM to 2.67 mM. In order to determine the relevance of such changes in carbohydrate concentrations on bovine embryo development, modifications were made to carbohydrate levels in synthetic oviduct fluid (SOF) medium and their effect on blastocyst development in vitro assessed. In SOF medium supplemented with amino acids and BSA (SOFaa), significantly more zygotes developed to the blastocyst stage (64%; P < 0.01) than in SOFaa medium with the concentrations of glucose, D/L-lactate and pyruvate equivalent to those in TCM-199 (11%). Interestingly, when the levels of carbohydrates in SOFaa mimicked those present in TCM-199 following a 48 h incubation with BOE cells, 57% of zygotes reached the blastocyst stage. This improvement was ascribed to the reduction in glucose and increases in D/L-lactate and pyruvate concentrations in the culture system. Results from this study demonstrate that BOE cells create an environment favourable to embryonic development. The analysis of media samples by enzymatic methods meant that only the biologically active L-isomer of lactate was quantified. However, in SOFaa, both the L-isomer and inactive D-isomer are present in equimolar amounts. As such, culture media in which D/L-lactate syrup is used actually contain only 50% biologically active lactate meaning that all D/L-lactate concentrations are reported at twice the effective concentration. Therefore the effect of D/L-lactate concentration on blastocyst development was subsequently determined in this study. Blastocyst development was poor (24-36%) until the total D/L-lactate was present in the culture system at concentrations equal to or greater than 0.82 mM. However, blastocyst cell numbers remained low (60.1 +/- 6.9 - 78.5 +/- 6.6) until a total D/L-lactate concentration of 3.3 mM. This data reinforces that embryo morphological appearance is not sensitive enough to be used as the sole criterion for assessing embryo development.

Effect of glucose on embryo quality and post-thaw viability of in-vitro-produced bovine embryos

The present study was carried out to evaluate the effect of glucose absence during the first 24 h of culture on blastocyst quality and survival after freezing and thawing. In Experiment 1, IVM/TVF bovine zygotes from a slaughterhouse were cultured for 24 h in SOFm, either in the absence or in the presence of 1.5 mM glucose and then further cultured for 7 d in SOFm with 1.5 mM glucose. Absence of glucose during the first 24 h of culture increased (P < 0.001) the percentage of embryos that developed to the morula and blastocyst stages. In Experiment 2, presumptive zygotes were incubated for 24 h in the absence of glucose and were then cultured for 7 d in the presence of 1.5, 3 or 5 mM glucose. There were no differences in the percentages of embryos developing to morula or blastocyst stages at 1.5 or 3 mM glucose, whereas the 5 mM concentration appeared to be detrimental (P < 0.001). Blastocysts from Experiments 1 and 2 were assessed for freezing resistance by means of the ability of frozen-thawed embryos to re-expand their blastocoelic cavity and hatch after culture for 72 h in vitro. For Grade 1 and 2 blastocysts, the post-freezing survival rate was unaffected when glucose was omitted during the first 24 h of culture, provided that the glucose was subsequently maintained between 1.5 and 3 mM. At 5 mM glucose, blastocoelic re-expansion was inhibited (P < 0.03). Addition of 1.5 or 3 mM glucose to the culture medium following 24 h of culture without glucose did not affect embryo cell number, whereas 5 mM significantly decreased it (P < 0.01). These results indicate that the first 24 h of culture without glucose do not affect embryo quality or post-thaw viability, but an increase in blastocyst yield was observed. After 24 h of culture addition of glucose in the range 1.5 to 3 mM was beneficial, while as higher concentrations decreased the efficacy of this in vitro production technique.

Energy substrate requirements for in vitro development of early cleavage-stage bovine embryos

Energy substrate preferences of bovine cleavage-stage embryos produced by in vitro maturation and in vitro fertilization were examined in a chemically-defined (protein-free) culture medium modified hamster embryo culture medium-3, (mHECM3). Few inseminated ova cleaved without energy substrates. Glucose and/or glutamine could not support embryo development, but lactate alone was effective (37% 5-8-cells), equivalent to complex medium TCM-199 (44%). Addition of 11 selected amino acids to lactate increased embryo cleavages, although this treatment was not significantly different from pyruvate alone. Addition of glucose to lactate or to pyruvate depressed development. Lactate + amino acids was significantly better than TCM-199 (54% and 26% > or = 8-cells, respectively). Blastocyst development was evaluated after transferring > or = 8-cell embryos into a complex medium (TCM-199) containing serum. Cleavage-stage embryos produced with pyruvate alone or with lactate + amino acids yielded the highest proportions of blastocysts (36% and 41%, respectively, of inseminated ova). Between 33-63% of blastocysts derived from embryos that were initially developed in mHECM-3 supplemented with various substrates escaped from their zonae (hatched) depending on the treatment, but none of the embryos from the pyruvate + glucose combination hatched. This study shows that optimal energy substrates for bovine cleavage-stage embryo development can be determined using a chemically-defined culture medium, that a simple medium with selected substrates can support early development as well as or better than a complex medium, that a two-step culture system can be used to evaluate blastocyst development from these cleavage-stage embryos, and that timing and hatching of embryos may provide additional information about discriminating between the suitabilities of different substrates for early embryo development.

Development of in vitro matured and fertilized bovine embryos, cultured from days 1–5 post insemination in either Menezo-B2 medium or in HECM-6 medium

Bovine embryos were produced by in vitro maturation and fertilization of abattoir oocytes. The embryos were randomly allocated either to coculture with bovine oviduct cells in Menezo-B2 medium (control group), or to culture in the defined HECM-6 medium. At Day 5 after insemination the HECM-6 embryos were transferred to Menezo-B2 medium with (HECM-B2/BOEC) or without (HECM-B2) oviduct cells for further culture. The proportion of cleaved embryos and blastocysts, the morphology and the speed of development were compared for the control and HECM groups. Significantly more HECM-6 embryos than control embryos cleaved (88 +/- 3% vs 76 +/- 5% (+/- SD)). Significantly fewer blastocysts developed in the HECM-B2 than in the control group (28 +/- 2% vs 35 +/- 3%), in addition the speed of development was delayed and the morphology was impaired. In the HECM-B2/BOEC group no differences in neither morphology, blastocyst rates (31 +/- 8%) nor speed of development could be demonstrated, when compared with the control group. A portion of the control and HECM-B2 embryos were vitrified at Days 7-8, but no differences were noted in survival or morphology at 48 and 72 h post thawing. It can be concluded, that the defined medium HECM-6 can support bovine embryonic development through the 8-16 cell in vitro block stage without the use of coculture in a reliable way. In our system it was however necessary to transfer the embryos at Day 5 to coculture in Menezo-B2 medium to ensure optimal continuation of development.