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% ≤8-cells, respectively). Blastocyst development was evaluated after transferring ≤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. © 1996 Wiley-Liss, Inc.     

Energy and protein sources for development of pig embryos cultured beyond hatching in vitro

The effects of supplementation of synthetic culture media with different energy and protein sources on in vitro development of pig embryos beyond the 4–8-cell stage have been explored.Minimal Essential Medium (MEM) supplemented with glucose (1 mg/ml) proved superior to Krebs-Ringer Bicarbonate (KRB) supplemented with glucose (1 mg/ml) in its capacity to support embryonic development to the expanded blastocyst stage (P < 0.05). Inclusion of pyruvate (0.25 mM) or lactate (25 mM) in either MEM or KRB based media inhibited embryonic development. As pyruvate and lactate are important and readily utilizable energy sources for development of most other mammalian embryos in vitro, it is suggested that the observed inhibitory effects of these substrates reflect comparatively lower critical ranges of concentrations of pyruvate and lactate for optimum development of pig embryos in vitro.As a supplementary protein source to MEM, heat inactivated (HI) human serum (10% υ/υ) was superior (P < 0.05) to HI-pig serum (10% υ/υ), HI-foetal calf serum (10% υ/υ) or bovine serum albumin (5 mg/ml). The proportion of 4–8-cell pig embryos which developed beyond hatching in MEM supplemented with HI-human serum (> 56%) was higher than any other reported for in vitro culture of pig embryos through the same developmental period and this medium is recommended for future studies on in vitro development of pig embryos from the four-cell through the hatched/expanded blastocyst stages.     

Weighting of Spatial and Spectro-Temporal Cues for Auditory Scene Analysis by Human Listeners

The auditory system creates a neuronal representation of the acoustic world based on spectral and temporal cues present at the listener''s ears, including cues that potentially signal the locations of sounds. Discrimination of concurrent sounds from multiple sources is especially challenging. The current study is part of an effort to better understand the neuronal mechanisms governing this process, which has been termed “auditory scene analysis”. In particular, we are interested in spatial release from masking by which spatial cues can segregate signals from other competing sounds, thereby overcoming the tendency of overlapping spectra and/or common temporal envelopes to fuse signals with maskers. We studied detection of pulsed tones in free-field conditions in the presence of concurrent multi-tone non-speech maskers. In “energetic” masking conditions, in which the frequencies of maskers fell within the ±1/3-octave band containing the signal, spatial release from masking at low frequencies (∼600 Hz) was found to be about 10 dB. In contrast, negligible spatial release from energetic masking was seen at high frequencies (∼4000 Hz). We observed robust spatial release from masking in broadband “informational” masking conditions, in which listeners could confuse signal with masker even though there was no spectral overlap. Substantial spatial release was observed in conditions in which the onsets of the signal and all masker components were synchronized, and spatial release was even greater under asynchronous conditions. Spatial cues limited to high frequencies (>1500 Hz), which could have included interaural level differences and the better-ear effect, produced only limited improvement in signal detection. Substantially greater improvement was seen for low-frequency sounds, for which interaural time differences are the dominant spatial cue.     

Study of the Citrate Metabolism of Lactococcus lactis subsp. lactis Biovar Diacetylactis by Means of 13C Nuclear Magnetic Resonance

The metabolic fate of citrate and pyruvate in four strains of Lactococcus lactis subsp. lactis biovar diacetylactis has been studied by means of ¹³C nuclear magnetic resonance, using as a substrate either [3-¹³C]pyruvic acid or custom-synthesized citric acid that is ¹³C labeled either at carbons 2 and 4 or at carbon 3. The fermentations were carried out batchwise in modified M17 broth. For the actual conversions of the ¹³C-labeled substrates, cells at the end of their logarithmic growth phase were used to minimize the conversion to lactic acid. A mass balance of the main citric acid metabolites was obtained; the four strains produced from 50 to 70% (on a molar basis) lactic acid from either citrate or pyruvate. The remaining 50 to 30% was converted mainly to either α-acetolactic acid (for one strain) or acetoin (for the other three strains). One of the strains produced an exceptionally high concentration of the diacetyl precursor α-acetolactic acid. Another strain (SDC6) also produced α-acetolactic acid, but this was decarboxylated to acetoin at a high rate. The ¹³C nuclear magnetic resonance method confirmed that the biosynthesis of α-acetolactic acid occurs via condensation of pyruvate and “active” acetaldehyde. Diacetyl was not found as a direct metabolite of citrate or pyruvate metabolism.     

In Organello and in Vivo Evidence of the Importance of the Regulatory Sulfhydryl/Disulfide System and Pyruvate for Alternative Oxidase Activity in Tobacco

After isolation of tobacco (Nicotiana tabacum) leaf mitochondria, alternative oxidase (AOX) is predominantly present as the disulfide-linked, less-active “oxidized” form. In an in organello assay, significant AOX activity was dependent upon both the reduction of the regulatory disulfide bond (such as occurs by dithiothreitol) and upon the presence of the activator pyruvate. However, AOX activity in these assays was substantially affected when mitochondria were isolated in the presence of pyruvate. First, pyruvate protects against the oxidation of the regulatory sulfhydryl during isolation, such that subsequent in organello AOX activity is not dependent upon dithiothreitol. Second, pyruvate stabilizes AOX activity, such that mitochondria kept in the presence of pyruvate have higher maximum rates of AOX activity than mitochondria kept for some time in the absence of pyruvate. The ability of pyruvate to protect against AOX oxidation was exploited to assess the in vivo status of the regulatory sulfhydryl/disulfide system. In both tobacco suspension cells and tobacco leaves with high levels of AOX protein, the protein is predominantly present as the “reduced” active form in vivo under a range of respiratory conditions. Experiments also indicate that, while the presence of reduced protein may be a necessary prerequisite for significant AOX activity, it is not sufficient for activity and other factors must also be critical.     

Avian Tumor Virus Proteins and RNA in Uninfected Chicken Embryo Cells

The content of proteins P19 and P15 (mol wt 19,000 and 15,000, respectively) of avian leukovirus in various types of uninfected chicken embryos has been determined by radioimmunoassay. All chicken embryos examined, including embryos which have thus far been classified as group specific (gs) antigen negative by complement fixation tests, contained these viral proteins as well as P27 as previously reported. The embryos known as “gs antigen-positive” type contained about five times as much of these viral proteins as did the “gs antigen-negative” type. The ratio of the three viral proteins was similar for all types of embryos, suggesting that the genes for these proteins are coordinately controlled. In contrast to the relatively high levels of viral internal proteins in gs antigen-negative cells, the amounts of virus-specific RNA detectable by molecular hybridization were extremely low. The levels of helper activity, which presumably reflect the level of viral envelope glycoprotein, were also generally low or undetectable in these cells. Thus, the expression of the gene for envelope glycoprotein does not appear to be controlled coordinately with the genes for viral internal proteins.     

Correlation between seed longevity and RNA integrity in the embryos of rice seeds

The mature embryos of rice seeds contain translatable mRNAs required for the initial phase of germination. To clarify the relationship between seed longevity and RNA integrity in embryos, germinability and stability of embryonic RNAs were analyzed using the seeds of japonica rice cultivars subjected to controlled deterioration treatment (CDT) or long periods of storage. Degradation of RNA from embryos of a japonica rice cultivar “Nipponbare” was induced by CDT before the decline of the germination rate and we observed a positive relationship between seed germinability and integrity of embryonic RNAs. Moreover, this relationship was confirmed in the experiments using aged seeds from the “Nipponbare”, “Sasanishiki” and “Koshihikari” rice cultivars. In addition, the RNA integrity number (RIN) values, calculated using electrophoresis data and Agilent Bioanalyzer software, had a positive correlation with germinability (R²=0.75). Therefore, the stability of embryonic RNAs required for germination is involved in maintaining seed longevity over time and RIN values can serve as a quantitative indicator to evaluate germinability in rice.     

Influence of ethanol on the metabolism of perfused normal, fatty and cirrhotic rat livers

1. The influence of ethanol on the metabolism of perfused livers from normal rats and rats in various stages of development of dietary cirrhosis was studied. A choline-deficient, low-protein and high-fat diet was used. Results were obtained on oxygen consumption and carbon dioxide production, on glucose release and uptake by the liver and on changes in the concentrations of lactate and pyruvate and of β-hydroxybutyrate and acetoacetate in the perfusion medium. 2. Oxygen consumption and carbon dioxide production were lower in fatty and cirrhotic livers than in normal livers. Ethanol had no effect on the oxygen consumption of any of the various livers. After addition of ethanol to the perfusion medium carbon dioxide production ceased almost completely in normal livers. Only a slight decrease in the carbon dioxide production occurred in fatty and cirrhotic livers. 3. With every type of liver glucose was released from the liver into the perfusion medium during the initial control period. This release continued after the addition of ethanol to the perfusion medium in experiments with normal and fatty livers, whereas with cirrhotic livers a marked uptake of glucose from the medium was found. A simultaneous release of the glycolytic end products lactate and pyruvate into the medium occurred. 4. The production of ketone bodies was equal in normal and early fatty livers (6 weeks on the fat diet). It was smaller in late fatty livers (3–4 months on the fatty diet) and in cirrhotic livers. 5. The lactate/pyruvate concentration ratio in the perfusion medium increased from 11 to 67 with normal livers, from 12 to 16 with early fatty livers, from 13 to 26 with late fatty livers and from 21 to 55 with cirrhotic livers when the livers were perfused with a medium containing ethanol. The β-hydroxybutyrate/acetoacetate concentration ratio increased from 1·2 to 8·4 in normal livers, from 2·0 to 2·8 in early fatty livers, from 1·2 to 2·4 in late fatty livers and from 2·1 to 4·0 in cirrhotic livers when ethanol was added to the medium. 6. The effects of ethanol on liver metabolism during the development of dietary cirrhosis are discussed and related to human fatty liver and cirrhosis during chronic ethanol consumption.     

Maturation of soybean somatic embryos and the transition to plantlet growth

The maturation of soybean (Glycine max L. Merr.) somatic embryos was characterized. Maturation was assayed by evaluating the ability of somatic embryos to make the transition to a plantlet through a germination-like process. Somatic embryos were organized from cotyledons of immature soybean embryos. Maturation of somatic embryos occurred on a Murashige-Skoog basal medium supplemented with activated charcoal and 0.28 molar sucrose. After 8 weeks on this medium, somatic embryos exhibited vigorous, high frequency development to plantlets. The “germination” frequency (conversion) of somatic embryos, and plantlet recovery frequency varied concurrently with maturation period. Conversion and plant recovery required no exogenous growth regulators. Desiccation of immature somatic embryos under controlled humidity regimes resulted in increased frequency of conversion of immature somatic embryos. Morphological abnormalities appeared in the somatic embryos, but few were detrimental to conversion velocity. There was little effect of genotype on conversion velocity or frequency.     

Influence of ethanol on the liver metabolism of fed and starved rats

1. The influence of ethanol on the metabolism of livers from fed and starved rats has been studied in liver-perfusion experiments. Results have been obtained on oxygen consumption and carbon dioxide production, on glucose release and uptake by the liver and on changes in the concentrations of lactate and pyruvate and of β-hydroxybutyrate and acetoacetate in the perfusion medium. 2. Oxygen consumption and carbon dioxide production were lower in livers from starved rats than in livers from fed rats. Ethanol had no effect on the oxygen consumption of either type of liver. After the addition of ethanol to the perfusion medium carbon dioxide production ceased almost completely, the change being faster in livers from starved rats. 3. With livers from fed rats glucose was released from the liver into the perfusion medium. This release was slightly greater when ethanol was present. With livers from starved rats no release of glucose was observed, and when ethanol was added a marked uptake of glucose from the medium was found. A simultaneous release of glycolytic end products, lactate and pyruvate, into the medium occurred. 4. Acetate was the main metabolite accumulating in the perfusion medium when ethanol was oxidized. With livers from starved rats a slightly increased formation of ketone bodies was found when ethanol was present. 5. The lactate/pyruvate concentration ratio in the perfusion medium increased from 10 to 87 with livers from fed rats and from 20 to 171 with livers from starved rats when the livers were perfused with ethanol in the medium. The β-hydroxybutyrate/acetoacetate concentration ratio increased from 0·8 to 7·6 with livers from fed rats and from 1·0 to 9·5 with livers from starved rats when ethanol was added to the medium. 6. The effects of ethanol are discussed and related to changes in the redox state of the liver that produce new conditions for some metabolic pathways.     

Acetoacetate and beta-D-hydroxybutyrate as energy substrates during early bovine embryo development in vitro

We examined the effects of acetoacetate and other metabolic products of fatty acid oxidation on early bovine embryo development. In vitro produced bovine zygotes were cultured in modified-synthetic oviduct fluid medium supplemented with acetoacetate, acetoacetate derivatives, acetyl CoA precursors and lithium chloride. Acetoacetate and all acetoacetate derivatives, with the exception of the ethyl ester, supported in vitro development up to the hatched blastocyst stage at rates similar to that of controls supplemented with lactate/pyruvate. The optimal concentration of acetoacetate in supporting embryo development was 3.6 mM; addition of 1.8 and 3.6 mM lithium chloride did not significantly affect embryo development, while 7.2 mM was inhibitory. Hatched blastocysts cultured with 3.6 mM acetoacetate contained a similar number of cells as the lactate/pyruvate control group. It can be concluded that in vitro produced bovine embryos can develop using ketone bodies as energy substrates, which could be derived in vivo from endogenous lipids.     

Characterization and regulation of monocarboxylate cotransporters Slc16a7 and Slc16a3 in preimplantation mouse embryos

Concurrent with compaction, preimplantation mouse embryos switch from the high pyruvate consumption that prevailed during cleavage stages to glucose consumption against a constant background of pyruvate uptake. However, zygotes exposed to and subsequently deprived of glucose can form blastocysts by increasing pyruvate uptake. This metabolic switch requires cleavage-stage exposure to glucose and is one aspect of metabolic differentiation that normally occurs in vivo. Monocarboxylates, such as pyruvate and lactate, are transported across membranes via the SLC16 family of H(+)-monocarboxylate cotransporter (MCT) proteins. Thus, the increase in pyruvate uptake in embryos developing without glucose must involve changes in activity and localization of MCT. In mouse embryos, continued expression of Slc16a1 (MCT1) requires glucose supply. Messenger RNA for Slc17a7 (MCT2) and Slc16a3 (MCT4) has been detected in mouse preimplantation embryos; however, protein function, localization, and regulation of expression at the basis of these net pyruvate uptake changes remain unclear. The expression and localization of SLC16A7 and SLC16A3 have therefore been examined to clarify their respective roles in embryos derived from the reproductive tract and cultured under varied conditions. SLC16A3 appears localized to the plasma membrane until the morula stage and also maintains a nuclear distribution throughout preimplantation development. However, continued Slc16a3 mRNA expression is dependent on prior exposure to glucose. SLC16A7 localizes to apical cortical regions with punctate, vesicular expression throughout blastomeres, partially colocalizing in peroxisomes with peroxisomal catalase (CAT). In contrast to SLC16A3 and SLC16A1, SLC16A7 and CAT demonstrate upregulation in the absence of glucose. These striking differences between the two isoforms in expression localization and regulation suggest unique roles for each in monocarboxylate transport and pH regulation during preimplantation development, and implicate peroxisomal SLC16A7 as an important redox regulator in the absence of glucose.     

Factors Associated with Alcohol Consumption in Hepatitis B Carriers: A Nationwide Study in the Republic of Korea

This study was conducted to investigate the prevalence of alcohol consumption and identify the sociodemographic factors associated with alcohol consumption among individuals with hepatitis B virus(HBV) infection. We used data from the Korean National Health and Nutrition Examination Surveys, a nationwide survey conducted between 2007 and 2011. “Monthly alcohol consumption” was defined as having consumed alcohol at least once per month during the past year, and “high-risk alcohol consumption” was defined as having consumed alcohol twice or more per week and, for males, having consumed at least 60 g of alcohol on one occasion or, for females, having consumed at least 40 g of alcohol on more than one occasion. The prevalence of monthly alcohol consumption was 53.2%, and that of high-risk alcohol consumption was 11.8% among HBV carriers. Less education was associated with both monthly and high-risk alcohol consumption(OR = 1.75 [95% CI = 1.02−3.02] for monthly alcohol consumption among those with less than a high school education; OR = 2.48 [95% CI = 1.19−5.17] for high-risk alcohol consumption among those with less than a high school education and OR = 2.02 [95% CI = 1.12−3.64] among those with a high school education). Additionally, smoking and being male increased the risk of alcohol consumption, and older age and having a normal body mass index decreased the risk. HBV carriers who were less educated, overweight, and smokers were more likely to consume alcohol or meet criteria for high-risk drinking. Health policies and intervention programs aimed at promoting a generally healthy lifestyle in HBV carriers should consider educational inequalities and alcohol consumption.     

Metformin and Resveratrol Inhibited High Glucose-Induced Metabolic Memory of Endothelial Senescence through SIRT1/p300/p53/p21 Pathway

Endothelial senescence plays crucial roles in diabetic vascular complication. Recent evidence indicated that transient hyperglycaemia could potentiate persistent diabetic vascular complications, a phenomenon known as “metabolic memory.” Although SIRT1 has been demonstrated to mediate high glucose-induced endothelial senescence, whether and how “metabolic memory” would affect endothelial senescence through SIRT1 signaling remains largely unknown. In this study, we investigated the involvement of SIRT1 axis as well as the protective effects of resveratrol (RSV) and metformin (MET), two potent SIRT1 activators, during the occurrence of “metabolic memory” of cellular senescence (senescent “memory”). Human umbilical vascular endothelial cells (HUVECs) were cultured in either normal glucose (NG)/high glucose (HG) media for 6 days, or 3 days of HG followed by 3 days of NG (HN), with or without RSV or MET treatment. It was shown that HN incubation triggered persistent downregulation of deacetylase SIRT1 and upregulation of acetyltransferase p300, leading to sustained hyperacetylation (at K382) and activation of p53, and subsequent p53/p21-mediated senescent “memory.” In contrast, senescent “memory” was abrogated by overexpression of SIRT1 or knockdown of p300. Interestingly, we found that SIRT1 and p300 could regulate each other in response to HN stimulation, suggesting that a delicate balance between acetyltransferases and deacetylases may be particularly important for sustained acetylation and activation of non-histone proteins (such as p53), and eventually the occurrence of “metabolic memory.” Furthermore, we found that RSV or MET treatment prevented senescent “memory” by modulating SIRT1/p300/p53/p21 pathway. Notably, early and continuous treatment of MET, but not RSV, was particularly important for preventing senescent “memory.” In conclusion, short-term high glucose stimulation could induce sustained endothelial senescence via SIRT1/p300/p53/p21 pathway. RVS or MET treatment could enhance SIRT1-mediated signaling and thus protect against senescent “memory” independent of their glucose lowering mechanisms. Therefore, they may serve as promising therapeutic drugs against the development of “metabolic memory.”     

Improved in vitro development of porcine embryos with different energy substrates and serum

The effect of replacing 5.5 mM glucose in North Carolina State University (NCSU)-23 medium with 0.5 mM pyruvate/5.0 mM lactate on porcine IVF embryo development was investigated in Experiment 1. Culturing embryos with pyruvate/lactate for 7 days or with pyruvate/lactate from Days 0 to 2, and then glucose from Days 2 to 7 improved cleavage rates. In Experiment 2, embryos were cultured for 7 days in pyruvate/lactate containing NCSU-23 medium supplemented with 0.05% PVA, 0.4% BSA or 10% fetal bovine serum (FBS). The BSA supplement increased the rates of cleavage, blastocyst formation, and the number of total cells in blastocysts. In Experiment 3, embryos were cultured in pyruvate/lactate containing NCSU-23 medium supplemented with 0.4% BSA for 7 days (BSA-PL), 0.4% BSA from Days 0 to 4 and then 10% FBS from Days 4 to 7 (BSA-PL-->F ) or 0.4% BSA from Days 0 to 7 with addition of 10% FBS (BSA-PL + F ) at Day 4. More blastocysts in BSA-PL--> F and hatching or hatched blastocysts in BSA-PL-->F and BSA-PL+F were obtained. Total cell number in blastocysts derived from BSA-PL-->F and BSA-PL+F were increased. Our results demonstrated that supplementing pyruvate/lactate containing NCSU-23 medium with 0.4% BSA for 4 days and replacing it with 10% FBS for another 3 days improved porcine IVF embryo development.     

Identification and Isolation of Single Cells that Produce Somatic Embryos at a High Frequency in a Carrot Suspension Culture

A system was established in which single cells differentiated to embryos at a high frequency. Small spherical single cells from a carrot (Daucus carota L. cv “Kurodagosun”) cell suspension culture were obtained by fractionation through sieving, using nylon screens and then density gradient centrifugation in Percoll solutions. Eighty-five to 90% of these small single cells differentiated to embryos when they were cultured in a medium containing 2,4-dichlorophenoxyacetic acid (5 × 10⁻⁸ molar), zeatin (10⁻⁶ molar), and mannitol (0.2 molar) for 7 days, followed by transfer to a medium containing zeatin (10⁻⁷ molar) but no auxin. This indicates that there are at least two phases in the differentiation of embryos from single cells. The progression of the first phase required exogenous auxin, whereas that of the second phase was inhibited by the same growth regulator. The relationship between the morphology and potency for embryogenesis from single cells was discussed. The system established here is a useful one for investigation of differentiation process from a single cell to a whole plant via embryogenesis, especially in its early stage.     

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.     

Collection of two-cell pig embryos and their culture in media containing different protein components

Eggs were flushed from the oviducts of slaughtered gilts that had been inseminated after synchronization of estrus and ovulation with pregnant mare serum gonadotrophin (PMSG) and human chorionic gonadotrophin (HCG). Of 347 eggs collected at a recovery rate of 73.8%, 41.8% had not cleaved by 32 h after expected ovulation time. Of those cleaved, 86.9% were at the two-cell stage.Two-cell embryos were cultured in Dulbecco's medium containing either no protein or 20% of one of the following: lyophilized bovine serum albumin, lyophilized fetal calf serum or heat-inactivated serum from slaughter heifers, rabbits or barrows. Dulbecco's medium without protein did not support further development of embryos. Addition of heat-inactivated blood serum from slaughter heifers, rabbits or barrows resulted in development rates similar to those obtained by using commercially available products. Optimal embryonic development rates of 54.5% were obtained with addition of heat-inactivated bovine serum. Of the two-cell embryos only three (2.1%) developed past the four-cell stage in these culture media.     

Role of glucose in mouse preimplantation embryo development

Mouse preimplantation embryos consume pyruvate preferentially during the early developmental stages, before glucose becomes the predominant energy substrate in the blastocyst. To investigate the importance of the switch to glucose utilization at the later developmental stages, mouse embryos from F1 hybrid mice (CBA/Ca × C57BL/6) were cultured from the one-and two-cell stages (22 and 46 h post hCG, respectively) for 5 days in a modified medium, M16, containing 0.33 mM pyruvate and 5 or 23 mM D+L-lactate, in the presence and absence of 1 mM glucose (M16+G and M16-G, respectively). Nutrient uptakes were also determined over this time. Some embryos cultured in M16-G were transferred to M16+G at 94 or 118 h post hCG. Embryos cultured from the two-cell stage in M16+G exhibited the characteristic fall in pyruvate consumption between the morula and the blastocyst stage; those cultured from the two-cell stage in M16-G compensated for the lack of glucose by consuming increasing amounts of pyruvate, from 2.78 pmol/embryo/h at 58 h post hCG to 5.21 pmol/embryo/h at 154 h post hCG. However, the percentage of embryos developing to the blastocyst stage, the hatching rate, and blastocyst cell numbers (50.6 ± 2.5 [28] vs. 105 ± 3.8 [37]) were all lower in this group. When exposed to glucose at 94 or 118 h post hCG, embryos cultured from the two-cell stage in M16-G readily consumed glucose in preference to pyruvate, although the characteristic fall in pyruvate consumption was not observed. One-cell embryos cultured continuously in M16-G were only able to develop to the morula stage, after which time they degenerated. In these embryos pyruvate was readily consumed between 22 and 94 h post hCG, before falling from 2.77 pmol/embryo/h at 83 h post hCG to 0.045 pmol/embryo/h at 130 h post hCG. Transfer of these embryos to M16+G at 94 and 118 h post hCG did not support development to the hatching blastocyst stage. The results show that mouse preimplantation embryos from F1 hybrid mice (CBA/Ca × C57BL/6) need only be exposed to glucose for less than 24 h between 22 and 94 h post hCG in order to develop from the morula to the blastocyst stage in vitro. However, the exposure time needs to be increased to between 24 and 72 h in order that blastocyst cell numbers reach control levels. The importance of glucose before the morula stage may relate to the need to synthesize glycogen for later use. If the obligatory requirement for glucose is fulfilled, embryos are able to utilize pyruvate in the absence of glucose at the later stages of development. These results show that the mouse preimplantation embryo can, to some extent, adapt metabolically to changes in its external environment. © 1995 Wiley-Liss, Inc.