Bicarbonate abolishes intracellular alkalinization in mitogen-stimulated 3T3 cells

An increase in intracellular pH (pHi) following mitogenic stimulation has been reported in a variety of mammalian cells (W. Moolenaar, Annu. Rev. Physiol., 48:363-376, 1986; E. Rozengurt, Science, 234:161-166, 1986). This increase is currently believed to constitute a "permissive" signal in the process of cell activation (A.E. Lagarde and J.M. Pouyssegur, Cancer Biochem. Biophys. 9:1-14, 1986). Since the majority of studies of this phenomenon have been conducted in the nonphysiological milieu of bicarbonate-free solutions, we have undertaken a study of the effects of bicarbonate and CO2 on mitogen-induced intracellular alkalinization in NIH 3T3 cells. Using nuclear magnetic resonance (NMR) spectroscopy and novel 31P NMR pH indicators (2-amino-phosphono-carboxylic acids) we found that mitogen induces an increase in pHi of 0.16 units only in cells bathed in medium containing low concentrations of bicarbonate (less than 1 mM) and not in cells bathed in medium containing physiological levels of bicarbonate (10-30 mM). In addition to abolishing the mitogen-induced alkalinization, bicarbonate stabilizes pHi at 7.25 units as the external pH (pHe) is varied from 7.0 to 7.6. In contrast, in a bicarbonate-free medium pHi increases from 6.9 to 7.3 over the same range of external pHs. At a constant external pH, increasing the bicarbonate/CO2 concentration results in an increase in pHi from 6.9 in bicarbonate-free solution to 7.25 in a bicarbonate-buffered medium. This relationship is hyperbolic with half-maximal effect occurring at a concentration of 0.4 mM bicarbonate at pH 7.05 and 37 degrees C. Our results suggest that the observations of mitogen-induced alkalinization may be due to the use of nonphysiological bicarbonate-free media. Since this increase in pHi is not observed in physiological media where bicarbonate concentrations are usually greater than 20 mM, we conclude that an increase in pHi is not an obligatory or usual part of the cellular response to growth factors in vivo.     

Protein-free culture medium containing polyvinylalcohol, vitamins, and amino acids supports development of eight-cell hamster embryos to hatching blastocysts

In vitro development of eight-cell hamster embryos to hatching blastocysts requires the presence of amino acids and a group of water-soluble vitamins in the culture medium. The present studies investigated the effect of type of macromolecule on blastocyst hatching and on the requirement for vitamins. Embryos were cultured for 3 days in the presence of the synthetic macromolecule polyvinylalcohol (PVA) and of different types of bovine serum albumin (BSA), both with and without vitamins. The results showed th at eight-cell embryos develop to hatching blastocysts in the presence of vitamins and amino acids with PVA as the only macromolecule in the medium. The presence of certain types of BSA reduced but did not eliminate the need for vitamins. Glutamine alone was as efficient as a complete amino acid supplement in supporting blastocyst hatching. These results demonstrate for the first time that eight-cell hamster embryos can be cultured to hatching blastocysts in a chemically defined medium.     

Environmental variables influencing in vitro development of hamster 2-cell embryos to the blastocyst stage

This study is a systematic analysis of environmental variables influencing development of 2-cell hamster embryos to the blastocyst stage in vitro. Experiments were done using a chemically defined (protein-free) culture medium (HECM-2). Physicochemical variables examined were temperature, the concentrations of CO2, HCO3-, Ca2+, Mg2+, K+, and O2, the presence of a silicone oil overlay, and osmotic pressure. The optimal temperature for development in vitro was 37.5 degrees C; lower temperatures were inhibitory. There was no significant effect on blastocyst development of alterations in the concentrations of NaHCO3, CaCl2, MgCl2, and KCl, or in the ratios of Ca2+:Mg2+ and Na+:K+, over the ranges tested. Development to the blastocyst stage was significantly stimulated by increased CO2 concentrations (7.5% and 10%), by reduced O2 concentrations (10% and 5%), and by the presence of silicone oil overlying the culture medium. Reduction of blastocyst development in the absence of an oil overlay was not caused by increased osmotic pressure. Cleavage stage embryos were not affected by osmolalities ranging from 250 to 350 mOsmols, but blastocyst development was inhibited at greater than or equal to 325 mOsmols. Under optimized conditions (37.5 degrees C, 10% CO2, 25 mM HCO3-, 2.0 mM Ca2+, 0.5 mM Mg2+, 3.0 mM K+, 10% O2, 250-300 mOsmols, with silicone oil overlay), 51-57% of 2-cell hamster embryos developed to the blastocyst stage. This represents a significant improvement over previous "standard" culture conditions, which supported development of 26% blastocysts from 2-cell hamster embryos. The culture system described here provides an adequate baseline response to support detailed investigations into the regulation of embryo development in the hamster.     

The regulation of intracellular pH studied by 31P- and 1H-NMR spectroscopy in superfused guinea-pig cerebral cortex slices.

(1) The intracellular pH (pHi) of superfused slices of guinea-pig cerebral cortex was measured in 31P-NMR spectra using the chemical shifts of intracellular inorganic phosphate (Pi) and of 2-deoxyglucose 6-phosphate (DOG6P). The pHi was found to be 7.30 +/- 0.04 (SD, n = 15) in bicarbonate-buffered medium and 7.20 +/- 0.05 (n = 10, P < 0.001) in bicarbonate-free HEPES buffer of the same pH (7.4). (2) Decreases in pHe below 7.05 resulted in pHi falling to similar values, with a decrease in the energy state. There was no change in intracellular lactate as assessed by 1H-NMR. (3) The tissues showed an ability to buffer higher pH: increasing pHe to 8.0 had no effect on pHi, PCr or lactate. (4) In order to characterize possible mechanisms of pH regulation in the tissue, the recovery from acid insult was investigated under various conditions. Initially pHi was decreased to 6.44 +/- 0.15 (n = 15) by exposure to media containing 6 mM bicarbonate gassed with O2/CO2, 80:20 (pHe 6.4). When this medium was replaced by normal bicarbonate buffer (pH 7.4) there was full recovery of pHi to 7.31 +/- 0.05 (n = 15), whereas replacing the buffer with HEPES resulted in incomplete recovery of pHi to 6.88 +/- 0.15 (n = 15, P < 0.001). (5) In the presence of the carbonic anhydrase inhibitor, acetazolamide (1 mM), or the sodium/proton exchange inhibitor, amiloride (1 mM), there was an incomplete return of pHi to the control value (pHi 6.90 +/- 0.20, n = 5, P < 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)     

Development of preimplantation embryos of the golden hamster in a defined culture medium

Eight-cell embryos were recovered from mated golden hamsters that had been superovulated with pregnant mare's serum gonadotropin (PMSG) and human chorionic gonadotropin (hCG). Embryos were cultured for 24 or 32 h in a defined medium (modified Tyrode's solution) designed for fertilization of hamster oocytes in vitro. This medium was supplemented in some experiments with amino acids (glutamine, phenylalanine, methionine and isoleucine) and with vitamins (Eagle's Minimum Essential Medium vitamin supplement). At the end of the culture period, the numbers of embryos developing to the blastocyst stage were recorded. In other experiments, the effects of varying the osmotic pressure (225, 250, 275 and 300 m0smol/kg) and the pH (6.8 and 7.4) of the culture medium on blastocyst formation were examined. A difference was found between the ability of early 8-cell embryos (approx. 54 h post-egg activation) and late 8-cell embryos (approx. 62 h post-egg activation) to develop in culture. In the unsupplemented culture medium, only 2% of early 8-cell embryos developed to the blastocyst stage compared with 22% of late 8-cell embryos. A marked effect of the four amino acids on development was found. In the presence of amino acids 36% of early 8-cell embryos developed into blastocysts (18-fold increase). The amino acids also increased the percentage of late 8-cell embryos that developed into blastocysts from 22% to 66%. These data suggest that an important metabolic change may occur in hamster embryos during a critical period at the 8-cell stage of development. No additional effect on development was observed when vitamins were included in the culture medium. No significant effect of either osmotic pressure of pH of the culture medium on development was found. When blastocysts formed from cultured 8-cell embryos were transferred surgically to pseudopregnant hamsters, about 25% developed into normal-looking fetuses and 5 normal-looking young were born, 4 of which have survived. These results represent an approach towards achieving complete preimplantation development of hamster embryos in vitro.     

Glucose inhibits development of hamster 8-cell embryos in vitro

Relative preferences of energy substrates (glucose, pyruvate, and lactate) for in vitro development of hamster 8-cell embryos were investigated. Using protein-free modified Tyrode's medium (TLP-PVA) containing 10 mM lactate (L), 0.1 mM pyruvate (P), and amino acids (Phe, Ile, Met and Gln), we found that development of hamster 8-cell embryos to blastocysts was supported better in the absence of glucose than in medium containing (standard) 5 mM glucose (88.1% and 50%, respectively). Addition of even 0.25 mM glucose to the medium significantly inhibited blastocyst formation (54.1%). Medium T-PVA, containing 5 mM glucose as sole energy substrate (without pyruvate, lactate, and amino acids), very poorly supported embryo development (less than or equal to 7.9% blastocysts), but addition of 0.1 mM pyruvate enhanced blastocyst formation (52%). Elimination of pyruvate in TL-PVA medium containing 5 mM glucose and amino acids markedly reduced blastocyst formation by 4-fold (13.5%); the optimal pyruvate concentration was 0.2 mM. However, if the same medium was devoid of glucose, blastocyst formation was high both in the absence (71.1%) and presence (83.3%) of 0.1 mM pyruvate. Similarly, in glucose-free T-PVA medium, addition of either 10 mM lactate or amino acids supported 8-cell embryo development to blastocysts (61.7% and 60.5%, respectively) as opposed to 18.8% and 30.6%, respectively, in the presence of 5 mM glucose. This augmented development in the absence of glucose is suggested to the due to the efficient conversion of lactate to pyruvate and of amino acids to amphibolic intermediates and hence their utilization via the Krebs cycle.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of RU486 on different stages of mouse preimplantation embryos in vitro

17 beta-Hydroxy-11 beta(4-dimethylaminophenyl)-17 alpha-(1-propynyl)estra-4, 9-dien-3-one (RU486) inhibited the in vitro development of different stages of mouse preimplantation embryos under study. Two-celled embryos, morulae, and early blastocysts were obtained from B6D2F1 mice. The embryos were grown in Ham F-10 nutrient mixture (with glutamine) supplemented with sodium bicarbonate (2.1 g/L), calcium lactate (282 mg/L), and bovine serum albumin (fraction V, 3 mg/mL) at 37 degrees C in a humidified incubator supplied with 5% CO2 in air. RU486 was added to the culture medium at concentrations of 1, 5, 10, and 20 micrograms/mL. Culture medium with 0.05% ethanol served as the control. In vitro growth of embryos was assessed by the following criteria: (i) two-celled stage embryo development to blastocyst stage after 72 h, (ii) morula stage grown to blastocyst stage after 24 h, and (iii) early blastocyst stage development to hatching blastocyst after 12 h, in culture. RU486 inhibited the in vitro development of two-celled embryos, morulae, and early blastocysts at concentrations of 5, 10, and 20 micrograms/mL culture medium (p less than 0.001). The inhibitory effect of RU486 at these concentrations on the development of all the stages of embryos under study was irreversible. However, RU486 did not affect embryo development at 1 microgram/mL culture medium. The study indicates the direct adverse effect of RU486 at 5 micrograms/mL and higher concentrations in culture medium on the development of mouse preimplantation embryos in vitro, and it encourages its further investigation as a postcoital contraceptive in animal models and humans.     

Analysis of stimulatory and inhibitory amino acids for development of hamster one-cell embryos in vitro

Hamster embryo development to the blastocyst stage in vitro can be modulated by amino acids. This series of experiments employed both empirically and statistically designed approaches to elucidate which of 20 amino acids inhibit or stimulate development and to devise a complement of amino acids that best supports in vitro development of hamster 1-cell embryos. Development and/or mean cell number were significantly inhibited by the presence of leucine, tyrosine, valine, isoleucine, phenylalanine, arginine, methionine, or cysteine (at 0.5 mM) and isoleucine, phenylalanine, or tryptophan (at 0.05 mM). Three amino acids—glutamine, taurine, and glycine—were stimulatory and in combination improved development; the culture medium containing these amino acids was designated Hamster Embryo Culture Medium-5. Moreover, addition of another eight amino acids—asparagine, aspartic acid, serine, glutamic acid, histidine, lysine, proline and cysteine (medium designated HECM-6)—had a significant stimulatory effect on development over previously formulated culture media for hamster embryos. These results demonstrated that amino acids, alone and in combination, can markedly stimulate or inhibit hamster embryo development in vitro up to the blastocyst stage. Embryo transfer experiments showed that HECM-5 and ?6 (chemically defined, protein-free culture media) supported normal preimplantation embryo development in vitro. This study also indicates that empirically designed embryo culture media formulations can be as effective as those obtained by application of statistical methodologies. © 1995 wiley-Liss, Inc.     

Phosphate is required for inhibition by glucose of development of hamster 8-cell embryos in vitro

The influence of sodium dihydrogen phosphate (Pi) and glucose on the development of hamster 8-cell embryos mediated by pyruvate (P) or amino acids (A) or lactate (L) was investigated using modified Tyrode's medium, TLP-PVA. When pyruvate was tested as the only energy substrate in medium TP-PVA for embryo development, blastocyst formation ranged from 81.3 to 90.9% whether or not the medium contained 0.35 mM Pi or 5 mM glucose; but, when these two compounds were present together, blastocyst formation fell to 51.8%. Similarly, in TA-PVA medium containing four amino acids: Phe, Ile, Met, and Gln), embryo development to blastocyst ranged from 74.1% to 90.4% whether or not the medium contained 0.35 mM Pi or 5 mM glucose; but, when these compounds were present together, blastocyst formation fell to 16.0%. In TL-PVA medium, 10 mM sodium lactate supported embryo development (84.4% blastocysts); the addition of 0.35 mM Pi decreased blastocyst development to 65.6%. However, addition of glucose to Pi-free TL-PVA medium did not decrease blastocyst formation (81.3%); when the medium contained 0.35 mM Pi, glucose curtailed blastocyst development to 7.5%. When glucose and Pi interactions were studied at different concentrations, glucose up to 1 mM was not inhibitory in Pi-free TL-PVA medium (74.3% blastocysts), but 0.25 mM glucose in the presence of 0.35 mM Pi markedly inhibited embryo development (7.7% blastocysts). Phosphate at a relatively high concentration (1 mM) was inhibitory (37.9% blastocysts), even in the absence of glucose.(ABSTRACT TRUNCATED AT 250 WORDS)     

Development of hamster one-cell embryos recovered under different conditions to the blastocyst stage

One-cell stage embryos, recovered from superovulated golden hamsters (8 to 12 weeks of age) 12 hours after egg activation, were cultured in HECM-1 medium at 37 degrees C and 5% CO(2) in air. The culture conditions investigated were the time and temperature required for embro recovery, the pH shift of the washing medium, and the oxygen concentration of the gas phase during and after embryo recovery. Each condition was assessed by the developmental efficiency of the embryo as determined by morphological criteria. As the time required for embryo recovery was reduced, the developmental rates of the embryos were improved: 2.3% (3 128 ) 26.9% (35 130 ) at 5 and 3 minutes, respectively, as determined by the number of embryos developed to the blastocyst stage. No blastocysts were obtained when more than 10 minutes were required for embryo recovery. As the oxygen concentration was reduced from 40 to 20% or to 5%, rather high developmental rates were obtained even when the time required for embryo recovery was prolonged: 6.9% (9 130 ) and 21.7% (28 129 ) of the embryos developed to the blastocyst stage when they were recovered under 5% oxygen within 10 and 5 minutes, respectively. Neither the temperature during embryo recovery (37 degrees C and 25 degrees C) nor the pH shift (pH 7.22 to 7.52) of the washing medium used in embryo recovery procedures influenced the development of the embryos. These findings suggest that the developmental block in hamster embryos may involve oxidative stress, which may result from exposure to high oxygen concentration and light during the manipulation of oocytes and embryos.     

Successful pig embryonic development in vitro outside a CO2 gas-regulated incubator: effects of pH and osmolality

We investigated the effects of HEPES in the medium (to maintain pH) and paraffin oil covering the medium (to maintain osmolality) on the developmental ability of porcine embryos produced in vitro using tightly closed glass tubes in the absence of a CO2 gas-regulated incubator. Putative porcine zygotes obtained by in vitro fertilization (IVF) of in vitro-matured (IVM) oocytes (day of IVF=Day 0) were cultured in 5% CO2 gas-equilibrated NCSU-37 media containing pyruvate and lactate during Days 0-2, and glucose during Days 2-6, in open glass tubes in a CO2 incubator or tightly closed glass tubes without a CO2 incubator at 38.5 degrees C. The following four media were used: (1) medium covered with paraffin oil and supplemented with HEPES; (2) medium covered with paraffin oil but with no HEPES supplementation; (3) medium not covered with paraffin oil but supplemented with HEPES; (4) medium not covered with paraffin oil and with no HEPES supplementation. As a control group, zygotes were cultured in medium with neither paraffin oil coverage nor HEPES supplementation using a four-well dish in a CO2 gas-regulated incubator. After culture, the osmolality in each of the four closed conditions was maintained at approximately 285-286 mOsm, lower (P<0.05) than that in the control (291 mOsm). In the two HEPES-supplemented media groups in the closed-tube system, the pH was maintained at 7.5-7.7, and the blastocyst development rates (15.5% in non-oil covered and 18.5% in oil covered group) did not differ significantly from that of the control (20.2%), although the mean cell numbers in the blastocysts in the two closed-tube condition groups (28.2 and 33.0) were lower (P<0.05) than in the control (43.5). In contrast, the pH was higher in the two groups without HEPES supplementation (approximately 8.0) than the control (7.4; P<0.05), and the blastocyst development rates (10.9% in non-oil covered and 7.5% in oil covered group) or total cell numbers in the blastocyst (24.8 and 28.7) in the two non-HEPES groups were drastically decreased (P<0.05) compared to those in the control (20.2% and 43.5). These results suggested that maintenance of pH is important for successful in vitro porcine embryo culture under closed-air conditions, whereas the range of osmolality that suits embryo development is not limited to a small range. Furthermore, blastocyst production was possible in a glass tube without a CO2 incubator, although blastocyst quality was lower compared to those produced in an incubator.     

Effect of gossypol and its metabolite on in vitro early development of mouse embryos

The purpose of this study was to examine the effect of gossypol and its metabolite on early in vitro mouse embryo development. One hundred and thirty-eight excellent quality mouse blastocysts were randomly assigned to five different treatments. Culture media were supplemented with 10% (V/N) normal steer serum. The embryos were cultured at 37 degrees C with an atmosphere of 5% O(2), 5% CO(2) and 90% N(2), and embryo development was examined and recorded at 12-h intervals for 72 h. The percentage of embryos that developed to expanded blastocyst (92%), hatching blastocyst (84%), and hatched blastocyst (76%) stages in control Ham's F-10 media was not different from that of embryos cultured in media containing 0.1 and 5 mug of gossypol; however, none of the embryos treated with 265 ng of gossypol metabolite (GM) developed beyond the blastocyst stage. A substantial decrease in the percentage of embryos reaching hatching blastocyst (29%) and hatched blastocyst (29%) stages was observed in the embryos cultured with 5.3 ng of GM. At both light and electron microscopic levels, the embryos appeared to be affected even by a lower concentration of GM in vitro. Our results suggest that GM has a much greater potency than the parent gossypol in inhibiting the early development of mouse embryos in vitro.     

Effects of conditioned media on porcine embryos at different stages of development

The objective of our study was to determine the effect of conditioning media with homologous porcine uterine cells on the developmental rate of porcine embryos. Cell monolayers were prepared by selective dissection and digestion of sections from the uterus of prepuberal gilts that were primed with PMSG and hCG. Conditioned media were used with 2 type of embryos: 4-cell stage (Experiment 1) or blastocyst stage (Experiment 2). In Experiment 1, embryos were collected surgically by flushing the oviducts, 36 to 48 h following the first of 2 inseminations. Embryos were cultured in Whitten's medium containing 1.5% BSA as a protein source until they attained the 4-cell stage. Embryos at the 4-cell stage were cultured randomly in either Whitten's medium with 1.5% BSA or Whitten's medium with 1.5% BSA that was previously conditioned for 24 h with an endometrial epithelial cell monolayer. Embryos were cultured in 50-microl drops covered with oil in a 38.5 degrees C, 5% CO(2) in air incubator. There was no advantage to using the conditioned media with the 4-cell stage embryos. The embryos were less developed than those cultured in nonconditioned Whitten's medium (P <0.001). In Experiment 2, embryos were cultured at the blastocyst stage. They were recovered the same way as in Experiment 1 and then cultured in Whitten's medium containing 1.5% BSA until they reached the blastocyst stage. At the blastocyst stage (Day 6), embryos were randomly assigned to 1 of the 6 following treatments: Whitten's with 1.5% BSA or Whitten's plus 1.5% BSA that was previously conditioned with endometrial epithelial cell monolayer, TCM-199 containing 0.4% BSA or TCM-199 plus 0.4% BSA that was previously conditioned with endometrial epithelial cell monolayer, finally, TCM-199 containing 10% serum or TCM-199 plus 10% serum that was previously conditioned with endometrial epithelial cell monolayer. Results show that initiation of hatching was significantly enhanced by conditioning the Whitten's media.     

Increasing carbon dioxide from five percent to ten percent improves rabbit blastocyst development from cultured zygotes.

One-cell rabbit zygotes were cultured at 39 degrees C in basal synthetic medium II (BSM-II) with 5%, 10%, or 15% CO2 and humidified air to determine the effect of CO2 concentration on development in vitro. After 4 days in culture, 37% of the embryos grown in 10% or 15% CO2 had reached the hatching blastocyst stage, but only 10% of the embryos were hatching when cultured under 5% CO2 (P = 0.01). Over all blastocysts, cell numbers were 207, 246, and 205 for the 5%, 10%, and 15% CO2 treatments, respectively. In a second experiment to determine if there was a beneficial effect, particularly at the blastocyst stage, of a higher concentration of CO2, embryos were cultured 4 days in either 5% or 10% CO2 or for 2 days in 5% CO2 followed by 2 days in 10% CO2. The numbers of blastomeres per embryo and embryo diameter were greater (P < 0.05) in embryos cultured continuously in 10% CO2 or in 10% CO2 only during days 3 and 4 of culture than in embryos cultured continuously in 5% CO2. In a third experiment, one-cell rabbit zygotes were cultured with 5% or 10% CO2 in a defined, protein-free medium consisting of 1:1 RPMI 1640 and Dulbecco's modified Eagle's medium. The proportion of embryos hatching and cell counts were significantly greater (P < 0.01) when cultured in the presence of 10% CO2. These data indicate that a 10% CO2 atmosphere exerts a beneficial effect on the development of zygotes into expanding and hatching rabbit blastocysts in vitro.     

In vitro-matured/in vitro-fertilized bovine oocytes can develop into morulae/blastocysts in chemically defined, protein-free culture media.

Development of bovine embryos derived from in vitro-matured/in vitro-fertilized (IVM/IVF) oocytes was examined in two culture media: hamster embryo culture medium (HECM), a relatively simple, chemically defined, protein-free medium containing 20 amino acids; and tissue culture medium (TCM)-199, a more complex medium designed for culture of somatic cells. The first experiment studied (1) effects of glucose and/or phosphate (Pi) using HECM and (2) the development of bovine IVM/IVF embryos in four different conditions: HECM, TCM-199, TCM-199 + 10% unheated bovine calf serum (BCS), and oviduct cell-conditioned TCM-199 + 10% BCS. After IVF, 45% of the inseminated oocytes developed to the morula/blastocyst stages (M&B) when cultured in HECM; blastocyst development was depressed in the presence of glucose and Pi when compared to Pi alone. When the four culture conditions were compared, there was no significant difference in M&B development (42-51% of inseminated oocytes). However, blastocyst development in TCM-199 supplemented with 10% BCS (29.7%) or with BCS + oviduct cell-conditioned medium (21.6%) was significantly greater than in nonsupplemented HECM (9.7%) or TCM-199 (13.8%). In the second experiment, the effects of serum supplementation and/or oviduct cell conditioning on HECM and TCM-199 were examined in a 2 x 2 x 2 factorial experiment. Oviduct cell conditioning of either HECM or TCM-199 without serum supplementation did not enhance bovine embryo development. Serum supplementation exhibited a biphasic effect, with inhibition at the first cleavage and stimulation of morula compaction and blastocyst formation.(ABSTRACT TRUNCATED AT 250 WORDS)     

Improvement of in vitro co-culture systems for bovine embryos using a low concentration of carbon dioxide and medium supplemented with beta-mercaptoethanol

Two experiments were conducted to investigate the effect of carbon dioxide (CO2) gas atmosphere and beta-mercaptoethanol on the development of bovine embryos in an in vitro co-culture system. In Experiment 1, in vitro-matured bovine oocytes were inseminated and then co-cultured with cumulus cells in culture medium (CM; 25 mM HEPES buffered TCM-199 supplemented with 5% superovulated cow serum and 0.5 mM sodium pyruvate). Oocytes matured and fertilized in 2 or 5% CO2 in air exhibited similar cleavage rates, but the proportion of embryos that developed to the blastocyst stage was higher for embryos co-cultured in 2 versus 5% CO2 in air. In Experiment two, 4- to 8-cell embryos produced under the condition of 2% CO2 in air were co-cultured with cumulus cells in CM supplemented with various levels of beta-mercaptoethanol (0, 5, 10, 50 microM). The percentage of embryos that developed to the blastocyst stage in CM with 10 microM beta-mercaptoethanol was higher (P<0.05) than that of embryos co-cultured with 0 or 50 microM beta-mercaptoethanol. These results indicate that cumulus cell co-culture in an atmosphere of 2% CO2 in air has a marked stimulatory effect on in vitro development of bovine embryos and that addition of beta-mercaptoethanol to the co-culture medium 2 d after insemination improved the in vitro development of bovine 4- to 8-cell embryos to the blastocyst stage.     

Allopurinol, an inhibitor of xanthine oxidase, improves the development of IVM/IVF bovine embryos (>4 cell) in vitro under certain culture conditions

To determine the origin of free oxygen radicals in the culture medium of bovine embryos, the effect of allopurinol, an inhibitor of xanthine oxidase, on the development of embryos (>4 cell) in modified synthetic oviduct fluid (m-SOF) medium was examined. When embryos were cultured in the presence of 0.2 mM allopurinol under high oxygen tension (5% CO2 in air), the blastocyst rate significantly (P<0.05) increased compared with the absence of allopurinol (allopurinol (+) 42 vs. (-) 25%; Day 6, 63 vs. 51%; Day 7, 69 vs. 58%; Day 8). However, allopurinol had no effect on embryo development under low oxygen tension (5% CO2, 5% O2, 90% N2). Moreover, it was found that the developmental rate and the total cell number of blastocysts decreased (development rate: 60 vs. 28%, cell number: 132 vs. 74) when the embryos were cultured in medium containing 0.01 U/mL xanthine oxidase (XOD) and 0.1 mM hypoxanthine (HXT), and the damaging effect of XOD and HXT was removed by the addition of 0.2 mM allopurinol. The beneficial effect of allopurinol was also observed when the glucose concentration was increased to 4.5 mM from 1.5 mM (control: 22% vs. allopurinol: 34%; Day 8), but no beneficial effects were observed in the media without glucose (control: 55% vs. allopurinol: 59%). Taken together, these results suggested that a portion of the free oxygen radicals are generated from the XOD and HXT reactions under culture conditions, and this generation is enhanced by high oxygen tension in the gas atmosphere or by high glucose concentrations in the medium.     

Development of pig blastocysts in vitro is altered by serum, bovine serum albumin and amino acids and vitamins

We tested the effects of the amino acids and vitamins in minimum essential medium (MEM) and Eagle's medium (BME) on pig blastocyst development and nuclei number. Embryos were recovered either 5 or 6 d after first detected estrus and were cultured for 96 h in U-bottomed wells (0.2 ml). In Experiment 1, addition of MEM amino acids and vitamins to modified Krebs-Ringer bicarbonate (MKRB) medium containing either bovine serum albumin (BSA, 4 mg/ml) or lamb serum (10%, v/v) resulted in fewer (P<0.001) nuclei and smaller (P<0.05) embryo volumes at the end of culture as compared to embryos cultured in MKRB without MEM-supplements. Addition of MEM-amino acids without glutamine (Experiment II) depressed blastocyst volume and rate of hatching, but glutamine (2 mM) had no effect on embryo development. Dialysis (molecular weight > 12,000 retained) of fetal bovine serum (Experiment III) did not affect blastocyst expansion but reduced (P<0.05) the number of nuclei/blastocyst at the end of the culture. Embryos cultured in MKRB with dialyzed serum and the amino acids and vitamins in BME were smaller (P<0.05) and had fewer (P<0.05) nuclei than embryos cultured in MKRB with dialyzed serum but without the BME-supplements. We conclude that, under our culture conditions, MEM and BME amino acids and vitamins are detrimental to the development of early pig blastocysts and that this effect is not due to glutamine. Also, dialysis of fetal bovine serum removes some component(s) that are important for cell division by pig embryos, but it does not affect blastocyst expansion.     

Effect of endothelial cell growth supplement and fibroblastic growth factor on early mouse embryo development in vitro

This study was conducted to examine the effect of endothelial cell growth supplement (ECGS) and fibroblastic growth factor (FGF) on early mammalian embryo development in vitro. Two hundred mouse blastocysts were placed randomly in culture wells containing one of five treatments: 1) Ham's F-10, 2) Ham's F-10 + 10 mug ECGS, 3) Ham's F-10 + 10 ng ECGS, 4) Ham's F-10 + 100 ng FGF and 5) Ham's F-10 + 10 ng FGF. In all cases, media were supplemented with 10% (v/v) normal steer serum. Embryos were cultured at 37 C with an atmosphere of 5% O(2), 5% CO(2) and 90% N and development was recorded at 12 h intervals for the duration of culture. The percentage of embryos that developed to expanded blastocyst (94.8), hatching blastocyst (74.4) and hatched blastocyst (71.8) in Ham's F-10 media were not different from embryos cultured in all other treatments except Ham's F-10 + 10 mug ECGS. A decrease in the percentage of embryos reaching expanded blastocyst (44.7), hatching blastocyst (23.7) and hatched blastocyst (18.4) was observed in Ham's F-10 + 10 mug ECGS. Also, a significant (P<0.01) decrease in development scores at 24, 48 and 72 h was observed for embryos cultured in Ham's F-10 + 10 mug ECGS. No difference was observed in the mean time to reach different developmental stages among treatments. The data suggest that ECGS and FGF at the doses tested have no beneficial effect on early mouse embryo development in vitro and 10 mug of ECGS has inhibitory effect.     

Effect of pronase treatment, microdissection, and zona pellucida removal on the development of porcine embryos and blastomeres in vitro

The in vitro development of porcine blastomeres and the effects of pronase treatment, microdissection, and zona pellucida removal used in the isolation procedure were investigated. Seven hundred and forty-nine two to eight-cell embryos were collected from 11 sows and 74 gilts. Zona-free porcine blastomeres (ISOL BL) were obtained by treating embryos with 2.5 or 5.0% pronase for 3.0 min and microdissecting with finely drawn siliconized glass pipettes. The effect of the pronase treatment on subsequent in vitro development was evaluated by treating two to eight-cell embryos with 5.0% pronase for 3.0 min (PTD EMB). The effect of pronase treatment and microdissection on in vitro development was evaluated by microdissecting PTD EMB, leaving one blastomere bounded by the zona pellucida (BL ZP). Untreated two to eight-cell embryos were cultured as controls (CONTROLS). Embryos and blastomeres were cultured individually in microdrops of Whitten's medium with 15 mg/ml bovine serum albumin (WM + BSA) under paraffin oil in a humidified atmosphere of 5% CO2 in air at 37 degrees C. Observations were conducted at 24-h intervals and at the cessation of division embryos were fixed, stained, nuclei enumerated, and cleavage indices assigned. Blastocysts and vesiculated embryos which developed were measured using an ocular micrometer. The incidence of blastocyst formation was greater (P less than 0.05) for ISOL BL from four-cell than from two or eight-cell embryos. The presence of the zona pellucida did not significantly affect the incidence of blastocyst formation by single blastomeres. Although ISOL BL did not develop as well as CONTROLS or PTD EMB (P less than 0.05), development of BL ZP was not significantly different from the respective PTD EMB. Blastocysts developing from blastomeres had fewer cells and were smaller than CONTROLS or PTD EMB (P less than 0.05). Although development of ISOL BL may have been impaired by the isolation procedures employed, BL ZP are capable of in vitro development comparable to their respective PTD EMB.