The novel use of modified pig zygotic medium for the efficient culture of the preimplantation mouse embryos

A high potassium concentration in culture media is considered detrimental to in vitro culture of mouse embryos. Here we show that pig zygotic medium (PZM) containing a higher concentration of potassium, and modified to contain 0.2 mM glucose and 0.01 mM EDTA, supported efficient pre- and post-implantation development of mouse zygotes to blastocysts and live pups, respectively. At first, modified PZM (mPZM) was compared with other culture media such as M16, CZB and KSOM-AA for its ability to support development of in vivo mouse zygotes to the blastocyst stage. The proportions of zygotes reaching 2-cell (94–99%) and blastocyst (90–96%) stages in mPZM and other media were not different. However, hatching rates of blastocysts were different (P < 0.05); whereas more than 90% of the blastocysts were hatching in mPZM or KSOM-AA, only 60% of the blastocysts did in M16 or CZB media (P < 0.05). Next we compared post-implantation development of in vitro fertilized zygotes developed to blastocysts in mPZM and KSOM-AA. The proportion of blastocysts developing into live pups was not different between mPZM (49%) and KSOM-AA (44%). Finally, we evaluated whether mPZM could be also used as a fertilization medium. Modified PZM containing 5.56 mM of glucose and 0.4% BSA efficiently supported IVF of mouse gametes. The percent of zygotes cleaving to 2-cell (94–98%) and blastocysts (91–93%) stage was not different from zygotes fertilized in human tubal fluid medium. We concluded that modified pig zygotic medium containing a higher potassium concentration than any other commonly used mouse media supported not only culture of mouse embryos, but also efficient IVF of mouse gametes.     

Development of 1-cell embryos from different strains of mice in CZB medium

One-cell embryos from several different strains of mice have been cultured to the blastocyst stage in CZB medium. CZB medium can be used to culture CF1 x B6SJLF1/J 1-cell embryos to the blastocyst stage provided glucose is introduced into the medium on Day 3 of culture. The amount of glucose required for embryo development was titrated using a concentration range of 5.5 to 49.5 mM. With the exception of the highest concentration, all glucose levels tested supported 65-85% development to the morula and blastocyst stages. Variations of CZB medium were tested for their ability to support the development of 1-cell embryos from 4 strains of mice. For embryos from CF1 and DBA/2J (both x B6SJLF1/J) mice, which exhibit a "2-cell block" to development in vitro, CZB medium containing glutamine with the addition of glucose on Day 3 supported optimum development from the 1-cell stage to morula and blastocysts (79% and 87%). For embryos from B6D2F1/J and CD1 female mice (both x B6SJLF1/J males), which do not exhibit a "2-cell block" to in vitro development, optimum development to morula and blastocyst stages (95% and 50%) was in CZB medium containing both glutamine and glucose from the start of culture.     

Successful development of viable blastocysts from enhanced green fluorescent protein transgene-microinjected mouse embryos: comparison of culture media

To improve efficiency of transgenesis, we compared M16 and CZB embryo culture media, supporting development to blastocysts of FVB/N mouse pronuclear-eggs, microinjected with enhanced green fluorescent protein (EGFP) transgene. When EGFP-injected-eggs were cultured (120 hr), blastocyst development was significantly (P < 0.03) higher in M16 medium (72.5 +/- 2.4%) than that in CZB (13.2 +/- 4.3%) or CZBG (CZB with 5.6 mM glucose at 48 hr culture) (62.1 +/- 3.7%) media. Blastocyst development of noninjected embryos was higher in M16 (92.0 +/- 2.6%) and CZBG (83.9 +/- 3.9%) media than in CZB (31.9 +/- 2.8%) medium (P < 0.0001). However, percentages of morulae at 72 hr were comparable in all treatments. Developed blastocysts were better in M16 than in CZB or CZBG media. Consistent with this, mean cell number per blastocyst, developed from injected embryos, was significantly (P < 0.002) higher in M16 medium (79.6), than those in CZB (31.3) or CZBG media (60.7); similar with noninjected embryos. Cell allocation to trophectoderm (TE) and inner cell mass (ICM), i.e., TE:ICM ratio, for injected blastocysts in M16 (3.0) was less than (P < 0.05) those in CZB (4.2) and CZBG (4.4) media; similar with noninjected blastocysts. Moreover, blastocysts, developed in M16 and CZBG media, hatched, attached, and exhibited trophoblast outgrowth; 18% of them showed EGFP-expression. Importantly, blastocysts from M16 medium produced live transgenic "green" pups (11%) following embryo transfer. Taken together, our results indicate that supplementation of glucose, at 48 hr of culture (CZBG), is required for morula to blastocyst transition; M16 medium, containing glucose from the beginning of culture, is superior to CZB or CZBG for supporting development of biologically viable blastocysts from EGFP-transgene-injected mouse embryos.     

One-minute exposure of 4-cell mouse embryos to glucose overcomes morula block in CZB medium

One-cell mouse embryos that block at the 2-cell stage can progress to the morula stage in CZB medium, but fail to cavitate and then swell and lyse. A 1-min exposure to 27 mM glucose at the 4-cell stage (～42 hr) will support a high frequency of development to the blastocyst stage (75%) in the same medium. A glucose exposure is beneficial anytime between 30 and 54 hr of culture (67–73% blastocysts). Of a group of additional sugars and glucose analogues tested for their ability to replace glucose, only galactose was equivalent in promoting embryo development to the blastocyst stage (64% blastocysts). © 1994 Wiley-Liss, Inc.     

Higher survival rate of vitrified and thawed in vitro produced bovine blastocysts following culture in defined medium supplemented with beta-mercaptoethanol

The present study was conducted to compare bovine embryo developmental quality, after culture in different defined culture media, up to blastocyst stage, and subsequently cultured in media supplemented with beta-mercaptoethanol (beta-ME) following blastocyst vitrification and thawing. In part one of this study, presumptive zygotes were randomly allocated into the following media: (1) CR1, (2) KSOM, (3) SOF, and (4) sequential KSOM-SOF. In the second part of the study, blastocysts derived from four different culture media were subjected to a solid surface vitrification (35% (v/v) ethylene glycol+0.5M Sucrose+5% (w/v) Polyvinylpyrrolidone (PVP), and tested for the effect of beta-ME on their post-vitrification survival. Following thawing, blastocysts were cultured with or without beta-ME. Culture medium had no effect on cleavage rates; however, a significantly greater number of zygotes cultured in KSOM, KSOM-SOF, or SOF developed to the 8-cell stage, compared with those cultured in CR1. A greater proportion of the zygotes cultured in SOF or KSOM-SOF reached blastocysts, than did those cultured in CR1 or KSOM. The use of sequential KSOM-SOF significantly increased total cell numbers of Day 7 expanded-blastocysts when compared to those cultured in CR1, KSOM, or SOF. Addition of beta-ME into culture media after vitrification and thawing improved blastocyst survival, hatching rates, and total cell numbers of blastocysts. In conclusion, supplementation of beta-ME into culture medium after vitrification and thawing significantly increased blastocyst survival, hatching rates, and their total cell numbers. These results suggest that vitrified IVF embryos should be thawed and briefly cultured in beta-ME medium prior to embryo transfer.     

An improved culture medium supports development of random-bred 1-cell mouse embryos in vitro

One-cell CF-1 x B6SJLF1/J embryos, which usually exhibit a 2-cell block to development in vitro, have been cultured to the blastocyst stage using CZB medium and a glucose washing procedure. CZB medium is a further modification of modified BMOC-2 containing an increased lactate/pyruvate ratio of 116, 1 mM-glutamine and 0.1 mM-EDTA but lacking glucose. Continuous culture of one-cell embryos in CZB medium allowed 83% of embryos to develop beyond the 2-cell stage of which 63% were morulae at 72 h of culture, but blastocysts did not develop. However, washing embryos into CZB medium containing glucose after 48 h of culture (3-4-cell stage) was sufficient to allow development to proceed, with 48% of embryos reaching the blastocyst stage by 96 h of culture. Exposure of embryos to glucose was only necessary from the 3-4-cell stage through the early morula stage since washing back into medium CZB without glucose at 72 h of culture still promoted the development of 50% of embryos to the blastocyst stage. The presence of glucose in this medium for the first 48 h of culture (1-cell to 4-cell stage) was detrimental to embryo development. Glutamine, however, exerted a beneficial effect on embryo development from the 1-cell to the 4-cell stage although its presence was not required for development to proceed during the final 48 h of culture. Blastocysts which developed under optimum conditions contained an average of 33.7 total cells. The in-vitro development of 1-cell embryos beyond the 2-cell stage in response to the removal of glucose and the addition of glutamine to the culture medium suggests that glucose may block some essential metabolic process, and that glutamine may be a preferred energy substrate during early development for these mouse embryos.     

Effect of retinoids and growth factor on in vitro bovine embryos produced under chemically defined conditions

Experiments were conducted to investigate the beneficial effects of adding retinol (RT) and retinoic acid (RA) to bovine oocyte maturation media and insulin-like growth factor-I (IGF-I) to embryo culture under chemically-defined conditions. In Experiment 1.1, in vitro maturation (IVM) was performed in basic maturation media (bMM) and supplemented with 0.3microM RT or 0.5microM RA. For embryo development presumptive zygotes and embryos were placed in droplets of potassium simplex optimized medium (KSOM). Addition of RT and RA to bMM improved (p<0.05) blastocyst formation as compared with control treatments. In Experiment 1.2, using embryos originating from oocytes previously treated with RT and RA, the presumptive zygotes were placed in droplets of KSOM and embryos (2-4 cells) in droplets of fresh KSOM supplemented or not with IGF-I. The number of 2-4-cell stage embryos developing to the blastocyst and expanded blastocyst stages were greater (p<0.05) when embryo culture media was supplemented with IGF-I. In Experiment 2.1, IVM was conducted with bMM+FSH containing 0.3microM RT or 0.5microM RA. For embryo development, presumptive zygotes were placed in droplets of KSOM. Addition of RT or RA to IVM medium also enhanced (p<0.05) blastocyst formation. The supplementation of embryo culture media with IGF-I resulted in a greater number (p<0.05) of 2-4-cell stage embryos developing into blastocysts, expanded blastocysts and hatched blastocysts. In Experiment 2.2, using embryos originating from oocytes previously treated with RT and RA, presumptive zygotes were also placed in droplets of KSOM and embryos (2-4 cells) in droplets of fresh KSOM supplemented or not with IGF-I. The supplementation of embryo culture media with IGF-I resulted in a greater (p<0.05) number of 2-4-cell stage embryos developing to the blastocyst, expanded blastocyst and hatched blastocyst stages.     

Effects of the culture density of mouse zygotes on the development in vitro and in vivo

Different numbers of CD-1 mouse zygotes(1, 5, 10, 20, 40 and 60) were cultured in 10 mul M16 medium, in M16 medium+EDTA, in M16 dedium+SOD+thioredoxin, and in CZB medium, respectively. When the zygotes, regardless of the number, were cultured with M16, no blastocysts could be obtained. The suitable ratio of embryos to 1 mul of M16 medium+EDTA or M16 medium+SOD+thioredoxin was 1:1 or 2:1. Medium volume from 1 to 10 mul did not affect blastocyst development when the embryo density was 1:1. However, blastocysts obtained from zygotes cultured singly had fewer cell numbers and showed inferior development to live fetuses after transfer to recipients. When CZB medium was used, suitable embryo density was not clear. The ratio of embryos to volume of culture medium was shown to be an important factor for in vitro culture of mouse zygotes.     

自分泌生长因子对早期胚胎体外发育的影响（简报）

Two-cell-stage embryos were flushed from the oviducts on Day 2. Zygotes were collected from oviducts on Day 1 (Fertilization In Situ, ISF) or derived from fertilization in vitro (IVF). 2-cell embryos had a high rate of blastocyst development to each embryo concentration from 1 embryo/microliter to 1 embryo/1000 microliters. The zygotes produced by either ISF or IVF were adversely affected by reducing the embryo concentration over this range (P < 0.001), with approximately 82.5% of ISF zygotes developing to blastocysts at highest concentration but only 22.3% at the lowest. For IVF zygotes the corresponding results were 46.3% and 5.2%. The number of cells in each blastocyst from 2-cell embryos was significantly higher than that from ISF and IVF group. The media supplementing Platelet-activating factor (PAF) caused a significant increase in the rate of blastocyst development of IVF zygotes at embryo concentration of 1 embryo/10 microliters (10 ng/ml) and 1 embryo/100 microliters (100 ng/ml). Insulin-like growth factor (IGF) (10 ng/ml) also stimulated development of IVF zygotes when they were cultured at the concentration of 1 embryo/10 microliters. Epidermal growth factor (EGF) was no effect over range of 1-1000 ng/ml to embryo development. The results show that factors necessary for normal embryo development are diluted to suboptimal levels during culture at low embryo concentration. The PAF, IGF-I partially compensate the effects of low embryo concentration during culture and play important roles as autocrine embryotrophic factors.     

Nuclear-cytoplasmic "tug of war" during cloning: effects of somatic cell nuclei on culture medium preferences of preimplantation cloned mouse embryos

Cloning by somatic cell nuclear transfer is critically dependent upon early events that occur immediately after nuclear transfer, and possibly additional events that occur in the cleaving embryo. Embryo culture conditions have not been optimized for cloned embryos, and the effects of culture conditions on these early events and the successful initiation of clonal development have not been examined. To evaluate the possible effect of culture conditions on early cloned embryo development, we have compared a number of different culture media, either singly or in sequential combinations, for their ability to support preimplantation development of clones produced using cumulus cell nuclei. We find that glucose is beneficial during the 1-cell stage when CZB medium is employed. We also find that potassium simplex optimized medium (KSOM), which is optimized to support efficient early cleavage divisions in mouse embryos, does not support development during the 1-cell or 2-cell stages in the cloned embryos as well as other media. Glucose-supplemented CZB medium (CZB-G) supports initial development to the 2-cell stage very well, but does not support later cleavage stages as well as Whittten medium or KSOM. Culturing cloned embryos either entirely in Whitten medium or initially in Whittens medium and then changing to KSOM at the late 4-cell/early 8-cell stage produces consistent production of blastocysts at a greater frequency than using CZB-G medium alone. The combination of Whitten medium followed by KSOM resulted in an increased number of cells per blastocyst. Because normal embryos do not require glucose during the early cleavage stages and develop efficiently in all of the media employed, these results reveal unusual culture medium requirements that are indicative of altered physiology and metabolism in the cloned embryos. The relevance of this to understanding the kinetics and mechanisms of nuclear reprogramming and to the eventual improvement of the overall success in cloning is discussed.     

Concentrations of nutrients in mouse oviduct fluid and their effects on embryo development and metabolism in vitro

An ultramicrofluorometric technique was used to analyse the nutrient composition of mouse oviduct fluid. The concentrations of pyruvate, glucose and lactate in the vicinity of the cumulus mass were 0.37, 3.40 and 4.79 mM respectively. In the absence of cumulus cells, the concentration of pyruvate was significantly reduced, to 0.14 mM, while the concentration of glucose was significantly increased to 5.19 mM. Glutamine, which may help to overcome the '2-cell block' in mouse embryos in culture, was present at a concentration of 0.20 mM. A modified medium (MTF) in which the concentration of nutrients was similar to that in mouse oviduct fluid was prepared and its effects on embryo development and metabolism in vitro were compared with that of a conventional embryo culture medium (M16). The percentage of zygotes forming blastocysts in vitro by Day 5 was similar in both media (82% in M16, 79% in MTF). Rates of development, as assessed by cell number, were also comparable. However, the proportion of glucose consumed which was converted to lactate increased dramatically following culture; from 44% in fresh blastocysts, to 73% and 91% in blastocysts derived from 8-cell embryos cultured for 24 h in media MTF and M16 respectively.     

Glutamine uptake and utilization by preimplantation mouse embryos in CZB medium

At least 71% of CF1 x B6SJLF1/J embryos developed from the 1-cell stage to the blastocyst stage in an optimum glutamine concentration of 1 mM, as long as glucose was present after the first 48 h of culture. Blastocysts raised under these conditions had significantly more cells than did blastocysts raised in CZB medium alone (glutamine present, glucose absent). Embryos raised in vivo accumulated 170-200 fmol glutamine/embryo/h at the unfertilized egg and 1-cell stages with a decline to 145 fmol/embryo/h at the 2-cell stage, followed by sharp increases to 400 and 850 fmol/embryo/h at the 8-cell and blastocyst stages. The presence or absence of glucose in the labelling medium had no effect on glutamine uptake by these embryos. Embryos raised in vitro accumulated 2-3 times more glutamine at stages comparable to those of embryos raised in vivo. In all cases in which 1-cell to blastocyst development in vitro was successful, glucose was present in the culture medium and the incremental uptake of glutamine between the 8-cell stage and the blastocyst stage was approximately 2-fold. This was also the increment for in-vivo raised embryos. When glucose was not present after the first 48 h, the 8-cell to blastocyst glutamine increment was not significant, and development into blastocysts was reduced. The results also show that glutamine can be used as an energy source for the generation of CO2 through the TCA cycle by all stages of preimplantation mouse development, whether raised in vivo or in vitro from the 1-cell stage. Two-cell embryos raised in vivo converted as much as 70% of the glutamine uptake into CO2, consistent with an important role for glutamine in the very earliest stages of preimplantation development. Cultured blastocysts appeared to convert less glutamine and the presence of glucose in the culture medium seemed to inhibit this conversion.     

Use of a protein-free medium for the in vitro development of sheep embryos]

The employment of protein-free medium for the culture of ovine embryos collected at the 1-2 cell stage from superovulated ewes was investigated. For this purpose sheep zygotes were randomly allocated in four treatment groups: T1) CZB medium + bovine serum albumin (BSA) on sheep oviductal monolayer (SOM), T2) CZB + polyvinyl alcohol (PVA) + SOM, T3) CZB + PVA + SOM supplemented with inositol (I) and serine (S), T4) TCM 199 + 10% fetal calf serum + SOM. Standard culture conditions were 2 ml of medium in 35 mm Petri dishes, under 5% CO2 in air at 39 degrees C. The percentages of morulae and blastocysts were recorded after 4 and 7 days of culture. After 4 days of culture there was no significant difference (P > 0.05) in the percentage of morulae between embryos cultured in T1 (86%), T2 (85%), T3 (88.8%), and T4 (87.5%). After 7 days the percentages of blastocysts were T1 (70%), T2 (50%), T3 (55.5%) and T4 (46.8%). These data suggest that a protein-free medium, CZB + PVA and CZB + PVA + I + S, can support ovine preimplantation embryo development in vitro; however CZB medium supplemented with BSA enhances development to blastocyst.     

Development of early bovine embryos in co-culture with KSOM and taurine, superoxide dismutase or insulin

Three experiments, utilizing 2578 embryos, were designed to test the effects of media, taurine, Superoxide dismutase and insulin on the development of embryos produced by in vitro maturation and in vitro fertilization (IVM/IVF). Embryos showing at least 1 cleavage during culture for 40 to 44 h after IVM/IVF were selected for further culture under various conditions for 6 d at 39 degrees C in 5% C0(2):95% air. A Buffalo rat liver (BRL) cell co-culture was used in all 3 experiments. Experiment 1 was a 3 x 2 factorial arrangement with KSOM (a high potassium simplex optimization-derived medium containing only 12 ingredients), Menezo B(2) and TCM-199 media with or without 7 mM taurine. Blastocyst production in the 3 media, respectively, was 48, 36 and 29% (P<0.05). Addition of 7 mM taurine increased the percentage of blastocysts from 34 to 42 (P<0.05). In Experiment 2, Superoxide dismutase (SOD) did not improve blastocyst development (P>0.05). In Experiment 3, insulin (75 ng/ml) added to KSOM resulted in 46% morulae plus blastocysts compared with 35% for the control (P<0.05). These results indicate that the co-culture of embryos in KSOM with taurine or insulin added is superior to commonly used complex media for efficient production of blastocysts following IVM/IVF.     

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)     

昆明小鼠原核胚在不同培养液中的体外发育

目的优化昆明小鼠原核胚胎体外培养系统,提高胚胎发育率.方法小鼠经超排获得原核期胚胎,制备小鼠输卵管上皮共培养系统,使用M16、CZB和KSOM培养液进行体外培养,并对体内和体外发育的囊胚细胞计数.结果在KSOM和CZB中添加胎牛血清能显著提高胚胎囊胚发育率(14.71%对85.71%;6.45%对10.81%);输卵管上皮共培养可以提高胚胎的卵裂率和囊胚发育率,同时提高胚胎质量和同步发育,小鼠胚胎在KSOMFBS中囊胚发育率达85.19%,显著高于CZB和M16.结论在小鼠输卵管上皮共培养条件下,KSOMFBS能够很好支持昆明小鼠原核期胚胎体外发育.     

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)     

Increasing glucose in KSOMaa basal medium on culture Day 2 improves in vitro development of cloned caprine blastocysts produced via intraspecies and interspecies somatic cell nuclear transfer

This study was conducted to evaluate the efficiency of potassium simplex optimization medium with amino acids (KSOMaa) as a basal culture medium for caprine intraspecies somatic cell nuclear transfer (SCNT) and caprine-bovine interspecies somatic cell nuclear transfer (iSCNT) embryos. The effect of increased glucose as an energy substrate for late stage development of cloned caprine embryos in vitro was also evaluated. Enucleated caprine and bovine in vitro matured oocytes at metaphase II were reconstructed with caprine ear skin fibroblast cells for the SCNT and iSCNT studies. The cloned caprine and parthenogenetic embryos were cultured in either KSOMaa with 0.2 mM glucose for 8 days (Treatment 1) or KSOMaa for 2 days followed by KSOMaa with additional glucose at a final concentration of 2.78 mM for the last 6 days (Treatment 2). There were no significant differences in the cleavage rates of SCNT (80.7%) and iSCNT (78.0%) embryos cultured in KSOMaa medium. Both Treatment 1 and Treatment 2 could support in vitro development of SCNT and iSCNT embryos to the blastocyst stage. However, the blastocyst development rate of SCNT embryos was significantly higher (P < 0.05) in Treatment 2 compared to Treatment 1. Increasing glucose for later stage embryo development (8-cell stage onwards) during in vitro culture (IVC) in Treatment 2 also improved both caprine SCNT and iSCNT embryo development to the hatched blastocyst stage. In conclusion, this study shows that cloned caprine embryos derived from SCNT and iSCNT could develop to the blastocyst stage in KSOMaa medium supplemented with additional glucose (2.78 mM, final concentration) and this medium also supported hatching of caprine cloned blastocysts.     

Effects of fetal calf serum, phenazine ethosulfate and either glucose or fructose during in vitro culture of bovine embryos on embryonic development after cryopreservation

This study investigated effects of hexoses, fetal calf serum (FCS), and phenazine ethosulfate (PES) during the culture of bovine embryos on blastocyst development and survival after cryopreservation by slow freezing or vitrification. The basal, control medium was chemically defined (CDM) plus 0.5% fatty acid-free BSA. In vitro-produced bovine zygotes were cultured in CDM-1 with 0.5 mM glucose; after 60 hr, 8-cell embryos were cultured 4.5 days in CDM-2. The 8-cell embryos were randomly allocated to a 2 x 3 x 2 x 3 factorial experimental design with two energy substrates (2 mM glucose or fructose); three additives (0.3 microM PES, 10% FCS, and control); two cryopreservation methods using no animal products (conventional slow freezing or vitrification); and semen from three bulls with two replicates for each bull. A total of 1,107 blastocysts were produced. Fructose resulted in 13% more blastocysts per oocyte than glucose (37.2% vs. 32.9%), and per 8-cell embryo (51.3% vs. 45.3%; P < 0.01). No differences were found for additives (P > 0.1) control, FCS, or PES for blastocysts per oocyte or per 8-cell embryo. There was a significant interaction (P < 0.05) between additives and hexoses for blastocyst production; although trends were similar, the benefit of fructose compared to glucose was greater for controls than for FCS or PES. Culture of embryos with PES, which reduces cytoplasmic lipid content, improved cryotolerance of bovine embryos; post-cryopreservation survival of blastocysts averaged over vitrification and slow freezing (between which there was no difference) was 91.9%, 84.9%, and 60.2% of unfrozen controls (P < 0.01) for PES, control, and FCS groups, respectively.