Amino acid metabolism of preimplantation bovine embryos cultured with bovine serum albumin or polyvinyl alcohol

Bovine serum albumin (BSA) is an embryotrophic macromolecule used in embryo culture media, which is commonly replaced with synthetic compounds, such as polyvinyl alcohol (PVA). This study compared the effect of BSA and PVA on the development, blastocyst cell number and amino acid metabolism of preimplantation bovine embryos in vitro. Embryos were produced by in vitro maturation and fertilization of immature oocytes from abattoir-derived ovaries. Zygotes were cultured in synthetic oviduct fluid with either 4 mg/ml BSA (SOFaaBSA) or 1 mg/ml PVA (SOFaaPVA) in microdrops with a mineral oil overlay at 39 degrees C under a 5% O2/5% CO2/90% N2 atmosphere. Blastocyst rate and cell numbers were determined after 123 h of culture. In parallel, single expanding blastocysts grown in either medium were incubated in microdrops for 12 h. Amino acid profile of spent drops was determined by high performance liquid chromatography. Replacing BSA with PVA depressed blastocyst rate and cell numbers, and led to quantitative and qualitative differences in amino acid appearance, disappearance and turnover. These differences could partly be due to an increase in free intracellular amino acid concentration in SOFaaBSA embryos derived from hydrolysis of endocytosed BSA, and argue against the inclusion of PVA in bovine embryo culture media.     

Improved cryopreservation of bovine preimplantation embryos cultured in chemically defined medium

The aim of this study was to examine the effects of modifications to a standard slow freezing protocol on the viability of in vitro produced bovine embryos. Bovine oocytes were matured, fertilized with frozen-thawed semen, and presumptive zygotes cultured in defined two-step culture media. The standard freezing medium was 1.5M ethylene glycol (EG), 0.1M sucrose, 10% fetal bovine serum (FBS) in Dulbecco's phosphate buffered saline (D-PBS). A preliminary trial showed that in vitro produced embryos cryopreserved in this medium had a survival rate of 74.6% at 24h and 53.5% at 48 h post-thaw. Experiment 1 studied the effects of omitting the sucrose supplement or replacing it with 0.1M xylose. In Experiment 2, the effects of partial (0%, 25% or 50%) or total (100%) replacement of sodium chloride with choline chloride in the cryopreservation medium were examined (the medium with 100% replacement was designated CJ1). The effects of replacing the 10% FBS with 0.4% BSA or 0.4% lipid-rich BSA (Albumax I) in CJ1 was studied in Experiment 3. In Experiment 4, pregnancy/calving rates following the post-thaw transfer of in vitro produced embryos cryopreserved in the standard freezing medium were compared with those of in vitro and in vivo produced embryos cryopreserved in the improved medium (Albumax I in CJ1). Supplementation of the cryopreservation medium with 0.1M sucrose resulted in higher post-thaw survival rates at 24 h (71.3% versus 53.5 and 51.7%; P<0.05), 48 h (51.1% versus 45.3 and 40.2%), and 72 h (34.0% versus 24.4 and 23.0%) than 0.1M xylose or no supplement, respectively, in Experiment 1. Experiment 2 showed that embryos cryopreserved in the standard medium had poorer survival rates at 24 h (72.8% versus 86.5%; P<0.05), 48 h (53.1% versus 66.3%) or 72 h (28.4% versus 44.9%) than those frozen in CJ1. The post-thaw survival rate of embryos frozen in medium supplemented with Albumax I was better than that for the FBS or BSA supplements at 24h (92.0% versus 90.7 and 87.3%), 48 h (87.3% versus 76.9 and 70.9%; P<0.05), and 72 h (70.4% versus 49.1 and 46 4%; P<0.05; Experiment 3). In Experiment 4, in vitro produced embryos cryopreserved in CJ1 medium supplemented with Albumax I resulted in higher pregnancy rates at Day 35 (31.9% versus 22.9%) and Day 60 (24.1% versus 14.3%) of gestation, and calving rates (22.6% versus 10.0%; P<0.05) than similar embryos frozen in the standard medium. However, in vivo produced embryos cryopreserved in Albumax I in CJ1 resulted in higher pregnancy rates at Day 35 (50.7%; P<0.05) and Day 60 (45.1%; P<0.05) of gestation, and calving rate (43.7%; P<0.05). It was concluded that modification of the freezing medium by addition of lipid-rich BSA and replacing sodium chloride with choline chloride improves the post-thaw survival of in vitro produced embryos, and their viability post-transfer.     

Growth, drug susceptibility, and gene expression profiling of Plasmodium falciparum cultured in medium supplemented with human serum or lipid-rich bovine serum albumin [corrected

In vitro cultivation of Plasmodium falciparum has been extremely useful in understanding the biology of the human malaria parasite as well as research on the discovery of new antimalarial drugs and vaccines. A chemically defined serum-free medium supplemented with lipid-rich bovine serum albumin (AlbuMAX I) offers the following advantages over human serum-supplemented media for the in vitro culture of P. falciparum: 1) improved growth profile, with more than a 2-fold higher yield of the parasites at any stage of the growth cycle; 2) suitability for in vitro antimalarial screening, as the parasites grown in AlbuMAX and human serum-supplemented media show similar sensitivity to standard and novel antimalarials as well as natural product extracts in the in vitro drug susceptibility assays; and 3) DNA microarray analysis comparing the global gene expression profile of sorbitol-synchronized P. falciparum trophozoites grown in the 2 different media, indicating minimal differences.     

Enhanced in vitro growth of murine fibroblast cells and preimplantation embryos cultured in medium supplemented with an amphipathic peptide.

Preliminary studies on the proliferative effects of lytic peptides were carried out using NIH 3T3 murine fibroblast cells and human lymphocytes. Cells were cultured in various concentrations of three different amphipathic peptides (SB-37, Shiva-1, and Vishnu), and enhanced proliferation was determined by uptake of 3H-thymidine with treated cells compared with control cultures. Enhanced proliferation of 3T3 cells was observed in cultures containing 50 microM or less SB-37. The primary study consisted of 263 four-cell- to eight-cell-stage mouse embryos from naturally bred mice and incubated in Whitten's medium containing 0.2, 1, or 10 microM of the amino terminus of an amphipathic cecropin B analog (Vishnu) or in Whitten's medium alone. Embryos were cultured to the hatched blastocyst stage, and effect of treatment was determined by the rate of growth to that stage of development. Statistical analysis revealed that culture in all three levels of Vishnu significantly accelerated in vitro growth of these stages of preimplantation embryos compared with controls. These results indicate that Vishnu promotes increased cleavage rates of embryos in vitro. A growth factor receptor clustering mechanism of action is proposed. This peptide may have some potential as an embryo culture medium additive to enhance in vitro growth rate.     

The culture of sheep embryos in either a bicarbonate-buffered medium or a phosphate-buffered medium enriched with serum

Totals of 66 Day-3 and 72 Day-5 (estrus = Day 0) sheep embryos were cultured for 3 days in test-tubes containing either 1 ml synthetic oviduct fluid (SOF) or enriched phosphate-buffered saline (EPBS) equilibrated with a gas phase of 5% CO₂, 5% O₂, 90% N₂. Thirty-four Day-3 and 36 Day-5 embryos were cultured in 2 ml EPBS under liquid paraffin and exposed to air. After culture the embryos were examined for stage of cleavage and either fixed and stained or transferred to suitable recipient animals.Day-3 embryos cultured in SOF developed more readily than those in EPBS or EPBS under paraffin and were more viable in recipient animals (15 surviving of 29 transferred vs 2 of 29 and 1 of 28, respectively). The development of Day-5 embryos varied between years with SOF being superior in 1976 but with no differences between media in 1977. The Day-5 embryos cultured in SOF were more viable than those in the two EPBS systems (15 surviving of 24 transferred vs 16 of 54).     

Ultrastructure of bovine embryos developed from in vitro–matured and –fertilized oocytes: Comparative morphological evaluation of embryos cultured either in serum‐free medium or in serum‐supplemented medium

The ultrastructure of bovine embryos developed from in vitro‐matured and ‐fertilized oocytes, cocultured with bovine cumulus/granulosa cells either in a serum‐free medium (IVMD101) or in a serum‐containing medium (TCM199+CS) was compared. Embryos up to the eight‐cell stage had many cellular organelles and cytoplasmic components that were randomly distributed in the cytoplasm. Mitochondria were spherical or ovoid and had only a few peripheral cristae. There were no obvious differences in the ultrastructure between embryos developed in IVMD101 and TCM199+CS up to the eight‐cell stage. However, conspicuous differences in the ultrastructural features between the embryos cultured in IVMD101 and TCM199+CS were observed at the morula and blastocyst stages. At the morula stage, embryos cultured in IVMD101 had cells containing elongated mitochondria, well‐developed Golgi apparatus, lipid droplets, and large vesicles resembling lysosomes. The lysosome‐like vesicles were partially filled with electron‐dense materials and were frequently fused with lipid droplets. The blastomeres of morulae cultured in TCM199+CS contained numerous large lipid droplets and fewer lysosome‐like vesicles than those cultured in IVMD101. In blastocysts cultured in IVMD101, lysosome‐like vesicles were frequently observed in the trophoblast cells and lipid droplets were present in the cytoplasm of trophoblast and inner cell mass (ICM)‐cells, but they were not abundant. On the other hand, the blastocysts developed in TCM199+CS contained fewer lysosome‐like vesicles and large numbers of lipid droplets. This accumulation of lipid droplets was higher in the trophoblast cells than in the ICM‐cells. This study showed major differences in the ultrastructural features between the morulae and blastocysts from serum‐free and serum‐supplemented cultures, suggesting that the ultrastructural differences may reflect physiological characteristics of embryos. Mol. Reprod. Dev. 53:325–335, 1999. © 1999 Wiley‐Liss, Inc.     

A simple salt solution medium supplemented with yolk plasma and lactate (YPLM) supports development of preimplantation bovine embryos in vitro

This study investigated the embryotropic potential(s) of egg yolk (EY) or its fractions, yolk plasma (YP) and yolk granules (YG), in culturing bovine embryos in vitro and substituting for protein (FCS, BSA, and BME-E and MEM-NE amino acids) and energy (glutamine, pyruvate and L-lactate) supplements commonly added to culture medium. In the first set of experiments (Experiment 1, 2 and 3) CR1aa with buffalo rat liver (BRL) cells were used as a co-culture system. The addition of 2.5% or 5% EY significantly increased (P<0.05) blastocyst percent over the BRL control (48.3% and 52.4% vs. 32.5%, respectively). The addition of 5% EY in the absence of FCS and BSA resulted in percent development to blastocysts and hatched blastocysts similar (P>0.05) to those of the BRL control (37.6% and 57.4% vs. 51.5%, 22.7% and 39.5%, respectively). The supplementation of the BRL control with 5% YP compared to that of EY resulted in comparable (P>0.05) percentages of blastocysts and hatched blastocysts (39.0% and 51.6% vs. 40.0% and 58.3%, respectively). In the second set of experiments, the embryotropic potential of YP was examined using a cell-free culture system and a simple salt solution (SS) of NaCl, KCl and NaHCO3 as the base medium. The supplementation of an energy-supplemented cell-free simple salt solution (E-SS) with 5% YP in the absence of supplemental protein resulted in percent development into blastocysts and hatched blastocysts comparable (P>0.05) to those of a BRL control (39.2% and 15.8% vs. 37.1% and 22.2%, respectively). The addition of YP to the simple salt solution with hemicalcium L-lactate as the only supplemented energy ingredient resulted in percentages of blastocysts and hatched blastocysts similar (P>0.05) to those obtained by the supplementation of all energy sources (27.4% and 15.6% vs. 36.4% and 14.0%, respectively). Increasing hemicalcium L-lactate level from 5 to 10, 20 or 25 mM resulted in a significant decrease (P<0.05) in percent development into blastocysts (36.5% vs. 24.8%, 11.6% and 6.7%, respectively). In conclusion, YP, with the advantage of being clearer than EY, is capable of sustaining embryo development to the blastocyst stage in a simple salt solution of NaCl, KCl and NaHCO3 supplemented with hemicalcium L-lactate.     

Effect of sericin on preimplantation development of bovine embryos cultured individually

The silk protein sericin has been identified as a potent antioxidant in mammalian cells. This study was conducted to examine the effects of sericin on preimplantation development and quality of bovine embryos cultured individually. When two-cell-stage embryos were cultured individually for 7 days in CR1aa medium supplemented with 0, 0.1, 0.5, or 1% sericin, rates of total blastocyst formation and development to expanded blastocysts from embryos cultured with 0.5% sericin were higher (P < 0.05) than those from embryos cultured with 0 or 1% sericin. When embryos were cultured individually for 7 days in the CR1aa medium supplemented with 0 or 0.5% sericin under two oxidative stress conditions (50 or 100 μm H₂O₂), the addition of sericin significantly improved the blastocyst formation rate of embryos exposed to 100 μm H₂O₂. However, the protective effect of sericin was not observed in development of embryos exposed to 50 μm H₂O₂. When embryos were exposed to 100 μm H₂O₂ during culture, the DNA fragmentation index of total blastocysts from embryos cultured with 0.5% sericin was lower than blastocysts derived from embryos cultured without sericin (4.4 vs. 6.8%; P < 0.01). In conclusion, the addition of 0.5% sericin to in vitro culture medium improved preimplantation development and quality of bovine embryos cultured individually by preventing oxidative stress.     

Development of sheep embryos in vitro in a medium supplemented with different serum fractions

Sheep embryos will generally develop into expanded blastocysts in vitro only in culture media supplemented with serum or serum components. In order to better understand how serum supports embryo development, a batch of ovine serum was fractionated by (a) ultrafiltration into two components containing substances with molecular weights greater and less than 10 Kd (kilodaltons), and (b) gel filtration into protein fractions 1, 2 and 3, containing groups of proteins with mean molecular weights of about 500, 150 and 65 Kd, respectively. The principal protein in fraction 3 was albumin. Day 6 sheep morulae were cultured in vitro for 48 hours in a bicarbonate-buffered salt solution supplemented with various concentrations of ovine serum or of these components or protein fractions of serum. Morulae could develop to fully expanded blastocysts in medium supplemented with whole serum or with the greater than 10 Kd component or protein fraction 3 only, but could not develop in medium supplemented with the less than 10 Kd component only or with the less than 10 Kd component and protein fractions 1 or 2. However, the proportion of embryos that developed fully in medium supplemented with the greater than 10 Kd component or protein fraction 3 was increased by adding the less than 10 Kd component of serum to the medium. The addition of protein fraction 2 decreased the proportion of embryos that developed to expanded blastocysts in medium containing protein fraction 3 and the less than 10 Kd component, but not in medium containing whole serum. Since the compositions of different sera may vary markedly, these results suggest (a) reasons why different sera vary in their ability to support embryo development in vitro, and (b) factors which may influence development of the sheep embryo in the uterus, where plasma proteins comprise nearly all the protein in the fluid bathing the embryo.     

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

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

Development of bovine IVF oocytes cultured in medium supplemented with a nitric oxide scavenger or inhibitor in a co-culture system

Bovine IVF oocytes were cultured in modified bovine embryo culture medium (mBECM) supplemented with either a nitric oxide (NO) scavenger, hemoglobin (Hb, 1 microg/mL) and/or a NO synthesis inhibitor, L(omega)-nitro-L-arginine methyl ester (L-NAME, 1 or 1000 nM) in a cumulus-granulosa cell co-culture system. In Experiment 1, a total of 1,675 cumulus-oocytes complexes was collected for 7 mo and cultured to the blastocyst stage in mBECM with or without Hb after IVM and IVF. There were significant (P<0.0024) model effects of Hb addition and month of oocyte collection on embryo development. A significant (P<0.0023) monthly variation was detected in all developmental stages. However, addition of Hb to mBECM consistently enhanced embryo development to the blastocyst stage over all months. No statistical differences were found in the interaction between Hb addition and month except for the cleavage rate. Overall, a greater percentage of oocytes developed to the 8-cell (P<0.0459), 16-cell (P<0.001), morula (P<0.0013) and blastocyst (P<0.0024) stages after the addition of Hb. In Experiment 2, addition of L-NAME to mBECM supplemented with Hb did not further stimulate prehatched development. In conclusion, the promoting effect of Hb on in vitro development of embryos is highly repeatable over an extended period of time.