The role of nutrients, peptide growth factors and co-culture cells in development of preimplantation embryos in vitro

Enhancement of preimplantation mouse embryo development with optimized in vitro culture dish via stabilization of medium osmolarity

OBJECTIVE

We evaluated the efficacy of the newly developed optimized in vitro culture (OIVC) dish for cultivating preimplantation mouse embryos. This dish minimizes the need for mineral oil and incorporates microwells, providing a stable culture environment and enabling independent monitoring of individual embryos.

METHODS

Mouse pronuclear (PN) zygotes and two-cell-stage embryos were collected at 18 and 46 hours after human chorionic gonadotropin injection, respectively. These were cultured for 120 hours using potassium simplex optimized medium (KSOM) to reach the blastocyst stage. The embryos were randomly allocated into three groups, each cultured in one of three dishes: a 60-mm culture dish, a microdrop dish, and an OIVC dish that we developed.

RESULTS

The OIVC dish effectively maintained the osmolarity of the KSOM culture medium over a 5-day period using only 2 mL of mineral oil. This contrasts with the significant osmolarity increase observed in the 60-mm culture dish. Additionally, the OIVC dish exhibited higher blastulation rates from two-cell embryos (100%) relative to the other dish types. Moreover, blastocysts derived from both PN zygotes and two-cell embryos in the OIVC dish group demonstrated significantly elevated mean cell numbers.

CONCLUSION

Use of the OIVC dish markedly increased the number of cells in blastocysts derived from the in vitro culture of preimplantation mouse embryos. The capacity of this dish to maintain medium osmolarity with minimal mineral oil usage represents a breakthrough that may advance embryo culture techniques for various mammals, including human in vitro fertilization and embryo transfer programs.

Back to the future: optimised microwell culture of individual human preimplantation stage embryos

Although in vitro culture of human embryos is a crucial step in assisted reproduction, the lack of focused research hampers worldwide standardisation and consistent outcomes. Only 1.2% of research papers published in five leading journals in human reproduction in 2019 focused on in vitro culture conditions, creating the impression that the optimisation process has approached its limits. On the other hand, in vitro culture of mammalian embryos is based on old principles, while there is no consensus on basic issues as density, time, medium change, gas atmosphere and small technical details including the way of drop preparation. This opinion paper aims to highlight and analyse the slow advancement in this field and stimulate research for simple and affordable solutions to meet the current requirements. A possible way for advancement is discussed in detail. Selection of embryos with the highest developmental competence requires individual culture and modification of the widely used "drop under oil" approach. Current use of three-dimensional surfaces instead of large flat bottoms is restricted to time-lapse systems, but these wells are designed for optical clarity, not for the needs of embryos. The size and shape of the original microwells (Well of the Well; WOW) offer a practical and straightforward solution to combine the benefits of communal and individual incubation and improve the overall quality of cultured embryos.

Back to the future: optimised microwell culture of individual human preimplantation stage embryos

Although in vitro culture of human embryos is a crucial step in assisted reproduction, the lack of focused research hampers worldwide standardisation and consistent outcomes. Only 1.2% of research papers published in five leading journals in human reproduction in 2019 focused on in vitro culture conditions, creating the impression that the optimisation process has approached its limits. On the other hand, in vitro culture of mammalian embryos is based on old principles, while there is no consensus on basic issues as density, time, medium change, gas atmosphere and small technical details including the way of drop preparation. This opinion paper aims to highlight and analyse the slow advancement in this field and stimulate research for simple and affordable solutions to meet the current requirements. A possible way for advancement is discussed in detail. Selection of embryos with the highest developmental competence requires individual culture and modification of the widely used "drop under oil" approach. Current use of three-dimensional surfaces instead of large flat bottoms is restricted to time-lapse systems, but these wells are designed for optical clarity, not for the needs of embryos. The size and shape of the original microwells (Well of the Well; WOW) offer a practical and straightforward solution to combine the benefits of communal and individual incubation and improve the overall quality of cultured embryos.

Pathogenesis and preventive treatment for animal disease due to locoweed poisoning

Locoweeds are perennial herbaceous plants included in Astragalus spp. and Oxytropis spp. that contain the toxic indolizidine alkaloid swainsonine. The livestock that consume locoweed feeding can suffer from a type of toxicity called "locoism." There are aliphatic nitro compounds, selenium, selenium compounds and alkaloids in locoweed. The toxic component in locoweeds has been identified as swainsonine, an indolizidine alkaloid. Swainsonine inhibits lysosomal α-mannosidase and mannosidase II, resulting in altered oligosaccharide degradation and incomplete glycoprotein processing. As a result, livestock that consume locoweeds exhibit several symptoms, including dispirited behavior, staggering gait, chromatopsia, trembling, ataxia, and cellular vacuolar degeneration of most tissues by pathological observation. Locoism results in significant annual economic losses. Recently, locoweed populations have increased domestically in China and abroad, resulting in an increase in the incidence of poisoning. Therefore, in this paper, we review the current research on locoweed, including on species variation, pathogenesis, damage and poisoning prevention measures.

Acyl-CoA binding protein gene ablation induces pre-implantation embryonic lethality in mice

Unique among the intracellular lipid binding proteins, acyl-CoA binding protein (ACBP) exclusively binds long-chain fatty acyl-CoAs (LCFA-CoAs). To test if ACBP is an essential protein in mammals, the ACBP gene was ablated by homologous recombination in mice. While ACBP heterozygotes appeared phenotypically normal, intercrossing of the heterozygotes did not produce any live homozygous deficient (null) ACBP((-/-)) pups. Heterozygous and wild type embryos were detected at all post-implantation stages, but no homozygous ACBP-null embryos were obtained-suggesting that an embryonic lethality occurred at a pre-implantation stage of development, or that embryos never formed. While ACBP-null embryos were not detected at any blastocyst stage, ACBP-null embryos were detected at the morula (8-cell), cleavage (2-cell), and zygote (1-cell) pre-implantation stages. Two other LCFA-CoA binding proteins, sterol carrier protein-2 (SCP-2) and sterol carrier protein-x (SCP-x) were significantly upregulated at these stages. These findings demonstrate for the first time that ACBP is an essential protein required for embryonic development and its loss of function may be initially compensated by concomitant upregulation of two other LCFA-CoA binding proteins, but only at the earliest pre-implantation stages. The fact that ACBP is the first known intracellular lipid binding protein whose deletion results in embryonic lethality suggests its vital importance in mammals.

Effects of co-culture and embryo number on the in vitro development of bovine embryos

It is generally accepted that culturing embryos in groups or with somatic cells improves both the yield and quality of the blastocysts obtained. The aims of this study were 1) to compare the yield and quality of the embryos obtained after culture in several number conditions and in several culture systems and 2) to assess the effect of co-culture started at various stages of embryo development. Under cell-free culture conditions (modified synthetic oviduct fluid [mSOF] supplemented with 10% fetal calf serum [FCS] 48 h post insemination, the rate of Day 10 blastocysts was lower when embryos were cultured in small groups (1 to 6 per drop) than in large groups (4 versus 23% ; P < 0.01). There was no group effect when embryos were co-cultured either with Buffalo rat liver (BRL) cells in TCM 199, or in a culture system allowing the progressive development of cumulus cells in mSOF, even if co-culture started at 66 or 114 h post insemination. However, embryos cultured singly had lower cell numbers than embryos cultured in large groups when co-culture started at 114 h post insemination. This suggests that 1) somatic cells improve the development of singly cultured bovine embryos up to the blastocyst stage after the 9-16 cell stage; 2) co-culture affects blastocyst cell number of singly cultured embryos by acting roughly between the 5-8 and the 9-16 cell stage; and 3) cooperation between embryos could replace the effect of co-culture either on the yield of blastocysts or on blastocyst cell number. Blastocysts appeared significantly earlier in co-culture with cumulus cells in mSOF than in co-culture with BRL cells in TCM 199 (detection of the blastocysts: 7.3 +/- 0.1 d post insemination with cumulus cells versus 8.1 +/- 0.1 d with BRL cells; P < 0.001) and had a significant higher number of cells (143 +/- 9 versus 85 +/- 11; P < 0.001). This system thus seems suitable for the culture of small numbers of embryos resulting from in vitro maturation and fertilization of oocytes from individual donor cows.

Effects of type and state of co-culture cells on in-vitro development of porcine oocytes matured and fertilized in vitro

PURPOSE

The present study was to investigate the impact of type and state of co-culture cells on developmental competence of porcine oocytes matured and fertilized in vitro.

METHODS

Porcine zygotes were co-cultured with granulosa cells (GCs) (Group 1) or porcine oviductal epithelial cells (pOECs) at follicular stage (Group 2), ovulation stage (Group 3) or corpus luteum (CL) stage (Group 4) or cultured in a medium without co-culture cells (control group).

RESULTS

The proportion of oocytes developed to 2-cell stage embryos in Group 2 was similar to that in control group, but significantly (p < 0.05) lower than that in Groups 1, 3 and 4. The proportions of oocytes developed to > or = 4-cell stage embryos in Groups 3 and 4 were significantly (p < 0.05) higher than that in Groups 1 and 2. At 144 h after insemination, 12.0, 14.8 and 20.0% of oocytes developed to blastocysts in Groups 1, 3 and 4, respectively. However, no embryos in control group developed beyond 4-cell stage and no embryos in Group 2 developed to blastocyst stage.

CONCLUSION

As compared with GCs and pOECs at follicular stage, the pOECs at ovulation and CL stages had a better competence to support porcine embryo development under in vitro conditions.

A review of in vitro gamete maturation and embryo culture and potential impact on future animal biotechnology

This review considers the relationship of in vitro gamete maturation and embryo culture to the future development of animal biotechnology. The areas reviewed are oocyte maturation in vitro and embryo culture and their importance for successful in vitro embryo production. The rapidly developing area of spermatogonial cell transplantation and culture is also reviewed. The scientific milestones leading to the development of each area, the problems and prospects for future development and the possible significance of major advances in each area are discussed.

Preventing experimental vertical transmission of scrapie by embryo transfer

This study investigated whether the transmission of naturally occurring scrapie in sheep can be prevented using embryo transfer. Embryos were collected from 38 donor ewes in a Suffolk sheep flock with a high incidence of naturally occurring scrapie, treated with a sanitary procedure (embryo washing) recommended by the International Embryo Transfer Society and then transferred to 58 scrapie-free recipient ewes. Ninety-four offspring were produced. None of the offspring or the recipient ewes developed scrapie. Furthermore, offspring derived from embryos collected from donor ewes bred to the immunohistochemically positive ram did not develop scrapie. We conclude that scrapie was not transmitted to offspring via the embryo nor was the infective agent transmitted to recipient ewes during embryo transfer procedures.

Effect of nutrition on endocrine parameters, ovarian physiology, and oocyte and embryo development

Reproductive efficiency in high yielding dairy cows has decreased over the past 50 years, despite significant gains in genetic selection for increased milk output. One possible reason for this decline has been a change in the nutritional intake to meet the increased energy and protein demands for higher milk production. Excess energy intake in sheep will lead to significant reductions in progesterone concentrations; the effects in cattle are not so clear. Nutrition, unless radically changed, will have little effect on gonadotropin concentrations in ruminants, and this is in contrast to the situation for pigs and for primates, where very short-term nutritional changes manifest themselves in altered gonadotropin secretion. Cattle with reduced energy intake have smaller dominant follicles and more three-wave cycles, compared with animals on higher feed intakes. One of the main areas where nutrition influences reproductive efficiency is at the level of embryo production. Several studies indicate that excess energy intake reduces the response to superovulation and also decrease the yield of embryos and alters expression of some gene constructs within the developing embryo. The mechanism of this effect is not clear but indications are that the quality of the oocytes may be compromised. Indeed recent data indicate that nutritional changes around the time of mating may have detrimental effects on the establishment of pregnancy in heifers. Thus, nutritional balancing is critical for high-yielding dairy cows, in particular. The challenge remains to modify nutritional and management strategies in such cows to maintain the levels of production made possible by genetic selection and still maintain an acceptable level of fertility.

New method for culture of zona-included or zona-free embryos: the Well of the Well (WOW) system

Culture of mammalian zygotes individually and in small groups results in lower developmental rates than culture of large groups. Zona-free zygotes also have impaired developmental potential in current culture systems. This paper describes a new approach to resolve the problems, the Well of the Well (WOW) system. Small wells (WOWs) were formed in four-well dishes by melting the bottom with heated steel rods. The WOWs were then rinsed, the wells were filled with medium, and the embryos were placed into the WOWs. To test the value of the WOW system a 3 x 3 factorial experiment was performed. Bovine presumptive zygotes were cultured from day 1 to day 7 (day 0: day of insemination) using three modules (single embryos, embryo groups of five, or single zona-digested embryos) and three different culture systems (400 microl medium, 200 microl drops, or WOWs). An additional control group consisted of 40 to 50 embryos cultured in 400 microl medium. The WOW system resulted in higher blastocyst/oocyte rates for all three modules (single: 59%; group of five: 61%; single zona-digested: 53%) than the culture in drops or in wells (P < 0.05 for all). The developmental rate was independent of the number of WOWs per well. The cell number of blastocysts cultured in the WOW system did not differ from that of the controls. Apart from its theoretical value in revealing the role of different factors influencing embryo development in vitro, the WOW system may have immediate practical consequences in certain areas of mammalian embryo production.

Effect of culture media on embryo development from prepubertal goat IVM-IVF oocytes

Experiments were carried out to develop and improve in vitro culture systems for IVM-IVF prepubertal goat oocytes. Cumulus oocyte complexes (COC) were obtained by slicing ovaries from slaughtered prepubertal goats. Oocytes were matured in TCM-199 supplemented with 20% estrous goat serum (EGS) + 10 micrograms/mL FSH + 10 micrograms/mL LH + 1 microgram/mL estradiol 17 beta for 27 h at 38.5 degrees C in 5% CO2 in air. Matured oocytes were placed in drops of TALP- fert medium supplemented with hypotaurine (1 microgram/mL) and inseminated with freshly ejaculated spermatozoa following capacitation as described by Younis et al. (69) but with 100 micrograms/mL heparin. At 24 h post insemination the ova were transferred to various in vitro culture media, and early embryo development was evaluated until Day 8 post insemination. Specifically, in the studies described here, we have compared the effects of (Experiment 1) co-culture systems using oviductal ephitelial cells (OEC) and cumulus cells (CC), both caprine and bovine; (Experiment 2) the presence of serum and/or OEC; (Experiment 3) 4 culture media (TCM199, Ham's F10, CZB abd SOF) for co-culture with OEC; and (Experiment 4) conditioned medium with OEC. In Experiment 1, the percentage of morulae plus blastocysts was higher in culture with OEC, both caprine and bovine (15.1 and 14.8%, respectively) than with CC (4.1 and 6.7%, respectively). In Experiment 2, the OEC with EGS did not improve the percentage of morulae and blastocysts obtained with OEC alone (14.3 and 23.1% respectively). In Experiment 3, this percentage was higher using OEC with TCM-199 compared to CZB medium (21.3 and 12.3%, respectively) and in Experiment 4, the results were 3.7, 11.2 and 21.3% for TCM-199 without cells, Conditioned Medium and co-culture with OEC, respectively.

Development and viability of bovine preplacentation embryos treated with swainsonine in vitro

This study investigated the effects of swainsonine (a locoweed toxin) on bovine preplacentation embryo development using in vitro procedures. We examined and confirmed the viability and developmental potential of swainsonine-treated embryos by transfer to synchronized recipient heifers. Oocytes (n = 6338) were aspirated from ovaries collected from the abattoir and subjected to in vitro maturation (IVM), in vitro fertilization (IVF) and in vitro culture (IVC). Swainsonine was added to IVM, IVF, IVC media spatially and IVM/IVF/IVC continuously, at 0 ng/ml (TRTI, control), 200 ng/ml (TRT2), 400 ng/ml (TRT3), and 800 ng/ml (TRT4). Embryo development was evaluated with respect to oocyte cleavage rate and the rates of morula and blastocyst formation. There was no difference (P > 0.05) among treatments. The average number of nuclei per blastocyst at Day 7.5 of culture (Day 0 = IVF) was 85.9 +/- 4.3 (n = 47) and 89.3 +/- 4.4 (n = 44) for swainsonine-treated embryos (800 ng/ml) and control embryos, respectively. Pregnancy rate as determined by ultrasonography on day 35 to 40 post embryo transfer was 43.8% and 38.3% for swainsonine-treated (800 ng/ml) and control embryos, respectively. Nine (9.4%) healthy calves were delivered from heifers receiving swainsonine-exposed and nine (9.6%) from control embryos. No difference (P > 0.05) was detected in number of calves developing from TRT and control embryos. We conclude that swainsonine does not have an adverse effect on the development and viability of preplacentation bovine embryos.

The effects of bovine serum albumin and fetal bovine serum on the development of pre- and postcleavage-stage bovine embryos cultured in modified CR2 and M199 media

The effects of protein supplementation on bovine embryo development in vitro was evaluated using a 4 x 2 factorial arrangement with ten replications. A total of 6438 oocytes collected from abattoir ovaries were used. Bovine serum albumin (BSA) and fetal bovine serum (FBS) were added in various combinations to simple (modified CR2) and complex (M199) media during culture of precleavage-stage IVM/IVF-derived ova from 18 h after insemination to 72 h and postcleavage-stage embryos after 72 h of culture. Cleavage rates did not differ (p > 0.05) between media supplemented with FBS or with BSA. However, the postcleavage development to the blastocyst stage of in vitro-derived bovine embryos is better in media supplemented with FBS than BSA. A greater (p < 0.05) proportion of cleaved oocytes developed to blastocysts and hatched blastocysts in media supplemented with FBS during postcleavage culture. The percentage of embryos that stopped development at the morula stage was significantly (p < 0.05) greater in media supplemented with BSA during postcleavage culture. Viability of blastocysts produced in CR2 and M199 supplemented with FBS were further assessed by transfer to recipients. In CR2, 25 transferred blastocysts resulted in seven pregnancies and the birth of three normal calves. In M199, 24 transferred blastocysts resulted in five pregnancies and the birth of two normal calves. There was no difference (p > 0.05) in rate of embryo development between CR2 and M199.

In vitro production of bovine embryos using individual oocytes

The development of a bovine in vitro embryo production system where individual oocytes could be followed through to the morula or blastocyst stage would be of interest to several fields of study and would allow us to characterise developmentally competent oocytes and their corresponding follicular environment. Several studies have, however, reported significantly reduced embryo development when oocytes or embryos were cultured individually compared to in groups. The aim of this study was to establish such an embryo production system, with embryo development rates similar to that observed under control (grouped) conditions. This study showed that conservation of the oocyte/embryo medium densities generally employed for grouped culture does not facilitate embryo development if oocytes/embryos are cultured individually. However, individual oocytes could effectively undergo IVM/IVF/IVC to the expanded blastocyst stage with some small modifications to the standard protocol. Individual IVF was effective if carried out in either 100 microliters of medium in wells or in 50 microliters droplets. Individual IVC, if carried out in 10 or 20 microliters droplets of SOF with FCS added at either 0 or 24 hr, was effective in terms of blastocyst yields but 20 microliters droplets did yield significantly fewer hatched blastocysts compared to grouped controls (p < 0.05). An entirely individual embryo production system was effective when it included individual IVM in 10 microliters droplets of M199 + 10 ng/ml EGF resulting in day 8 blastocyst yields not significantly different from controls (38% vs. 35% respectively). The use of 10% FCS during individual IVM appeared, at least under our experimental conditions, to be detrimental to subsequent development. The uses of an individual system for embryo production are many and varied. The results of this study show clearly that a large proportion of bovine oocytes can develop to the blastocyst stage when matured, fertilized, and cultured individually. This opens the way for studies regarding the quality of specific oocytes in such a way as will greatly improve our understanding of the events of late folliculogenesis.

The effect of time of intrauterine insemination on the development and viability of embryos collected from superovulated ewes

Eighteen Border Leicester x Scottish Blackface ewes, primed with 300 mg progesterone (12 d) and superovulated with decreasing doses (6, 5, 3 and 2 mg) of porcine FSH, were inseminated with fresh semen, using laparoscopic intrauterine procedures at 48 (Group E) or 60 h (Group L) after exogenous progesterone removal. Five days after insemination, embryos were collected and classified on the basis of their morphological development. During the subsequent 3 d of in vitro culture (38.5 degrees C; 5% CO2) the embryos were evaluated at 24-h intervals. After 72 h, the embryos were individually fixed (24 h) and stained with aceto-orcein and the nuclei were then counted to provide an objective index of cell proliferation and development. Mean (+/-SEM) ovulation rates for the 2 groups (9.2+/-1.5 and 7.1+/-1.2, respectively) and the corresponding percentages (53 vs 59) of embryos collected by laparoscopy were unaffected by insemination time. All donors yielded fertilized ova, but whereas all Group-E donors yielded 1 or more viable embryos (i.e., >32 cells), only 5 Group-L ewes yielded viable embryos (P<0.10). At collection, the percentages of embryos at the morula stage of development were 98 (Group E n = 44) and 39 (Group L n = 38; P<0.001). Few of the remaining ova (Group E = 0% Group L = 8%) were at the 1-cell stage of development when collected, indicating that retarded development post fertilization, not fertilization failure, was the principal consequence of delayed insemination. The percentages of embryos that continued to develop during in vitro culture were 91 and 37 for Groups E and L, respectively (P<0.001), and all of these reached the blastocyst stage. Of these blastocysts, 75 and 50% in Groups E and L hatched in vitro (P<0.10), with mean (+/-SEM) nuclei counts of 148+/-22.7 and 76+/-13.8 (P<0.02), respectively. In conclusion, while delayed intrauterine insemination did not affect the efficiency of ovum collection, it caused a major reduction in the yield of embryos that were capable of developing during in vitro culture. However, fertilization failure accounted for only 13% of the loss in viability following late insemination.

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.

Growth of preimplantation bovine embryos

Development of mammalian embryos in vitro is functionally and temporally inferior to embryo development as it occurs inside the female reproductive tract. The deficiencies of cultured embryos range from slow cleavage rates to complete developmental arrests or blocks, occurring at particular stages in many species. A variety of approaches have been used to overcome the blocks, including most extensively the coculture of preimplantation embryos with various somatic cells. However, even with coculture, development of embryos in vitro is still not equivalent to that in vivo. In most laboratories, only 25-40% of inseminated oocytes develop into morulae and blastocysts in spite of numerous variations on the basic technique. A better understanding of the factors governing embryonic growth is required before we can hope to achieve results comparable with those occurring in vivo.

Cumulus cell function during bovine oocyte maturation, fertilization, and embryo development in vitro

Several contemporary micromanipulation techniques, such as sperm microinjection, nuclear transfer, and gene transfer by pronuclear injection, require removal of cumulus cells from oocytes or zygotes at various stages. In humans, the cumulus cells are often removed after 15-18 hr of sperm-oocyte coincubation to assist the identification of the fertilization status. This study was designed to evaluate the function of cumulus cells during oocyte maturation, fertilization, and in vitro development in cattle. Cumulus cells were removed before and after maturation and after fertilization for 0, 7, 20, and 48 hr. The cumulus-free oocytes or embryos were cultured either alone or on cumulus cell monolayers prepared on the day of maturation culture. Percentages of oocyte maturation, fertilization, and development to cleavage, morula, and blastocyst stages and to expanding or hatched blastocysts were recorded for statistical analysis by categorical data modeling (CATMOD) procedures. Cumulus cells removed before maturation significantly reduced the rate of oocyte maturation (4-26% vs. 93-96%), fertilization (0-9% vs. 91-92%), and in vitro development at all stages evaluated. Cumulus cells removed immediately prior to in vitro fertilization (IVF) or 7 hr after IVF reduced the rates of fertilization (58-60% and 71%, respectively, vs. 91-92% for controls), cleavage development (40-47% and 53-54% vs. 74-78% for controls), and morula plus blastocyst development (15% and 24% vs. 45%, P < 0.05). Cumulus cell co-culture started at various stages had no effect on fertilization and cleavage development but significantly improved rates of embryo development to morula or blastocyst stages (P < 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)

Development of IVM-IVF produced 8-cell bovine embryos in simple, serum-free media after conditioning or co-culture with buffalo rat liver cells

Development of 8-cell bovine embryos derived from in vitro matured/in vitro fertilized (IVM/IVF) oocytes was evaluated in two simple, serum-free media (CZB and SOM) with buffalo rat liver cells co-culture (BRLC) or after conditioning compared to a commonly used, serum-supplemented complex medium TCM-199. In a 3 x 4 factorial design, 578 eight-cell embryos were randomly assigned to 12 treatment groups. The factors were: first, type of culture medium (M199/FBS, CZBg and SOM), and second, the use of BRLC (as co-culture or to condition media for 24 hr and 48 hr) and unconditioned media. Development to morula was not affected by the type of medium, but co-culture and 48 hr conditioning within media type resulted in better development when compared to the 24-hr conditioned or unconditioned groups. Blastocyst development in SOM (38.9%) was different (P < 0.05) than in CZBg (46.6%) and M199/FBS (48.7%) and was lowest in the unconditioned group (27.8%) followed by 24 hr conditioned (33.3%), 48 hr (56.3%), and co-culture (59.6%). No blastocyst expansion was observed with unconditioned media and 24 hr conditioned SOM. Significant differences (P < 0.05) were found among all treatment groups except the co-culture and 48-hr conditioned groups. Hatching occurred only with co-culture and 48-hr conditioned groups of M199/FBS and CZBg media. These data show that CZB with glucose conditioned by BRLC monolayers for 48 hr can support the development of IVM/IVF produced bovine embryos to blastocyst compared to culture in TCM-199 with serum.

Oviductal fluid and growth factors failed to enhance development of porcine embryos

Porcine embryos (1-, 2- and 4-cell) were cultured in a basal medium consisting of Krebs-Ringer bicarbonate buffer supplemented with oviductal fluid and several growth factors and observed for further development. Oviducts were flushed at either 48 h (Experiment 1) or 96 h (Experiment 2) after the onset of estrus. Observations were made every 48 h (Experiment 1) or 12 h (Experiment 2) until failure of the embryos to develop for 2 consecutive observations. Embryos were scored 0 = no development, 1 = cleavage, 2 = morula, 3 = blastocyst, or 4 = hatched blastocyst. In the first experiment, development of 1-, 2- and 4-cell embryos (n=282) in the basal medium supplemented with oviductal fluid (4:1) or 3 sets of growth factors, was less or equal to one cleavage stage. Those embryos cultured in the basal medium supplemented with bovine serum albumin (fatty acid free) (BSA) advanced to the blastocyst stage. In the second experiment, 96 h aged embryos (n=142) were cultured in the basal medium supplemented with IGF-1 and - 2 and EGF, or with BSA alone or with BSA and the three growth factors. In the treatments without BSA, the embryonic development was less than one cleavage, whereas in those treatments with BSA, embryos advanced beyond hatching and began to expand. We conclude that for culture of porcine embryos, supplementation with several growth factors or with oviductal fluid, in the concentration used in this study, was of little benefit at this stage of development. However, the type of BSA significantly affected development. More than 90% of the embryos reached the morula and blastocyst stages in medium than included BSA (fatty acid free).

Mitogenic and cytogenetic evaluation of transforming growth factor-beta on murine preimplantation embryonic development in vitro

Slow cleavage rate has been a major contributory factor influencing embryo morphology in in vitro fertilization (IVF) programs. The role of transforming growth factor-beta (TGF beta 1) in improving this characteristic was evaluated using the murine model. Replicate batches of eight-cell compacting embryos from superovulated mice were divided into three groups. Group A were treated with 0.3 ng/ml TGF beta 1 at the initial compacting stage, followed by a second treatment of 0.1 ng/mL 22 h later at the cavitating stage; group B received 0.3 ng/ml TGF beta 1 at the cavitating stage; group C were controls. The percentages of treated embryos reaching fixed embryonic stages, total cell number (TCN), mitotic index, and incidence of chromosome anomalies were monitored. The percentage of embryos reaching the cavitating, expanded, hatching, and hatched stages in both treatment groups were not significantly different from control (96.6% +/- 4.2% to 37.7% +/- 12.7% vs. 95.3% +/- 7.3% to 47.0% +/- 3.5%; P > 0.05). Values between the two treatment groups were also not significantly different. Embryos in groups A and B produced significantly greater TCN at expanded blastocyst and hatching stages compared to controls (Group A: 107.0 +/- 18.9 vs. 89.9 +/- 17.4, P < 0.05 and 125.5 +/- 16.4 vs. 113.9 +/- 12.1, P < 0.05; Group B: 107.9 +/- 14.0 vs. 89.9 +/- 17.4, P < 0.05 and 124.9 +/- 17.4 vs. 113.9 +/- 12.1, P < 0.05). Values, however, were not significantly different between treatment groups.(ABSTRACT TRUNCATED AT 250 WORDS)