Single in vitro bovine embryo production Coculture with autologous cumulus cells, developmental competence, embryo quality and gene expression profiles

Studies concerning oocyte quality markers, oocyte/embryo metabolism or commercial OPU settings treating donors with low oocyte yields, indicate a need for optimization of IVP protocols to culture single oocytes to the blastocyst stage. However, culture conditions for single oocyte usually impair development, although previous research showed that single oocyte culture on a monolayer of cumulus cells can lead to similar developmental competence than group oocyte culture. Aiming to develop a fully single IVP procedure, Experiment 1 and 2 revealed that individual maturation, fertilization and culture in 20 μL droplets, using a monolayer of heterologous (SSSm, Exp 1) or autologous cumulus cells in coculture (SSSa, Exp 2), resulted in 23.9% and 15.1% of blastocysts 8 days p.i.;respectively, which is significantly less compared to regular group IVP (GGGc, 33.5% (Exp 1) and 26.2% (Exp 2), respectively). In a third Experiment, day 7 p.i. blastocyst quality was analyzed in four treatment groups regular group IVP (GGGc), group IVP with coculture (GGGm), in group produced zygotes, singly cultured on a heterologous cumulus cell monolayer (GGSm) and individually matured and fertilized zygotes, singly cultured on a monolayer (SSSm). Mean cell number and apoptotic cell index, were similar for all treatment groups. Moreover, mRNA abundance relative to H2AFZ was equal for 9 qualitatively linked genes (TP53, BAX, SHC1 SHC, IGF2R, PTGS2, AKR1B1, PLAC8, SLC2A1, and MNSOD). Only GPX1, involved in detoxification and mtDNA protection to oxidative stress, was significantly downregulated (ANOVA, P < 0.05) in singly produced blastocysts (SSSm), compared to the other treatments. In conclusion, a valuable individual IVP system was established and autologous cumulus cells in coculture showed to partly neutralize hampered individual culture conditions. Additionally, to our knowledge this is the first report in which blastocyst quality, in terms of cell number, apoptosis and gene expression, of singly produced embryos was investigated and shown to be similar to in group produced embryos, implicating that the single IVP system can be applied as a tool in oocyte and embryo quality studies. © 2011 Elsevier Inc

Interaction between differential gene expression profile and phenotype in bovine blastocysts originating from oocytes exposed to elevated non-esterified fatty acid concentrations

Maternal metabolic disorders linked to lipolysis are major risk factors for reproductive failure. A notable feature of such disorders is increased non-esterified fatty acid (NEFA) concentrations in the blood, which are reflected in the ovarian follicular fluid. Elevated NEFA concentrations impact on the maturing oocyte and even alter subsequent embryo physiology. The aetiological mechanisms have not been fully elucidated. Therefore, in the present study, bovine in vitro maturing cumulus-oocyte complexes were exposed (24h) to three different maturation treatments containing (1) physiological (72 M) NEFA concentrations (≤control); (2) elevated (75 M) stearic acid (SA) concentrations (≤HIGH SA); and (3) elevated (425 M) NEFA concentrations (≤HIGH COMBI). Zygotes were fertilised and cultured following standard procedures. Transcriptomic analyses in resulting Day 7.5 blastocysts revealed that the major pathways affected are related to lipid and carbohydrate metabolism in HIGH COMBI embryos and to lipid metabolism and cell death in HIGH SA embryos. Furthermore, lower glutathione content and a reduced number of lipid droplets per cell were observed in HIGH SA-exposed oocytes and resulting morulae, respectively, compared with their HIGH COMBI-exposed counterparts. Vitrified embryos originating from HIGH SA-exposed oocytes tended to exhibit lower survival rates compared with controls. These data suggest possible mechanisms explaining why females across species suffering lipolytic disorders experience difficulties in conceiving. � 2015 CSIRO