175 BOVINE EMBRYO DEVELOPMENT AND MRNA EXPRESSION IN BLASTOCYSTS CULTURED IN ISOLATED MOUSE OVIDUCTS MAINTAINED IN SOF OR KSOM

Abstract

It is well known that modification of the post-fertilization culture environment of mammalian pre-attachment embryos can affect blastocyst quality, manifested in terms of morphology, cryotolerance, and relative abundance of certain gene transcripts. Culture of in vitro-produced bovine zygotes in the ewe oviduct leads to the development of blastocysts of a quality similar to those derived totally in vitro (Rizos et al. 2002 Biol. Reprod. 66, 589-595). However, such a system has disadvantages from a practical and animal welfare point of view. The isolated mouse oviduct (IMO) culture system is a potential alternative and has been successfully used in the in vitro culture of mouse, rat, hamster, and pig embryos from the one-cell stage to the morula/blastocyst stage. The aim of this study was to examine (1) the development of bovine zygotes in the IMO maintained in two different media (SOF and KSOM) in organ culture, and (2) the quality of the resultant blastocysts assessed in terms of the relative abundance of transcripts for several genes that have been previously implicated in embryo quality. Mouse oviducts were isolated from adult Swiss females (CD1, Harlan) the day after mating with an intact male. Approximately 10-15 presumptive bovine zygotes, produced by in vitro oocyte maturation and fertilization, were transferred to the ampullae of the isolated oviducts and were cultured in Transwell plates (Costar, Corning, NY, USA) over 1.1 mL of culture medium (SOF, n = 241 or KSOM, n = 320) at 39°C in an atmosphere of 5% CO₂ in air at maximum humidity. A control group of embryos was cultured in droplets (25 µL) of the same culture medium and conditions in parallel (SOF, n = 278, KSOM, n = 225). Five replicates (=days of bovine ovary collection) were carried out. Following 6 days of culture, embryos were recovered from the oviducts/culture drops and blastocysts were snap-frozen in liquid nitrogen. Quantification of all gene transcripts was carried out by real time quantitative RT-PCR. Data on embryo development were analyzed by chi-square analysis and differences in transcript abundance by ANOVA. Culture in the IMO did not affect the proportion of zygotes developing to the blastocyst stage compared to the respective control droplets (SOF: 21.0 vs. 21.9%; KSOM: 22.0 vs. 22.2%). Culture in the IMO in SOF resulted in an increase (P d 0.05) in the abundance of transcripts for Oct-4 and SOX and reduced abundance of Glut-1, Na/K transporter, Cx43, and survivin, compared to control embryos. In contrast, culture in the IMO in KSOM resulted in increased abundance of transcripts for Glut-1, Cx43, Oct-4, and survivin and a reduced expression of Na/K transporter and SOX. Transcripts for G6PDH, IFN, and E-Cad were unaffected by culture environment. In conclusion, culture in the IMO leads to alterations in the relative abundance of transcripts that have been previously associated with embryo quality following culture in the ewe oviduct. However, the effect is dependent on the basal medium used.