The objective of this study was to evaluate the local effect of the corpus luteum (CL) on ipsilateral oviduct-uterus functionality and early embryo development in ewes. A total of 499 embryos were transferred on Day 1 after in vitro fertilization into the ipsilateral (n = 250) and contralateral oviducts (n = 249) of 13 ewes on Day 1 after ovulation (18-20 embryos per oviduct). On Day 6, their reproductive tracts were collected and their uterine horns were flushed for embryo recovery. More recovered embryos, a higher proportion of blastocysts, and more viable embryos were collected when the embryos were transferred into the ipsilateral oviducts (P < 0.05). In addition, almost five times higher P4 concentrations and significantly lower E2 concentrations, with higher P4:E2 ratio, were found in the ipsilateral than contralateral oviductal tissue (P < 0.05). Furthermore, a higher concentration of adiponectin was found in the ipsilateral uterine tissue macerates than in the contralateral side to the CL. The ipsilateral oviductal tissue had a lower expression of PGR and IGFBP5, but the transcript expression of ADIPOR1 was higher in the ipsilateral oviductal tissue. In the uterus, the mRNA expression of ESR1, IGFBP3, IGFBP5, and LEPR was higher or tended to be higher in the ipsilateral than contralateral uterine tissue. Uterine flushing fluid collected from the ipsilateral uterine horn had lower insulin concentrations than the contralateral horn, while no differences were found in the P4 and E2 concentrations. In conclusion, on Day 6 post-ovulation, P4 was elevated in the ipsilateral oviductal tissue, embryo development was advanced, and differential gene expression of PGR, ESR1, IGFBP3, IGFBP5, LEPR, and ADIPOR1 in the oviductal or uterine tissue was found between the ipsilateral and contralateral side. This study demonstrates local regulation of the ovary on the ipsilateral oviduct/uterine horn in the ewe.
Keywords: Early development; Embryo transfer; Oviduct; Sheep; Uterus.
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