Macroenvironment effects on oocytes and embryos in swine

• Published in: Theriogenology Vol. 68; pp. S30 - S39
• Main Authors: Foxcroft, G.R., Vinsky, M.D., Paradis, F., Tse, W.-Y., Town, S.C., Putman, C.T., Dyck, M.K., Dixon, W.T.
• Format: Journal Article
• Language: English
• Published: United States Elsevier Inc 01.09.2007
• Subjects: Animals; embryo (animal); embryogenesis; Embryonic Development - genetics; Embryonic Development - physiology; embryonic mortality; Embryos; Environment; Epigenesis, Genetic - physiology; Epigenetics; Female; fetal development; follicular development; genotype-environment interaction; growth retardation; intrauterine crowding; intrauterine growth retardation; lactation; lactational catabolism; literature reviews; Metabolism; Muscles - embryology; Nutrition; nutrition-genotype interaction; Oocytes; Oocytes - metabolism; Oocytes - physiology; Organ Size; Pig; Pregnancy; Pregnancy, Animal; Pregnancy, Multiple - physiology; Programming; sows; Swine - embryology; Swine - genetics; Swine - metabolism; Swine - physiology; Uterus - growth & development; Nutrition; Epigenetics; Programming; Environment; Embryos; Oocytes; Pig
• ISSN: 0093-691X; 1879-3231
• DOI: 10.1016/j.theriogenology.2007.04.032

As in other domestic mammals, the interaction between genotype and environment in swine has profound effects on the ultimate phenotype of the individual born. Interactions within the litter in utero add an additional level of complexity in a litter-bearing species like the pig. Nutritional manipulations during the preovulatory period affect the maturity of the follicle and enclosed oocyte, and the metabolic and endocrine mechanisms potentially mediating these effects have been described. Extensive research on lactational catabolism in the first parity sow has established an association between the development of immature follicles and oocytes, and the reduced fertility of these sows when bred at the first postweaning estrus. This negative impact of lactational catabolism appears to be exaggerated in contemporary dam-lines by a minimal delay between weaning and first estrus, further limiting the maturity of the follicle and oocyte at the time of ovulation. Metabolic programming may induce gender-specific loss of embryos by Day 30 and affects embryonic development directly, without significant effects on placental size. In contrast, inadvertent crowding of embryos in utero, particularly evident in a sub-population of mature sows with high ovulation rates and moderate to high embryonic survival to Day 30, significantly limits placental development of crowded litters. However, even at Day 30, moderate crowding in utero also appears to affect myogenesis in the embryo in a gender-specific manner. In the absence of compensatory placental growth after Day 30, classic measures of IUGR are evident in surviving fetuses at Day 90 and at term.