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Casey D Wright Animal Reproduction and Biotechnology Laboratory, Department of Pediatrics, Department of Biomedical Sciences, Colorado State University, ARBL-Foothills Campus, Campus Delivery 1683, Fort Collins, Colorado 80-523-1683, USA

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Ryan J Orbus Animal Reproduction and Biotechnology Laboratory, Department of Pediatrics, Department of Biomedical Sciences, Colorado State University, ARBL-Foothills Campus, Campus Delivery 1683, Fort Collins, Colorado 80-523-1683, USA

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Timothy R H Regnault Animal Reproduction and Biotechnology Laboratory, Department of Pediatrics, Department of Biomedical Sciences, Colorado State University, ARBL-Foothills Campus, Campus Delivery 1683, Fort Collins, Colorado 80-523-1683, USA

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Russell V Anthony Animal Reproduction and Biotechnology Laboratory, Department of Pediatrics, Department of Biomedical Sciences, Colorado State University, ARBL-Foothills Campus, Campus Delivery 1683, Fort Collins, Colorado 80-523-1683, USA
Animal Reproduction and Biotechnology Laboratory, Department of Pediatrics, Department of Biomedical Sciences, Colorado State University, ARBL-Foothills Campus, Campus Delivery 1683, Fort Collins, Colorado 80-523-1683, USA

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Ovine GH (oGH) is synthesized in placental tissue during maximal placental growth and development. Our objectives were to localize oGH mRNA in the placenta, and study the impact of exogenous GH on twin pregnancies during the normal window (35–55 days of gestational age; dGA) of placental expression. In situ hybridization localized oGH mRNA in uterine luminal epithelium but not in tissues of fetal origin. While maternal GH and IGF-I concentrations were increased (P<0.001) approximately tenfold, uterine, uterine fluid, placental, and fetal weights were unaffected by treatment at either 55 or 135 dGA. Fetal length, liver weight, and liver weight per kg of body weight were unaffected by maternal GH treatment. However, in the cotyledon, IGF-binding protein (BP)-1 and IGFBP-4 mRNA concentrations were increased (P<0.05), while IGFBP-2 mRNA was decreased (P<0.05). The concentration of mRNA for IGFBP-3 was unaffected by treatment. Within the caruncle, IGFBP-1 mRNA was decreased (P<0.05), while IGFBP-3 and IGFBP-4 mRNA were increased (P<0.05), and IGFBP-2 mRNA was unchanged due to GH treatment. While our data indicate that elevated maternal GH and IGF-I concentrations during early and mid-gestation do not enhance placental and fetal growth in twin pregnancies, localization of GH mRNA in uterine luminal epithelium could explain GHs transitory expression from 35 to 55 dGA, since by the end of this period the majority of the uterine luminal epithelium has fused with chorionic binucleate cells forming the placental syncytium.

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Asghar Ali Colorado State University, Animal Reproduction and Biotechnology Lab, Fort Collins, Colorado, USA

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Callie M Swanepoel Colorado State University, Animal Reproduction and Biotechnology Lab, Fort Collins, Colorado, USA

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Quinton A Winger Colorado State University, Animal Reproduction and Biotechnology Lab, Fort Collins, Colorado, USA

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Paul J Rozance Perinatal Research Center, University of Colorado Anschutz Medical Campus, Aurora, Colorado, USA

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Russell V Anthony Colorado State University, Animal Reproduction and Biotechnology Lab, Fort Collins, Colorado, USA

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Chorionic somatomammotropin (CSH) is a placenta-specific hormone associated with fetal growth, and fetal and maternal metabolism in both humans and sheep. We hypothesized that CSH deficiency could impact sheep fetal liver glucose utilization. To generate CSH-deficient pregnancies, day 9 hatched blastocysts were infected with lentiviral particles expressing CSH-specific shRNA (RNAi) or scramble control shRNA (SC) and transferred to synchronized recipients. CSH RNAi generated two distinct phenotypes at 135 days of gestational age (dGA); pregnancies with IUGR (RNAi-IUGR) or with normal fetal weight (RNAi-NW). Fetal body, fetal liver and placental weights were reduced (P < 0.05) only in RNAi-IUGR pregnancies compared to SC. Umbilical artery plasma insulin and insulin-like growth factor 1 (IGF1) concentrations were decreased, whereas insulin receptor beta (INSR) concentration in fetal liver was increased (P < 0.05) in both RNAi phenotypes. The mRNA concentrations of IGF1, IGF2, IGF binding protein 2 (IGFBP2) and IGFBP3 were decreased (P < 0.05) in fetal livers from both RNAi phenotypes. Fetal liver glycogen concentration and glycogen synthase 1 (GYS1) concentration were increased (P < 0.05), whereas fetal liver phosphorylated-GYS (inactive GYS) concentration was reduced (P < 0.05) in both RNAi phenotypes. Lactate dehydrogenase B (LDHB) concentration was increased (P < 0.05) and IGF2 concentration was decreased (P < 0.05) in RNAi-IUGR fetal livers only. Our findings suggest that fetal liver glucose utilization is impacted by CSH RNAi, independent of IUGR, and is likely tied to enhanced fetal liver insulin sensitivity in both RNAi phenotypes. Determining the physiological ramifications of both phenotypes, may help to differentiate direct effect of CSH deficiency or its indirect effect through IUGR.

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