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Malathi Srinivasan
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Paul Mitrani
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Suhad Shbeir-ElDika
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Shanthie Thamotharan Department of Biochemistry, Department of Pediatrics, Department of Medicine, Diabetes and Endocrinology Center of Western New York, School of Medicine and Biomedical Sciences, University at Buffalo, State University of New York at Buffalo, 140 Farber Hall, 3435 Main Street, Buffalo, New York 14214, USA

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Hussam Ghanim Department of Biochemistry, Department of Pediatrics, Department of Medicine, Diabetes and Endocrinology Center of Western New York, School of Medicine and Biomedical Sciences, University at Buffalo, State University of New York at Buffalo, 140 Farber Hall, 3435 Main Street, Buffalo, New York 14214, USA

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Paresh Dandona Department of Biochemistry, Department of Pediatrics, Department of Medicine, Diabetes and Endocrinology Center of Western New York, School of Medicine and Biomedical Sciences, University at Buffalo, State University of New York at Buffalo, 140 Farber Hall, 3435 Main Street, Buffalo, New York 14214, USA
Department of Biochemistry, Department of Pediatrics, Department of Medicine, Diabetes and Endocrinology Center of Western New York, School of Medicine and Biomedical Sciences, University at Buffalo, State University of New York at Buffalo, 140 Farber Hall, 3435 Main Street, Buffalo, New York 14214, USA

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Sherin U Devaskar Department of Biochemistry, Department of Pediatrics, Department of Medicine, Diabetes and Endocrinology Center of Western New York, School of Medicine and Biomedical Sciences, University at Buffalo, State University of New York at Buffalo, 140 Farber Hall, 3435 Main Street, Buffalo, New York 14214, USA

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Mulchand S Patel
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Newborn rat pups artificially raised on a high-carbohydrate (HC) milk formula are chronically hyperinsulinemic and develop adult-onset obesity. As HC rats display aberrations in body weight regulation, hypothalamic adaptations predisposing to obesity have been investigated in this study. The artificial rearing of neonatal rat pups on the HC milk formula resulted in significant increases in the mRNA levels of neuropeptide Y, agouti-related polypeptide, and galanin in the hypothalamus of 12-day-old HC rats. Simultaneously, decreases in the mRNA levels of POMC, melanocortin receptor-4, cocaine- and amphetamine-regulated transcript, and corticotrophin-releasing factor were observed in the hypothalamus of these rats. These changes persisted in 100-day-old HC rats despite weaning onto a rodent diet on postnatal day 24. Marked hyperphagia and increased body weight gain were observed in the post-weaning period. The mRNA levels and protein content of insulin receptor β (IR-β) and leptin receptor (long form) showed significant decreases in the hypothalamus of both 12- and 100-day-old HC rats. Further investigation of insulin signaling in the hypothalamus of HC rats indicated significant decreases in the proximal signaling components (insulin receptor substrate proteins 1 and 2 and phosphotidylinositol 3-kinase) in 100-day-old HC rats. These results suggest that hypothalamic neuropeptides respond to the increased carbohydrate availability with associated hormonal alterations during the period of dietary modulation and that these adaptations by persisting in the post-weaning period predispose the HC rats for adult-onset obesity.

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Susan Gray Department of Pediatrics, David Geffen School of Medicine at UCLA, Los Angeles, California 90095, USA
Department of Pediatrics, Brown University Medical School and Women and Infants’ Hospital of Rhode Island, Providence, Rhode Island 02912, USA
Department of Pediatrics, University of Pittsburgh School of Medicine and Magee-Womens Research Institute, Pittsburgh, Pennsylvania 15261, USA

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Barbara S Stonestreet Department of Pediatrics, David Geffen School of Medicine at UCLA, Los Angeles, California 90095, USA
Department of Pediatrics, Brown University Medical School and Women and Infants’ Hospital of Rhode Island, Providence, Rhode Island 02912, USA
Department of Pediatrics, University of Pittsburgh School of Medicine and Magee-Womens Research Institute, Pittsburgh, Pennsylvania 15261, USA

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Shanthie Thamotharan Department of Pediatrics, David Geffen School of Medicine at UCLA, Los Angeles, California 90095, USA
Department of Pediatrics, Brown University Medical School and Women and Infants’ Hospital of Rhode Island, Providence, Rhode Island 02912, USA
Department of Pediatrics, University of Pittsburgh School of Medicine and Magee-Womens Research Institute, Pittsburgh, Pennsylvania 15261, USA

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Grazyna B Sadowska Department of Pediatrics, David Geffen School of Medicine at UCLA, Los Angeles, California 90095, USA
Department of Pediatrics, Brown University Medical School and Women and Infants’ Hospital of Rhode Island, Providence, Rhode Island 02912, USA
Department of Pediatrics, University of Pittsburgh School of Medicine and Magee-Womens Research Institute, Pittsburgh, Pennsylvania 15261, USA

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Molly Daood Department of Pediatrics, David Geffen School of Medicine at UCLA, Los Angeles, California 90095, USA
Department of Pediatrics, Brown University Medical School and Women and Infants’ Hospital of Rhode Island, Providence, Rhode Island 02912, USA
Department of Pediatrics, University of Pittsburgh School of Medicine and Magee-Womens Research Institute, Pittsburgh, Pennsylvania 15261, USA

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Jon Watchko Department of Pediatrics, David Geffen School of Medicine at UCLA, Los Angeles, California 90095, USA
Department of Pediatrics, Brown University Medical School and Women and Infants’ Hospital of Rhode Island, Providence, Rhode Island 02912, USA
Department of Pediatrics, University of Pittsburgh School of Medicine and Magee-Womens Research Institute, Pittsburgh, Pennsylvania 15261, USA

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Sherin U Devaskar Department of Pediatrics, David Geffen School of Medicine at UCLA, Los Angeles, California 90095, USA
Department of Pediatrics, Brown University Medical School and Women and Infants’ Hospital of Rhode Island, Providence, Rhode Island 02912, USA
Department of Pediatrics, University of Pittsburgh School of Medicine and Magee-Womens Research Institute, Pittsburgh, Pennsylvania 15261, USA

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We investigated the effects of maternal antenatal dexamethasone (Dex) treatment given as a single course (4 doses) or multiple courses (20 doses) on fetal skeletal muscle glucose transporter (GLUT) protein concentrations at 70% of gestation (106 to 107 days with term being 145 to 150 days) in the ovine fetus. Antenatal corticosteroid administration was associated with a decrease in endogenous fetal plasma cortisol concentrations (P < 0.05), fetal hyperglycemia (P < 0.02) and hyperinsulinemia (P < 0.05). These metabolic/hormonal changes were associated with a decrease in fetal body weight (P < 0.05) in the multiple course Dex group compared with the multiple course placebo group. These perturbations were associated with an increase in fetal skeletal muscle GLUT 1 concentrations that mediate basal glucose transport in the extensor digitorum lateralis and extensor digitorum longus muscles (P < 0.05) 18 h after the last dose of Dex was given in the single course group. However, in the multiple course Dex group, a small increase in GLUT 1 was observed only in the biceps femoris. In contrast, both single and multiple courses of antenatal Dex were associated with an increase in the extensor digitorum lateralis and biceps femoris muscle GLUT 4 (insulin-responsive) concentrations (P < 0.05). We conclude that antenatal corticosteroids perturb fetal glucose/insulin homeostasis, which is associated with increases in fetal skeletal muscle glucose transporters to compensate for and attenuate the associated catabolic fetal state. These changes consist of an increase in proteins that mediate basal glucose transport (GLUT 1) to meet immediate energy requirements of the fetal skeletal muscle with an increase in basal insulin sensitivity (GLUT 4) to compensate for the Dex-induced catabolic state after exposure to multiple courses of Dex.

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