Cross-Fostering to Diabetic Rat Dams Affects Early Development of Mediobasal Hypothalamic Nuclei Regulating Food Intake, Body Weight, and Metabolism

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Nutritional Neurosciences

Cross-Fostering to Diabetic Rat Dams Affects Early Development of Mediobasal Hypothalamic Nuclei Regulating Food Intake, Body Weight, and Metabolism¹

Sonja Fahrenkrog, Thomas Harder, Elke Stolaczyk, Kerstin Melchior, Kerstin Franke, Joachim W. Dudenhausen and Andreas Plagemann²

Clinic of Obstetrics, Division of Experimental Obstetrics, Charité—University Medicine Berlin, Campus Virchow-Klinikum, Berlin, Germany

²To whom correspondence should be addressed. E-mail: andreas.plagemann{at}charite.de.

Exposure to maternal gestational diabetes (GD) "programs" offspringfor obesity in childhood and later life. Recent clinical datasuggest that neonatal ingestion of breast milk from diabeticmothers might be crucially involved. Mediobasal hypothalamicnuclei such as the ventromedial nucleus (VMN), the paraventricularnucleus (PVN) and the arcuate nucleus (ARC) play a key rolein the central nervous system regulation of food intake andbody weight. In the ARC, orexigenic neuropeptides such as neuropeptideY (NPY), galanin (GAL), and agouti-related peptide (AGRP) andanorexigenic neuropeptides such as proopiomelanocortin (POMC)and alpha-melanocyte-stimulating hormone (MSH) are expressed.We investigated the effects of neonatal exposure to milk fromGD rat dams on the development of hypothalamic nuclei in weanlingrats. Offspring of control (CO) rat dams cross-fostered to GDrat dams (CO-GD) developed early postnatal growth delay. Ond 21 of life, CO-GD rats showed structural and functional hypothalamic"malprogramming." The ARC of CO-GD rats showed increased immunopositivityof both NPY and AGRP under basal conditions, despite normallevels of glucose, leptin, and insulin. Conversely, CO-GD ratsshowed decreased immunopositivity of both POMC and MSH and decreaseddensity of immunopositive neurons, compared with offspring ofcontrol rat dams cross-fostered to control rat dams. No morphometricalterations were found in the VMN, whereas CO-GD rats showedan increased total number of neurons in the PVN. In summary,neonatal exposure to maternal diabetes through the intake ofdam’s milk in rats leads to a complex malprogramming ofhypothalamic orexigenic and anorexigenic circuits that are criticallyinvolved in the lifelong regulation of food intake, body weight,and metabolism.

KEY WORDS: • gestational diabetes • breastfeeding • nutritional programming • hypothalamus • regulation of food intake and body weight

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Nutritional Neurosciences

Cross-Fostering to Diabetic Rat Dams Affects Early Development of Mediobasal Hypothalamic Nuclei Regulating Food Intake, Body Weight, and Metabolism1

Cross-Fostering to Diabetic Rat Dams Affects Early Development of Mediobasal Hypothalamic Nuclei Regulating Food Intake, Body Weight, and Metabolism¹