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Department of Pediatrics (B.M.K.) and Department of Internal Medicine (B.M.K., A.R.Z.), McDermott Center for Human Growth and Development (B.M.K., T.G., K.P.T., Y.W., A.R.Z.), The University of Texas Southwestern Medical School, Dallas, Texas 75390-8591
Address all correspondence and requests for reprints to: Bassil M. Kublaoui, Department of Pediatrics, Department of Internal Medicine, McDermott Center for Human Growth and Development, The University of Texas Southwestern Medical School, 5323 Harry Hines Boulevard, Dallas, Texas 75390-8591. E-mail: bassil.kublaoui{at}utsouthwestern.edu or andrew.zinn{at}utsouthwestern.edu.
Single-minded 1 (Sim1) encodes a transcription factor essential for formation of the hypothalamic paraventricular nucleus (PVN). Sim1 haploinsufficiency is associated with hyperphagic obesity and increased linear growth in humans and mice, similar to the phenotype of melanocortin 4 receptor (Mc4r) mutations. PVN neurons in Sim1+/– mice are hyporesponsive to the melanocortin agonist melanotan II. PVN neuropeptides oxytocin (Oxt), TRH and CRH inhibit feeding when administered centrally. Consequently, we hypothesized that altered PVN neuropeptide expression mediates the hyperphagia of Sim1+/– mice. To test this hypothesis, we measured hypothalamic expression of PVN neuropeptides in Sim1+/– and wild-type mice. Oxt mRNA and peptide were decreased by 80% in Sim1+/– mice, whereas TRH, CRH, arginine vasopressin (Avp), and somatostatin mRNAs were decreased by 20–40%. Sim1+/– mice also showed abnormal regulation of Oxt but not CRH mRNA in response to feeding state. A selective Mc4r agonist activated PVN Oxt neurons in wild-type mice, supporting involvement of these neurons in melanocortin feeding circuits. To test whether Oxt itself regulates feeding, we measured the effects of central administration of an Oxt receptor antagonist or repeated doses of Oxt on food intake of Sim1+/– and wild-type mice. Sim1+/– mice were hypersensitive to the orexigenic effect of the Oxt receptor antagonist. Oxt decreased the food intake and weight gain of Sim1+/– mice at a dose that did not affect wild-type mice. Our results support the importance of Oxt neurons in feeding regulation and suggest that reduced Oxt neuropeptide is one mechanism mediating the hyperphagic obesity of Sim1+/– mice.
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