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Please use this identifier to cite or link to this item: http://hdl.handle.net/1993/4294

Title: Nutritional regulation of central fat mass and obesity-associated (FTO) expression, and its association with the central melanocortin signaling in the regulation of energy homeostasis
Authors: Poritsanos, Nicole Joanna
Supervisor: Mizuno, Tooru (Physiology)
Examining Committee: Dodd, Janice (Physiology) Nyomba, Gregoire (Physiology) Fry, Mark (Biological Sciences) Belsham, Denise (Physiology, University of Toronto)
Graduation Date: February 2011
Keywords: Intracerebroventricular
SHU9119
MTII
ob/ob mice
Fto
glucose sensing
melanocortin signaling
AgRP
POMC
de novo lipogenesis
fatty liver
fasting
Hepatic steatosis
Energy homeostasis
Metabolism
Leptin
Insulin
intraperitoneal
Issue Date: 22-Nov-2010
Citation: Poritsanos, NJ (2010). Relationship between blood glucose levels and hepatic Fto mRNA expression in mice. Biochem Biophys Res Commun. 400(4):713-7. Epub 2010 Sep 9. PubMed PMID: 20816934.
Poritsanos, NJ (2008). Regulation of hepatic PPARgamma2 and lipogenic gene expression by melanocortin. Biochem Biophys Res Commun. 376(2):384-8. Epub 2008 Sep 18. PubMed PMID: 18789887.
Abstract: The central nervous system (CNS) melanocortin signaling pathway plays a critical role in the regulation of metabolism. However, the regulatory effects of CNS melanocortin signaling on hepatic lipid metabolism and fatty liver disease have not been well established. Although the activity of the CNS melanocortin system is regulated by metabolic signals, the mechanism for this regulation is not fully understood. Variants of the FTO (fat mass and obesity-associated) gene are associated with obesity and FTO is expressed in the hypothalamic neurons including proopiomelanocortin (POMC) neurons. Therefore, it is hypothesized that hypothalamic FTO plays a role in the regulation of metabolism by mediating the effect of metabolic signals on hypothalamic melanocortinergic neurons, and that impairments in this regulation may cause metabolic impairments including obesity and fatty liver disease. Intracerebroventricular (i.c.v.) treatment with SHU9119, a melanocortin antagonist, increased hepatic lipid accumulation and the expression of genes encoding lipogenic enzymes in lean mice. Conversely, i.c.v. treatment with MTII, a melanocortin agonist, reduced the expression of hepatic lipogenic genes in association with reduction in body weight in ob/ob mice, a mouse model of fatty liver disease. Immunohistochemical analysis demonstrated that Fto is co-expressed in both POMC and agouti-related protein (AgRP) neurons in the mouse hypothalamus. Fto mRNA and protein expression was reduced by fasting and increased by glucose treatment in nutritionally important hypothalamic nuclei. Fasting-induced reduction in hypothalamic Fto expression was observed in both lean wild-type and obese ob/ob mice, while the stimulatory effect of glucose on hypothalamic Fto expression was absent in ob/ob mice. These findings support the hypothesis that central melanocortin signaling regulates hepatic lipid metabolism in part by regulating de novo lipogenesis. Impairments in the central melanocortin signaling lead to the development of hepatic steatosis, while enhanced melanocortin signaling may be beneficial in reversing abnormal hepatic lipid metabolism in fatty liver disease (Poritsanos et al., 2008). These findings also support the hypothesis that Fto is expressed in the hypothalamic melanocortinergic neurons and is regulated by metabolic signals involving changes in CNS glucose availability and/or glucose action. Impairments in this regulation may cause metabolic impairments including obesity and fatty liver disease.
URI: http://hdl.handle.net/1993/4294
Appears in Collection(s):FGS - Electronic Theses & Dissertations (Public)

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