Glucocorticoids exacerbate obesity and insulin resistance in neuron-specific proopiomelanocortin-deficient mice
James L. Smart, Virginie Tolle, Malcolm J. Low
James L. Smart, Virginie Tolle, Malcolm J. Low
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Research Article Endocrinology

Glucocorticoids exacerbate obesity and insulin resistance in neuron-specific proopiomelanocortin-deficient mice

Abstract

Null mutations of the proopiomelanocortin gene (Pomc–/–) cause obesity in humans and rodents, but the contributions of central versus pituitary POMC deficiency are not fully established. To elucidate these roles, we introduced a POMC transgene (Tg) that selectively restored peripheral melanocortin and corticosterone secretion in Pomc–/– mice. Rather than improving energy balance, the genetic replacement of pituitary POMC in Pomc–/–Tg+ mice aggravated their metabolic syndrome with increased caloric intake and feed efficiency, reduced oxygen consumption, increased subcutaneous, visceral, and hepatic fat, and severe insulin resistance. Pair-feeding of Pomc–/–Tg+ mice to the daily intake of lean controls normalized their rate of weight gain but did not abolish obesity, indicating that hyperphagia is a major but not sole determinant of the phenotype. Replacement of corticosterone in the drinking water of Pomc–/– mice recapitulated the hyperphagia, excess weight gain and fat accumulation, and hyperleptinemia characteristic of genetically rescued Pomc–/–Tg+ mice. These data demonstrate that CNS POMC peptides play a critical role in energy homeostasis that is not substituted by peripheral POMC. Restoration of pituitary POMC expression to create a de facto neuronal POMC deficiency exacerbated the development of obesity, largely via glucocorticoid modulation of appetite, metabolism, and energy partitioning.

Authors

James L. Smart, Virginie Tolle, Malcolm J. Low

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Figure 6

Growth curves, fat mass, and plasma leptin levels of individually housed Pomc+/+Tg+, Pomc–/–, and Pomc–/–Tg+ mice from ages 5 to 15 weeks.

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Growth curves, fat mass, and plasma leptin levels of individually housed...
(A) The effect on body weight of pair-feeding (PF) of Pomc–/–Tg+ mice to the daily food intake of Pomc+/+Tg+ mice starting at age 5 weeks (n = 5–11). Repeated-measures ANOVAs over the 10-week period showed a main effect of group for males (F18,117 = 21.5, P < 0.0001) and females (F18,144 = 24.6, P < 0.0001). One-factor ANOVAs showed that Pomc–/–Tg+ pair-fed mice differed from Pomc–/–Tg+ mice fed ad libitum and Pomc+/+Tg+ mice fed ad libitum (P < 0.001); Pomc–/– mice fed ad libitum also differed from Pomc+/+Tg+ mice fed ad libitum and Pomc–/–Tg+ mice fed ad libitum (P < 0.001) but not from Pomc–/–Tg+ pair-fed mice. (B) The effects of pair-feeding of Pomc–/–Tg+ mice on accumulation of fat mass. The combined weight of 4 white fat pads (renal, visceral, gonadal, and inguinal) was different among groups in 15- to 20-week-old male (F3,17 = 50.3, P < 0.0001) and female (F3,23 = 35.9, P < 0.0001) mice. *P < 0.05, **P < 0.001, and ***P < 0.0001 compared with Pomc+/+Tg+; #P < 0.0001 compared with Pomc–/–Tg+. (C and D) The effect of pair-feeding of Pomc–/–Tg+ mice on plasma leptin levels. Data are the means and scattergrams of all individual leptin levels (n = 9–19) obtained after a 16-hour overnight fast in 9-week-old (C) and ad libitum–fed 15- to 20-week-old (D) mice of both sexes.