Influence of Nutritional Status and Leptin Action on Agrp and Pomc Co-Expression in Hypothalamic Melanocortin System Neurons.

The control of energy balance relies on the counterbalancing release of neuropeptides encoded by the pro-opiomelanocortin (Pomc) and agouti-related protein (Agrp) genes, expressed by 2 distinct neuronal populations of the arcuate (ARC) nucleus of the hypothalamus. Although largely segregated, single-cell resolution techniques demonstrate some degree of co-expression. We studied whether challenges to the control of energy balance influence the degree of Agrp and Pomc co-expression in ARC melanocortin neurons. We used fluorescence-activated cell sorting followed by quantitative polymerase chain reaction and fluorescent in situ hybridization to measure Pomc and Agrp gene co-expression in POMC or AGRP neurons in response to (1) acute or chronic calorie restriction, or (2) obesity due to loss of leptin receptor expression or chronic high-fat diet feeding in male mice. Melanocortin ARC neurons of fed mice exhibited low, yet detectable, levels of Pomc and Agrp gene co-expression. Calorie restriction significantly increased and decreased total Agrp and Pomc expression, respectively, and reduced the expression of Pomc relative to Agrp in AGRP neurons. Leptin-deficient db/db mice showed increased total Agrp levels and decreased Pomc expression, as well as significantly increased Agrp expression relative to Pomc in POMC neurons. Expression or co-expression levels did not differ between diet-induced obese mice and lean controls. Changes in Agrp and Pomc co-expression within POMC and AGRP neurons following chronic calorie restriction or in db/db mice suggest an additional mechanism to further suppress the melanocortin signaling during conditions of severely reduced leptin action. © 2021 S. Karger AG, Basel.

Citation

Rachel Morano, Emily Yates, Rachel Barnes, Eric S Wohleb, Diego Perez-Tilve. Influence of Nutritional Status and Leptin Action on Agrp and Pomc Co-Expression in Hypothalamic Melanocortin System Neurons. Neuroendocrinology. 2022;112(3):287-297

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PMID: 33906196

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