A uroguanylin-GUCY2C endocrine axis regulates feeding in mice
Michael A. Valentino, … , Stephanie Schulz, Scott A. Waldman
Michael A. Valentino, … , Stephanie Schulz, Scott A. Waldman
Published August 25, 2011
Citation Information: J Clin Invest. 2011;121(9):3578-3588. https://doi.org/10.1172/JCI57925.
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Research Article

A uroguanylin-GUCY2C endocrine axis regulates feeding in mice

Abstract

Intestinal enteroendocrine cells are critical to central regulation of caloric consumption, since they activate hypothalamic circuits that decrease appetite and thereby restrict meal size by secreting hormones in response to nutrients in the gut. Although guanylyl cyclase and downstream cGMP are essential regulators of centrally regulated feeding behavior in invertebrates, the role of this primordial signaling mechanism in mammalian appetite regulation has eluded definition. In intestinal epithelial cells, guanylyl cyclase 2C (GUCY2C) is a transmembrane receptor that makes cGMP in response to the paracrine hormones guanylin and uroguanylin, which regulate epithelial cell dynamics along the crypt-villus axis. Here, we show that silencing of GUCY2C in mice disrupts satiation, resulting in hyperphagia and subsequent obesity and metabolic syndrome. This defined an appetite-regulating uroguanylin-GUCY2C endocrine axis, which we confirmed by showing that nutrient intake induces intestinal prouroguanylin secretion into the circulation. The prohormone signal is selectively decoded in the hypothalamus by proteolytic liberation of uroguanylin, inducing GUCY2C signaling and consequent activation of downstream anorexigenic pathways. Thus, evolutionary diversification of primitive guanylyl cyclase signaling pathways allows GUCY2C to coordinate endocrine regulation of central food acquisition pathways with paracrine control of intestinal homeostasis. Moreover, the uroguanylin-GUCY2C endocrine axis may provide a therapeutic target to control appetite, obesity, and metabolic syndrome.

Authors

Michael A. Valentino, Jieru E. Lin, Adam E. Snook, Peng Li, Gilbert W. Kim, Glen Marszalowicz, Michael S. Magee, Terry Hyslop, Stephanie Schulz, Scott A. Waldman

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Figure 7

Food intake stimulates intestinal prouroguanylin secretion inducing central satiation.

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Food intake stimulates intestinal prouroguanylin secretion inducing cent...
(A) Cumulative food intake of fasted Gucy2c+/+ mice injected i.v. with TJU (10 μg), prouroguanylin (10 μg), or proguanylin (10 μg) and refed HCD (n = 10 per group). (B) cGMP production of CT26-GUCY2C cells treated with PBS, prouroguanylin (5 μg), proguanylin (5 μg), hypothalamic protein (350 μg), or combinations for 30 minutes (black bars, pH 5.5; red bars, pH 8.0; dark red bar, combined data of pH 5.5/8.0) (n = 4–10 per group). (C) Food intake and serum prouroguanylin concentrations of fasted Gucy2c+/+ mice refed HCD (n = 7). (D) Serum prouroguanylin concentrations of human volunteers fasted for 12 hours and fed a standardized test meal (Supplemental Table 2) (P < 0.01, mean postprandial [15–150 minutes] level versus fasting [0 minutes] level) (n = 9). (E) Food intake of fasted Gucy2c+/+ mice injected with PBS (control) or prouroguanylin antiserum (100 μl, 1:50 dilution) during the 1- to 2-hour interval after refeeding (n = 10 per group). All data are mean ± SEM. *P < 0.05, **P < 0.01, ***P < 0.001.