Peripheral urocortin inhibits gastric emptying and food intake in mice: differential role of CRF receptor 2

Abstract

Intraperitoneal urocortin inhibits gastric emptying and food intake in mice. We investigated corticotropin-releasing factor receptor (CRF-R) subtypes involved in intraperitoneal urocortin actions using selective CRF-R antagonists. Gastric emptying was measured 2 h after a chow meal, and food intake was measured hourly after an 18-h fast in mice. Urocortin (3 microg/kg ip) inhibited gastric emptying by 88%. The CRF-R1/CRF-R2 antagonist astressin B (30 microg/kg ip) and the selective CRF-R2 antagonist antisauvagine-30 (100 microg/kg ip) completely antagonized urocortin action, whereas the selective CRF-R1 antagonist CP-154,526 (10 mg/kg ip) had no effect. Urocortin (1-10 microg/kg ip) dose dependently decreased the 2-h cumulative food intake by 30-62%. Urocortin (3 microg/kg)-induced hypophagia was completely antagonized by astressin B (30 microg/kg ip) and partially (35 and 31%) by antisauvagine-30 (100 or 200 microg/kg ip). The CRF-R1 antagonists CP-154,526 or DMP904 (10 mg/kg ip) had no effect. Capsaicin did not alter urocortin-inhibitory actions while blocking the satiety effect of intraperitoneal CCK. These data indicate that intraperitoneal urocortin-induced decrease in feeding is only partly mediated by CRF-R2, whereas urocortin action to delay gastric emptying of a meal involves primarily CRF-R2.