Sympathetic activity controls fat-induced oleoylethanolamide signaling in small intestine

J Fu, NV DiPatrizio, A Guijarro… - Journal of …, 2011 - Soc Neuroscience
J Fu, NV DiPatrizio, A Guijarro, GJ Schwartz, X Li, S Gaetani, G Astarita, D Piomelli
Journal of Neuroscience, 2011Soc Neuroscience
Ingestion of dietary fat stimulates production of the small-intestinal satiety factors
oleoylethanolamide (OEA) and N-palmitoyl-phosphatidylethanolamine (NPPE), which
reduce food intake through a combination of local (OEA) and systemic (NPPE) actions.
Previous studies have shown that sympathetic innervation of the gut is necessary for
duodenal infusions of fat to induce satiety, suggesting that sympathetic activity may engage
small-intestinal satiety signals such as OEA and NPPE. In the present study, we show that …
Ingestion of dietary fat stimulates production of the small-intestinal satiety factors oleoylethanolamide (OEA) and N-palmitoyl-phosphatidylethanolamine (NPPE), which reduce food intake through a combination of local (OEA) and systemic (NPPE) actions. Previous studies have shown that sympathetic innervation of the gut is necessary for duodenal infusions of fat to induce satiety, suggesting that sympathetic activity may engage small-intestinal satiety signals such as OEA and NPPE. In the present study, we show that surgical resection of the sympathetic celiac-superior mesenteric ganglion complex, which sends projections to the upper gut, abolishes feeding-induced OEA production in rat small-intestinal cells. These effects are accounted for by suppression of OEA biosynthesis, and are mimicked by administration of the selective β2-adrenergic receptor antagonist ICI-118,551. We further show that sympathetic ganglionectomy or pharmacological blockade of β2-adrenergic receptors prevents NPPE release into the circulation. In addition, sympathetic ganglionectomy increases meal frequency and lowers satiety ratio, and these effects are corrected by pharmacological administration of OEA. The results suggest that sympathetic activity controls fat-induced satiety by enabling the coordinated production of local (OEA) and systemic (NPPE) satiety signals in the small intestine.
Soc Neuroscience