[PDF][PDF] G-protein-coupled receptors in intestinal chemosensation
F Reimann, G Tolhurst, FM Gribble - Cell metabolism, 2012 - cell.com
F Reimann, G Tolhurst, FM Gribble
Cell metabolism, 2012•cell.comFood intake is detected by the chemical senses of taste and smell and subsequently by
chemosensory cells in the gastrointestinal tract that link the composition of ingested foods to
feedback circuits controlling gut motility/secretion, appetite, and peripheral nutrient disposal.
G-protein-coupled receptors responsive to a range of nutrients and other food components
have been identified, and many are localized to intestinal chemosensory cells, eliciting
hormonal and neuronal signaling to the brain and periphery. This review examines the role …
chemosensory cells in the gastrointestinal tract that link the composition of ingested foods to
feedback circuits controlling gut motility/secretion, appetite, and peripheral nutrient disposal.
G-protein-coupled receptors responsive to a range of nutrients and other food components
have been identified, and many are localized to intestinal chemosensory cells, eliciting
hormonal and neuronal signaling to the brain and periphery. This review examines the role …
Food intake is detected by the chemical senses of taste and smell and subsequently by chemosensory cells in the gastrointestinal tract that link the composition of ingested foods to feedback circuits controlling gut motility/secretion, appetite, and peripheral nutrient disposal. G-protein-coupled receptors responsive to a range of nutrients and other food components have been identified, and many are localized to intestinal chemosensory cells, eliciting hormonal and neuronal signaling to the brain and periphery. This review examines the role of G-protein-coupled receptors as signaling molecules in the gut, with a particular focus on pathways relevant to appetite and glucose homeostasis.
cell.com