Title:Duodenal Luminal Chemosensing; Acid, ATP, and Nutrients
Volume: 20
Issue: 16
Author(s): Yasutada Akiba and Jonathan D. Kaunitz
Affiliation:
Keywords:
Luminal nutrient, G-protein coupled receptors and gut hormone release.
Abstract: Intestinal chemosensing of endogenous and exogenous luminal compounds, including acid, CO2, bile acids and nutrients is an
emerging area of gastrointestinal research, since gut hormones, particularly including incretins and glucagon-like peptide-2 (GLP-2) are
released in response to luminal nutrients. Identification of luminal chemosensors such as nutrient-ligand G-protein coupled receptors
(GPCRs) in enteroendocrine cells has linked luminal compounds to the corresponding gut hormone release. Mucosal chemical sensors
are necessary to exert physiological responses such as secretion, digestion, absorption, and motility. We have been studying the mechanisms
by which luminal compounds are sensed via mucosal acid sensors and GPCRs, which trigger mucosal defense mechanisms. In addition
to luminal acid/CO2 sensing in the duodenum, recent studies also show that compounds present post-prandially such as amino acids,
bile acids and fatty acids, enhance duodenal mucosal defenses, with digestion following the initial gastric processing. These studies
may form the basis for therapies in which luminal nutrients release gut hormones that affect the mucosal protection, appetite, satiety, and
systemic metabolisms.
