The PG pathway is also involved in luminal bacterial sensing in t

The PG pathway is also involved in luminal bacterial sensing in the duodenum via activation of pattern recognition receptors, including SAR245409 Toll-like receptors and nucleotide-binding oligomerization domain 2. The presence of acute mucosal responses to luminal bacteria suggests that the duodenum is important for host defenses and may reduce bacterial loading to the hindgut using H2O2, complementing gastric acidity

and anti-bacterial bile acids. Prostaglandins (PGs) play a key role in mucosal defense, essential for maintaining the integrity of gastrointestinal (GI) tract. Nonsteroidal anti-inflammatory drugs (NSAIDs), through PG synthesis inhibition, injure the GI mucosa. In this review, we will discuss

how foregut chemosensors activate signaling pathways that enhance mucosal defense mechanisms via PG-related mechanisms. The duodenal mucosa, regularly exposed to gastric acid, and endogenous and exogenous chemicals including nutrients, has a unique luminal chemosensing capacity that enables the mucosa to sense luminal chemicals followed by rapid mucosal responses that protect the mucosa from injury, releasing mediators and hormones that have local and systemic effects.[1] The duodenal mucosa possesses three chemosensing modes (Fig. 1): (i) Luminal chemicals traverse epithelial cells, activating chemosensors expressed on subepithelial Wnt drug afferent nerves (Fig. 1a). This pattern includes luminal CO2/H+ sensing and spice sensing. Luminal CO2 rather than H+ traverses apical membrane of villous cells and acidifies the cytoplasm due to carbonic anhydrase activity, followed by H+ extrusion through basolateral Na+/H+ exchanger-1, which activates transient receptor potential vanilloid-1 expressed on capsaicin-sensitive afferent nerves.[2, 3] Luminal capsaicin or the transient receptor potential (TRP) channel ankyrin-1 agonist also shares this pathway.[4, 5] (ii) Luminal chemicals activate apical chemoreceptors, followed by mediator release

from epithelial cells (Fig. 1b). Examples include luminal selleck chemical ATP-P2Y signaling or acid-induced PG release, stimulating protective HCO3− and mucus secretion.[6, 7] (iii) Luminal chemicals activate G protein-coupled receptors expressed on enteroendocrine cells, followed by mediator or hormone release (Fig. 1c). Examples include luminal nutrient sensing by enteroendocrine cells. We have reported that luminal umami substances such as l-glutamate and 5′-inosine monophosphate activate taste receptors expressed on enteroendocrine L cells, which release the incretin glucagon-like peptide-1 and intestinotrophic glucagon-like peptide-2, the latter stimulating duodenal HCO3− secretion.

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