Background
Patients with irritable bowel syndrome (IBS) may experience postprandial symptom exacerbation. Nutrients stimulate intestinal release of glucagon‐like peptide 1 (GLP‐1), an incretin hormone with known gastrointestinal effects. However, prior to the postprandial rise in GLP‐1, levels of the hunger hormone, ghrelin, peak. The aims of this study were to determine if ghrelin sensitizes colonic intrinsic and extrinsic neurons to the stimulatory actions of a GLP‐1 receptor agonist, and if this differs in a rat model of IBS.
Methods
Calcium imaging of enteric neurons was compared between Sprague Dawley and Wistar Kyoto rats. Colonic contractile activity and vagal nerve recordings were also compared between strains.
Key Results
Circulating GLP‐1 concentrations differ between IBS subtypes. Mechanistically, we have provided evidence that calcium responses evoked by exendin‐4, a GLP‐1 receptor agonist, are potentiated by a ghrelin receptor (GHSR‐1) agonist, in both submucosal and myenteric neurons. Although basal patterns of colonic contractility varied between Sprague Dawley and Wister Kyoto rats, the capacity of exendin‐4 to alter smooth muscle function was modified by a GHSR‐1 agonist in both strains. Gut‐brain signaling via GLP‐1–mediated activation of vagal afferents was also potentiated by the GHSR‐1 agonist.
Conclusions & Inferences
These findings support a temporal interaction between ghrelin and GLP‐1, where the preprandial peak in ghrelin may temporarily sensitize colonic intrinsic and extrinsic neurons to the neurostimulatory actions of GLP‐1. While the sensitizing effects of the GHSR‐1 agonist were identified in both rat strains, in the rat model of IBS, underlying contractile activity was aberrant.