Surface Epithelial Cell Damage Induced by Restraint and Water-Immersion Stress in Rats Effects of 16, 16-Dimethyl Prostaglandin E₂ on Stress-Induced Gastric Lesions

Abstract

The time-course of gastric mucosal surface epithelial cell damage and macroscopically visible lesions in response to restraint and water-immersion stress (22°C) in rats was examined, and the effects on it of 16, 16-dimethyl prostaglandin E₂ (dmPGE₂) were compared with those of papaverine, timoprazole and atropine. The stress produced surface epithelial cell damage prior to visible lesion, the former increasing in severity with time and reaching a plateau 60 min later, by which time exfoliation of surface epithelial cells was observable along the mucosal folds. In contrast, macroscopically visible lesions appeared 2 hr after stress, and severity continued to increase with time. Pretreatment injections (s.c.) of dmPGE₂ (3, 30 μg/kg), papaverine (100 mg/kg) and atropine (1 mg/kg) protected the surface cells against stress (1 hr)-induced damage, and inhibited visible lesion formation after 4 hr stress. Timoprazole (30 mg/kg, s.c.) did not protect the surface cells, but did markedly inhibit visible lesion formation. dmPGE₂, papaverine and atropine, but not timoprazole, inhibited stress-induced increases in gastric contractions. dmPGE₂, timoprazole and atropine, but not papaverine, inhibited acid secretion in stress-conditions. These results indicated that stress induced damage to the gastric mucosa within 1 hr due to increased gastric contractions, and the surface epithelial cell damage developed into macroscopically visible lesions in the presence of acid, and that dmPGE₂ protected the surface epithelium against stress-induced damage probably by inhibiting gastric contractions.