Effects of chronic steroid ingestion on gastroduodenal epithelial renewal in the rat.

Abstract

ABSTRACTSteroids may predispose to peptic ulcer formation. One possible mechanism could be via alteration of normal epithelial renewal. to study the effects of steroids on gastroduodenal epithelial renewal, rats received hydrocortisone sodium succinate in the drinking water to deliver a dose of 10 mg/kg per day. Control rats received plain water. After 4 weeks, the rats were injected intraperitoneally with tritiated thymidine, to label proliferating cells, and killed 1 hr later, to determine measurements of epithelial proliferation, or 24 hr later to determine measurements of epithelial migration. Sections of fundus, antrum and post‐pyloric duodenum were processed for light microscopy and autoradiography. In fundic and antral mucosa, steroid treatment resulted in a reduction in the number of labelled cells and in the size of the proliferative zone and, in the fundus, the mucosal thickness was reduced. In the duodenum, although the number of labelled cells remained unchanged, steroid treatment did decrease the number of cells in the proliferative zone; further, crypt depth was reduced in steroid‐treated rats, but villous height was increased, resulting in an overall increase in mucosal thickness. Epithelial migration was also depressed in fundic and antral mucosa, but appeared to be accelerated in the duodenum of steroid‐treated rats. These studies indicate that although, in the duodenum, the effects of steroids on epithelial renewal are complex, in the stomach chronic steroid ingestion depresses epithelial renewal both in fundic and antral mucosa. This inhibition of epithelial renewal in the stomach may contribute to the ulcerogenic action of steroids by either rendering the mucosa susceptible to the effects of other ulcerogens or by retarding the healing of existing mucosal lesions.