An immunocytochemical study of regeneration of gastric epithelia in rat experimental ulcers.

We experimentally observed the process of regeneration of gastric mucosal cells in ulcers induced by surgical removal of the fundic mucosa of rats. The techniques utilized were immunocytochemistry, laser confocal microscopy, and transmission electron microscopy (TEM). Routine TEM and PAS reaction were used for parietal cells, chief cells, and mucous cells. As markers of parietal cells, H+-K+ ATPase, Na+-K+ ATPase, carbonic anhydrase, and aquaporin 4 (AQP4) were used, and for chief cells pepsinogen was used. Healing process of mucosal defect was as follows. On day 2 after the operation, the single-layered regenerating epithelium (RE) originating from the marginal epithelium of the ulcer extended over the granulation tissue of the ulcer base towards the center. Regenerating glands (RGs) appeared in the ulcer margin. The cells appearing first in the RE were undifferentiated cells that had a high nucleus: cytoplasm ratio and abundant free ribosomes. On day 5, the ulcer was almost filled with RGs. Most cells stained positive for PAS reaction. A few immature parietal cells stained weakly with H+-K+ ATPase, Na+-K+ ATPase, carbonic anhydrase, and aquaporin-4 antibodies, and a few immature chief cells stained weakly with pepsinogen antibody were also observed on day 5. On day 10, the ulcer was filled with RGs. The RGs in the periphery of the ulcer stained positive for markers of mature parietal cells and chief cells, whereas the center of the ulcer was composed of immature parietal cells and chief cells. By day 25, the mucosal defect was filled with normal gastric glands formed by maturation of the RGs. The undifferentiated cells that first appeared in the ulcer margin seem to differentiate to special functioning cells of the stomach 5-10 days after ulcer formation.