COLD-RESTRAINT-INDUCED AND TRH-INDUCED ULCER MODELS DEMONSTRATE DIFFERENT BIOCHEMICAL AND MORPHOLOGICAL MANIFESTATIONS IN GASTRIC AND HEPATIC TISSUES IN RATS ROLE OF CALCITONIN

In the present study, two ulcer models-central thyrotropin-releasing h ormone (TRH) injection and cold-restraint stress (CRS) application-wer e compared. Animals were treated either with salmon calcitonin (sCT) o r saline intracerebroventricularly (ICV) before CRS exposure or ICV TR H injection. In both models, besides ultrastructural properties, ulcer indexes and lipid peroxidation (LP) and glutathione (GSH) levels of l iver and stomach were determined, While TRH treatment did not affect G SH and LP levels of the stomach and led to a slight decrease in hepati c GSH levels, CRS induced a marked reduction in gastric and hepatic GS H and an increase in LP levels of both tissues, sCT pretreatment preve nted the reduction of gastric and hepatic GSH levels and morphological damage of both tissues in the CRS group, However, the same treatment did not prevent the TRH-induced reduction of hepatic GSH levels and, i nterestingly, it worsened the ultrastructural disturbances in the live r. Although sCT prevented macroscopic ulcer formation in both models, it did not totally reverse the microscopic effects of TRH.