LIPID-PEROXIDATION AND ELECTROGENIC ION-TRANSPORT IN THE JEJUNUM OF THE VITAMIN-E-DEFICIENT RAT

Increased concentrations of reactive oxygen species in children with d epleted antioxidant defences have been implicated in a cycle of malnut rition, malabsorption, and infection leading to protracted diarrhoea. A rat model of chronic vitamin E deficiency has been used to study the effects of antioxidant depletion on jejunal structure and function in vitro. Basal intestinal short circuit current (Isc), a measure of net electrogenic ion movement across the intestinal eqithelium, was great er in chronically vitamin E deficient jejuna than controls, as was the electrogenic secretory response to aminophylline and Escherichia coli STa but not to bethanecol. The galactose stimulated current was also greater in vitamin E deficient jejuna. Indices of lipid peroxidation ( concentrations of thiobarbituric acid reactive substances and malondia ldehyde) were increased in the vitamin E deficient small bowel. Small intestinal brush border membranes from vitamin E deficient animals dis played changes in both static and dynamic components of membrane fluid ity measured by steady state fluorescence polarography. The results of these studies support the hypothesis that oxidative stress in subject s with compromised antioxidant defences results in small intestinal hy persecretion, which could predispose to or perpetuate protracted diarr hoea.