MOLECULAR DAMAGE TO RAT LIVER MOTOCHONDRIAL H+-ATPASE DURING COLD PRESERVATION WITH UW SOLUTION

Abstract

Deterioration of rat liver mitochondrial function during cold preservation with UW solution was studied. Mitochondria were isolated from control liver (0-hr preservation), 24-hr preserved liver, and 48-hr preserved liver with UW solution at 4 degrees C. Respiration assay revealed that phosphorylation was damaged more rapidly than oxidation. Inside-out submitochondrial particles prepared from each sample by sonication in the presence of EDTA were subjected to ATPase assay. ATP hydrolyzing activity of H(+)-ATPase (ATP synthase), which plays a key role in phosphorylation in mitochondria, decreased markedly to 58% after 24-hr preservation. After 48-hr preservation, reduction to 40% of control was noted. When an intrinsic H(+)-ATPase inhibitor protein was removed from ESMP by Sephadex gel filtration, decrease of the ATPase activity was enhanced down to 49% and 29% of the control for 24-hr and 48-hr preserved liver, respectively. Molecular damage of the enzyme was confirmed by SDS-PAGE. Alpha subunit of the enzyme decreased time-dependently, and H(+)-ATPase molecules that lost alpha subunit seemed to lose their catalytic activity. Although the cause of the molecular damage of H(+)-ATPase is not clear yet, some mitochondrial protease(s) may be involved.