[Bioenergetics of liver mitochondria in rats in experimental insulin-dependent diabetes].

Oxidative stress in the course of diabetes mellitus can cause disturbance of lipid membranes of cellular organelles. The study is aimed at the determination of oxidative phosphorylation in mitochondria in rats with experimentally induced acute and chronic insulin-dependent diabetes mellitus (IDDM). IDDM was induced by single dose of streptozotocin (45 mg per kg-1). Insulin Interdep (6 U per kg-1) was administered once a day subcutaneously. The authors investigated glycaemia, cholesterol and triacylglycerol concentrations in the blood and liver. Isolation of mitochondria was succeeded by measurement of oxidative phosphorylation indicators after 8 days (acute IDDM) or after 8 weeks (chronic IDDM) from streptozotocin administration. The authors found out that both acute and chronic IDDM were concommited by hyperglycaemia. The group with acute IDDM yielded an increase in cholesterol and triacyglycerols concentrations in the blood, as well as that of cholesterol in the liver. The group with chronic IDDM yields an increase in cholesterol in the blood. Trialcylglycerols in the liver increased in none of the investigated groups. Liver steatosis did not occur. Indicators of oxidative phosphorylation in the liver mitochondria of rats with acute and with chronic IDDM decreased in contrast to healthy controls from NAD substrates glutamate and pyruvate and also form FAD substrate of succinate. Significant decrease in consumption of oxygen in the 3 state occurred, while in acute IDDM the decrease was more significant than in chronic IDDM. Phosphorylation rate significantly decreased in contrast to controls, but there was no difference between IDDM groups. The investigation results imply that in both acute and chronic IDDM there are decreased effectivity of energetic metabolism in liver mitochondria. (Tab. 5, Ref. 29.).