Effect of thyroid deficiency on oxidative phosphorylation in rat liver, kidney, and brain mitochondria

Abstract

The effect of thyroidectomy on oxidative metabolism of rat liver, kidney, and brain mitochondria has been examined. The respiration in liver, kidney, and brain mitochondria was affected differentially after thyroidectomy, the common effect in all the tissues being the impairment in state 3 as well as state 4 rates of succinate oxidation. Thyroidectomy did not have any effect on ADP/O ratios; however, compared to normal, respiratory control indexes were, in general, somewhat higher. Thyroidectomy also did not alter total ATPase activity of liver, kidney, and brain mitochondria, although the basal ATPase activity had decreased significantly under these conditions. The cytochrome content of the mitochondria also showed tissue-specific changes after thyroidectomy; however, no significant changes in the absorption characteristics of the cytochromes were seen. The succinate and glutamate dehydrogenase activities of mitochondria from liver, kidney, and brain were not affected by thyroidectomy, thereby ruling out the possibility that the decrease in substrate oxidation may be due to alterations in the primary dehydrogenase levels. It is concluded that thyroid hormone(s) may have a tissue-specific role in regulating the metabolic functions of mitochondria.