Interrelationships between energy metabolism and thyroid hormone metabolism during starvation in the rat

Abstract

Thyroid hormone metabolism and plasma concentrations of TSH were studied after short-term hypocaloric refeeding of rats starved for 2–6 days. Carbohydrate and protein (10 kcal) refeeding after 4 days of starvation resulted in a rapid increase in serum T₃ (P4. Plasma TSH did not change. These findings were not due to changes in the metabolic clearance rates or in thyroid hormone binding proteins, as the disappearance of injected labelled T₃ and T₄, and the free fractions of T₃ and T₄, were unchanged. Increased thyroidal secretion, and for T₃, increased peripheral conversion from T₄ were therefore responsible for these changes. Fat refeeding had no immediate effect on plasma T₄, T₃ or TSH. After 6 days of starvation, refeeding of any nutrient was ineffective in altering the plasma concentrations of T₃ and T₄. The intraperitoneal administration of nicotinamide (100 mg/100 g body weight) to starving animals caused an increase in blood glucose and a decrease in blood betahydroxybutyrate similar to that which followed carbohydrate refeeding; T₃, however, did not increase. In spite of producing a profile of substrates in the serum similar to that found following carbohydrate refeeding, nicotinamide administration had no effect on the blood lactate/ pyruvate ratio which was increased following carbohydrate refeeding. Therefore, the cytoplasmic redox state, as reflected by the lactate/pyruvate ratio, may be closely related to the control of peripheral thyroid hormone metabolism.