CO2 formed from endogenous and exogenous substrates in perfused rat heart

Abstract

Measurements of total CO₂ and C¹⁴O₂ production by the isolated, perfused rat heart showed the extent of respiration dependent on endogenous and exogenous substrates. Glucose, acetate, and palmitate, but not glutamic acid or leucine, contributed appreciably to respiration. With optimal glucose and palmitate oxidation endogenous substrates accounted for over half of CO₂. Endogenous substrates were adequate to maintain respiration for 30 but not for 60 min. Dependence of respiration on lipids was suggested by the similarity of metabolic CO₂ in glycogen-depleted hearts perfused with no added substrate, with palmitate-1-C¹⁴, and with glucose-U-C¹⁴ plus palmitate. A reduction in C¹⁴O₂ and in total CO₂ formation with glucose-U-C¹⁴ in the presence of palmitate provided further support for the preferential oxidation of fatty acids. The Vo₂, estimated from the total and C¹⁴O₂, and an assumed respiratory quotient, indicated adequate oxygenation of the heart in the closed recirculated system. The necessity of maintaining an adequate coronary artery flow rate was indicated by an altered pattern of cell metabolism in hearts with reduced coronary perfusion.