Affiliation:
1. Department of Medicine, Rush Medical College, Chicago 60612.
Abstract
The influence of octanoate on O2 consumption, tricarboxylic acid (TCA) cycle intermediates, and high-energy phosphates was examined in intact resting porcine carotid artery to investigate the role of fatty acid in energy metabolism and its integration with glucose metabolism in vascular smooth muscle. Incubation of resting arteries with octanoate (0.5 mM), which was previously shown to inhibit aerobic glycolysis (6), inhibited lactate production by 64% and increased O2 consumption by 30%. The increase in O2 consumption with octanoate was approximately equal to that calculated to account for the ATP production lost by inhibition of aerobic lactate production by octanoate. In glucose-free medium, the level of high-energy phosphate was reduced but was restored when octanoate was included in the incubation medium. This was associated with an increase in O2 consumption. These results suggest that the energy requirements of resting carotid artery can be largely met by the oxidative metabolism of fatty acid. Octanoate induced anaplerosis of the TCA cycle, as indicated by a 70% increase in the level of citrate. Extracellular glucose was necessary for octanoate-induced anaplerosis, probably by providing the extra carbon via pyruvate carboxylation, whereas a coupled transamination involving aspartate was a less important anaplerotic mechanism.
Publisher
American Physiological Society
Subject
Physiology (medical),Cardiology and Cardiovascular Medicine,Physiology
Cited by
35 articles.
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