Source of fat oxidation in exercising dogs
- 31 August 1964
- journal article
- research article
- Published by American Physiological Society in American Journal of Physiology-Legacy Content
- Vol. 207 (3), 583-589
- https://doi.org/10.1152/ajplegacy.1964.207.3.583
Abstract
Dogs with indwelling arterial and venous catheters ran on a treadmill for 30–40 min. Palmitate-1-C14 was infused intravenously. The rate of FFA uptake increased linearly with FFA concentration during rest and exercise. At rest 20– 22% of the FFA uptake was oxidized; during exercise this figure rose to 80–90%. About 50% of the fat-CO2 could be ascribed to immediate oxidation of plasma FFA. The radioactivity and specific activity of the plasma EFA showed no marked change during exercise. When a 3-hr infusion was stopped 5 min before exercise, the radioactivity in the plasma FFA fraction decreased rapidly in the first 10 min of exercise, followed by a very low but constant disappearance rate. The disappearance of radioactivity from the plasma (FFA and EFA combined) during exercise was less than 1% of the C14O2 output. Therefore, it was concluded that the intracellular fat pool plays an important role as an energy source, whereas the plasma EFA did not seem to participate appreciably in the 6-fold elevated metabolism.Keywords
This publication has 18 references indexed in Scilit:
- Incorporation of Infused Palmitic-1-C14 and Linoleic-1-C14 into Plasma Lipid Fractions.Experimental Biology and Medicine, 1961
- Microdetermination of Long-chain Fatty Acids in Plasma and TissuesJournal of Biological Chemistry, 1960
- Phospholipid and triglyceride metabolism of excised rat diaphragm and the role of these lipids in fatty acid uptake and oxidationJournal of Lipid Research, 1960
- THE EFFECT OF EXERCISE ON THE CONCENTRATION AND TURNOVER OF PLASMA NONESTERIFIED FATTY ACIDS*Journal of Clinical Investigation, 1960
- The Endogenous Glycogen of Rat Diaphragm and Its Theoretical Capacity to Support RespirationJournal of Biological Chemistry, 1959
- Labile Fatty Acids of Rat Diaphragm Muscle and Their Possible Role as the Major Endogenous Substrate for Maintenance of RespirationJournal of Biological Chemistry, 1959
- Fatty Acid Oxidation by Skeletal Muscle During Rest and ActivityAmerican Journal of Physiology-Legacy Content, 1958
- The Biosynthesis of the Fatty Acids of the Plasma of Man. I. The Formation of Certain Chromatographically Separated Higher Fatty Acids of the Major Lipide Complexes from Acetate-1-C141Journal of Clinical Investigation, 1957
- A Rapid and Simple Method for the Determination of Esterified Fatty Acids and for Total Fatty Acids in BloodJournal of Clinical Pathology, 1953
- The Influence of Carbohydrate on Nitrogen Metabolism in the Normal Nutritional StateJournal of Nutrition, 1937