Adenosine Uptake by Canine Heart

Adenosine Uptake by Canine Heart

The rate of myocardial adenosine uptake was studied in anesthetized openchest dogs to assess the importance of the process in the regulation of extracellular fluid concentrations of this coronary vasodilator. 8-C-adenosine solutions were infused into the left coronary artery at rates that yielded co...

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Bibliographic Details
Published in:Circulation research Vol. 31; no. 5; pp. 767 - 778
Main Authors: OLSSON, Ray A, SNOW, Jerry A, GENTRY, Mary K, FRICK, G Peter
Format: Journal Article
Language:English
Published: United States American Heart Association, Inc 01-11-1972
Subjects:
Adenosine - administration & dosage
Adenosine - metabolism
Aminohydrolases - metabolism
Animals
Biological Transport
Blood Pressure - drug effects
Carbon Isotopes
Coronary Circulation
Deoxyadenosines - pharmacology
Dipyridamole - pharmacology
Dogs
Female
Heart Rate - drug effects
Kinetics
Male
Myocardium - enzymology
Myocardium - metabolism
Nitrobenzenes - pharmacology
Ouabain - pharmacology
Phosphotransferases - metabolism
Ribonucleosides - pharmacology
Thioguanine - pharmacology
Tritium
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Summary:The rate of myocardial adenosine uptake was studied in anesthetized openchest dogs to assess the importance of the process in the regulation of extracellular fluid concentrations of this coronary vasodilator. 8-C-adenosine solutions were infused into the left coronary artery at rates that yielded concentrations in coronary artery plasma of 0.4−13.3 μM. The adenosine uptake rate was calculated as the product of the adenosine infusion rate and the extraction fraction of radioactivity assumed to be adenosine. Uptake appeared to follow Michaelis-Menten kinetics over the range of plasma adenosine concentrations tested, and the apparent values of Km and Vmax were 11.6 ± 1.4 (SE) μM and 4.9 ± 0.5 (SE) nmoles/g left ventricle min, respectively. The Km and the tissue activity of dog heart adenosine deaminase were 43 μM and 1.2 μmoles/g left ventricle min, respectively, and those of adenosine kinase were 0.4 μM and 23 nmoles/g left ventricle min, values sufficiently different from the parameters of uptake to suggest that the limiting step in uptake is permeation into the cell. Uptake was inhibited by 8−13 μM 6-(p-nitrobenzylthio) guanoside, an adenosine analogue that inhibits the facilitated diffusion of a variety of nucleosides in erythrocytes, and by dipyridamole, a compound that inhibits nucleoside uptake in erythrocytes, platelets, and tissue culture cells. Uptake was not inhibited by cardiotoxic doses of ouabain. These findings are evidence against uptake by simple diffusion but are consistent with uptake mediated by a carrier. The rate of cellular adenosine uptake from the extracellular space of the heart appears to be rapid enough to be important in the regulation of myocardial levels of this coronary vasodilator metabolite.
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content type line 23
ISSN:0009-7330
1524-4571
DOI:10.1161/01.RES.31.5.767