Georg Möser scite author profile

To determine half-life and turnover of plasma adenosine, heparinized blood from healthy volunteers was incubated with radiolabeled adenosine in the physiological concentration range of 0.1-1 microM. Plasma levels of adenosine in vitro were 82 +/- 14 nM and were similar to those determined immediately after blood collection with a "stopping solution." Dipyridamole (83 microM) and erythro-9(2-hydroxynon-3yl)-adenine (EHNA) (8 microM) did not measurably alter basal adenosine levels but completely blocked the uptake of added adenosine. Inhibition of ecto-5'-nucleotidase with 100 microM alpha, beta-methyleneadenosine 5'-diphosphate (AOPCP) reduced plasma adenosine to 22 +/- 6 nM. For the determination of adenosine turnover, the decrease in specific radioactivity of added [3H]adenosine was measured using a dipyridamole-containing stopping solution. Without altering basal adenosine levels, the half-life was estimated to be 0.6 s. Similar experiments were carried out with washed erythrocytes or in the presence of AOPCP, yielding half-lives of 0.7 and 0.9 s, respectively. When the initial adenosine concentration was 1 microM, its specific activity decreased by only 11% within 5 s, whereas total plasma adenosine exponentially decreased with a half-life of 1.5 s. Venous plasma concentrations were measured after relief of a 3-min forearm ischemia. Changes in plasma adenosine did not correlate well with changes in blood flow but were augmented in the presence of dipyridamole.(ABSTRACT TRUNCATED AT 250 WORDS)

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Contribution of coronary endothelial cells to cardiac adenosine production

Deußen

1986

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Experiments were performed in isolated non-working guinea pig hearts perfused according to the Langendorff technique (95% O2, 5% CO2), to evaluate the relative contribution of the coronary endothelium to the formation of cardiac adenosine during hypoxia, hypercapnia, and acetylcholine infusion. For this purpose the adenine-nucleotides of the coronary endothelium were prelabeled by perfusion of isolated hearts with 3H-adenosine (10(-8) M) for 35 min. Changes in the relative specific radioactivity (RSA) of adenosine released into the coronary effluent perfusate were used to assess changes in the relative contribution of the coronary endothelium and cardiomyocytes to total cardiac adenosine release. Hypoxic perfusion (15% O2) doubled coronary flow and increased total adenosine release by about two orders of magnitude and in addition, substantially increased the release of 3H-adenosine. The RSA of adenosine, however, was consistently depressed. During hypercapnic acidosis (9% CO2) the increase in coronary flow was associated with only a small and transient rise in cardiac adenosine release, and did not influence the formation of 3H-adenosine. In the unpaced heart, acetylcholine (10(-7) and 2 X 10(-6) M) dose-dependently increased coronary flow and the release of both adenosine and 3H-adenosine. Within the first minute, the RSA of adenosine was increased, but thereafter was decreased relative to control. In the paced heart, the effects of acetylcholine (2 X 10(-6) M) were greatly attenuated. Increasing coronary flow by bradykinin and isosorbide dinitrate or decreasing heart rate by (-)N6-phenylisopropyl-adenosine did not significantly affect effluent perfusate concentration of adenosine or its RSA.(ABSTRACT TRUNCATED AT 250 WORDS)

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Georg Möser

Turnover of adenosine in plasma of human and dog blood

Contribution of coronary endothelial cells to cardiac adenosine production

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