Abstract

1. Uptake and subsequent metabolism of purine and ribose moieties was monitored after intravenous administration of doubly labelled inosine. 2. More than 95% was cleared from the plasma within 5 min, and 99% within 20 min. 3. Approx. 50% of the 160 mumol total was rapidly incorporated into liver and kidney. Kidney removed the greatest amount (21 mumol/g wet wt.), about 10-fold more than heart, lung or liver. Lung and heart accounted for only 3%. These tissues then lost radioactivity during the remainder of the experiment. Radioactivity in the skeletal muscle, in contrast, increased from 8% of the injected dose at 5 min to 40% at 60 min. 4. In liver, kidney, heart and lung there was a significant difference in the fate of inosine. After initial incorporation of inosine, kidney predominantly lost inosine; heart preferentially lost purines; lung preferentially lost ribose radioactivity; and in liver the ribose radioactivity was rapidly lost, whereas purine was retained. Some of the ribose moiety was metabolized to glucose, presumably in the liver, and then released into the blood. Ribose radioactivity (probably as glucose) and radioactive hypoxanthine accumulated in skeletal muscle throughout the experiment. 5. Inosine caused a rapid and prolonged increase in the blood glucose content, from 6 to 15 mM in 60 min. This was accompanied by a small increase in plasma insulin. 6. It is concluded that the purine and ribose radioactivity lost from the kidney, liver and other tissues becomes incorporated into skeletal muscle.

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