Equilibrative Adenosine Transport in Rat Hepatocytes after Chronic Ethanol Feeding

Acute treatment of cells with ethanol in vitro inhibits adenosine uptake via equilibrative nucleoside transporters. After longer periods of exposure to ethanol in culture, rechallenge with ethanol no longer inhibits adenosine uptake. Herein, we have investigated the long‐term effects of ethanol consumption in vivo on equilibrative nucleoside transport. Rats were fed a liquid diet containing 35% of calories as ethanol (ethanol‐fed). Control rats were pair‐fed a liquid diet that isocalorically substituted maltose dextrins for ethanol. After 4 weeks of ethanol consumption, nucleoside transport was measured in isolated hepatocytes. Uptake of [ 3 H]adenosine was lower in ethanol‐fed rats compared with control. Influx of the nonmetabolizable nucleoside analog, [ 3 H]formycin B, was also decreased after ethanol feeding. However, neither the number of nitrobenzylthioinosine (NBMPR) binding sites or inhibition of adenosine uptake by NBMPR were affected by ethanol feeding. In controls, acute treatment of isolated hepatocytes with 100 itim ethanol inhibited [ 3 H]adenosine uptake by 30–40%. However, in ethanol‐fed rats, acute challenge with ethanol did not inhibit [ 3 H]adenosine uptake. These data demonstrate that long‐term ethanol feeding decreases equilibrative nucleoside transport in hepatocytes independent of a change in the number of nucleoside transporters and renders adenosine uptake insensitive to inhibition by ethanol.