Hepatic adenine nucleotide metabolism measured in vivo in rats fed ethanol and a high fat-low protein diet

Abstract

Rats fed a diet high in fat and low in protein continuously infused by intragastric cannula were given ethanol for 2 to 6 months in order to examine the response of liver adenine nucleotides to changes in systemic PO₂. Hepatic adenine nucleotides were measured in vivo monthly using liver obtained by biopsy from rats while a high blood alcohol level was maintained. Ethanol decreased hepatic ATP and the total adenylate pool, but did not change the levels of ADP and AMP. Adenylate energy charge showed only a tendency to be decreased. Carotid arterial PO₂ was mildly but significantly lower in ethanol-fed rats compared to the pair-fed controls. Pure O₂ inhalation for 3 min increased the PO₂ four times in the ethanol and control-fed rats, and tended to increase ATP and decrease ADP in ethanol-fed rats as well as pair-fed controls. It restored the energy charge to a normal level in the ethanol-fed rats. Ten per cent O₂ + 90% N₂ inhalation for 3 min decreased the PO₂ to 40 mm Hg in both the ethanol-fed and control rats, and this rapidly decreased ATP. This effect was significantly greater in the ethanol-fed rats compared to the controls. The total adenylate pool and the energy charge were decreased only in ethanol-fed rats. The results show that the reduced energy stores in the rat liver induced by ethanol are rapidly responsive to changes in PO₂. Thus, the livers of ethanol-fed rats were more vulnerable to transient hypoxia than were controls.