Cellular energy charge in the heart and liver of the rat. The effects of ethanol and acetaldehyde

creased catabolism of ubiquitin and its conjugates. Our Hepatic protein accumulation during ethanol adminfindings also provide no indication that the ethanol-elicistration may result partly from an ethanol-elicited deited reduction in hepatic proteolysis is because of a ubicline in hepatic protein d

modification by acetaldehyde correlates well with the severity Liver proteins form adducts with acetaldehyde and are of liver injury in ethanol-fed rats, whereas modification by modified by products of lipid peroxidation in alcohol-fed anithe lipid peroxidation product 4-HNE shows no correlation mal

## Abstract Flavonols, which possess the B‐catechol ring, as quercetin, are capable of producing __o__‐hemi‐ quinones and to oxidize NADH in a variety of mammalian cells. The purpose of this study was to investigate whether fisetin affects the liver energy metabolism and the mitochondrial NADH to N

Ethanol administration inhibits hepatic protein and glycoprotein secretion. Previous studies have shown that the metabolism of ethanol is required for this effect. Experiments were designed to determine whether acetaldehyde, the first metabolite of ethanol oxidation, mediated the ethanol-induced sec

## SEPPO PARKKILA~ AND ONNI NIEMELP We established a new animal model of alcoholic liver disease in the micropig, a species that consumes ethanol voluntarily in the diet. Ten micropigs were pair-fed diets containing 40% of calories as ethanol or cornstarch with identical amounts of fat, protein an