Alcoholic beverages are among the most widely enjoyed leisure drinks around the world. However, irresponsible drinking habits can have detrimental effects on human health. Therefore, exploring strategies to alleviate discomfort following alcohol consumption would be beneficial for individuals who inevitably need to consume alcohol. In this study, three different models were used to determine the efficacy of a patented alcohol degradation protein (ADP) extracted from Bos taurus on ethanol metabolism. In an ethanol-challenged HepG2 cell model, ADP significantly protected the cell from ethanol-induced toxicity. Subsequently, results demonstrated that ADP significantly alleviated the effect of ethanol, as reflected by the increased distance and activity time of zebrafish during the testing period. Additionally, in a rat model, ADP promoted ethanol degradation at 1 and 2 h after ethanol consumption. Mechanistic studies found that ADP treatment increased ADH and ALDH activity in the gastrointestinal tract. ADP also exhibited potent antioxidation effects by lowering HO-1 expression in the liver. In conclusion, we believe that ADP is a promising product for relieving hangover symptoms after ethanol consumption, with demonstrated safety and effectiveness at the recommended dosage.
Keywords: alcohol degradation; hangover; liver protection.