Alcohol Consumption and Circulating Metabolites

This study used data from 2,974 control participants from four case-control studies on colorectal (n=491), hepatobiliary (n=327), kidney (n=635), and prostate cancer (n=1,521) nested in the EPIC cohort, for which targeted metabolomics data had been acquired. Alcohol consumption at recruitment was self-reported through dietary questionnaires. Metabolite concentrations were measured by tandem mass spectrometry using the BIOCRATES AbsoluteIDQTM p180 kit. Data were randomly divided into discovery (2/3) and replication (1/3) sets. Multivariable linear regression models were used to evaluate confounder-adjusted associations of ln-transformed alcohol consumption with Z-standardized ln-transformed residual metabolite concentrations. Metabolites significantly related to alcohol intake in the discovery set (FDR q-value<0.05) were further tested in the replication set (Bonferroni-corrected p-value<0.05). Of the 72 metabolites significantly related to alcohol intake in the discovery set, 34 metabolites were also significant in the replication analysis, including three acylcarnitines, the amino acid citrulline, four lysophosphatidylcholines, 13 diacylphosphatidylcholines, seven acyl-alkylphosphatidylcholines, and six sphingomyelins. Associations with acylcarnitines and phosphatidylcholines were generally positive, while mostly inverse associations were observed with citrulline and sphingomyelins.

This study adds novel knowledge regarding circulating metabolites associated with alcohol consumption, and provides leads for further studies into the underlying biological mechanisms. A better understanding of metabolic pathways affected by alcohol consumption may contribute to the development of mechanism-tailored intervention strategies to prevent and treat alcohol-related conditions. Furthermore, it may help to identify biomarkers of alcohol consumption facilitating early preventive strategies in individuals at-risk for developing alcohol-related morbidities.