Genetic risk factors for high alcohol intake identified!

Genetic risk factors for high alcohol intake identified!

A new study, published in Science Advances, identifies genes associated with high alcohol intake.

Alcohol consumption is associated with many diseases, with the risk of these co-morbidities generally increasing with greater exposure. Excessive consumption of alcohol is considered a result of complex interactions between genetic and non-genetic risk factors. A number of family, twin, and adoption studies have shown that high alcohol intake definitely has a genetic component, although finding consistent outcomes in terms of exact genes associated with this behaviour has been difficult.

In an effort to identify the specific genes responsible for high levels of alcohol consumption a team of international researchers conducted a genome-wide association study (GWAS) using the UK Biobank to pinpoint the genes responsible.

This method searches a person's DNA (genome) for small variations, called single nucleotide polymorphisms (SNPs). Each person carries many millions of SNPs, but if a particular SNP occurs more frequently in people with a particular condition than in people without the condition, it can suggest the underlying reason for the difference.

The study used 125k participants from UK Biobank and a further 49k from a US study to explore how genes and biological pathways are implicated in alcohol consumption. Taken together, the findings suggest several common pathways associated with different types of compulsive behaviour and addiction, not just alcohol consumption.

Model organisms (worm models) were used to test the functional effects of the genes identified in GWAS (i.e. what happens when the gene is removed). All genes tested demonstrated marked changes in the worms' response to alcohol exposure. This is novel in the alcohol field and suggests that these genes have a true impact on response to alcohol.

The authors identified six loci attaining genome-wide significant association with alcohol consumption after meta-analysis and meeting our criteria for replication: ADH1B (lead SNP: rs1229984), KLB (rs13130794), BTF3P13 (rs144198753), GCKR (rs1260326), SLC39A8 (rs13107325), and DRD2 (rs11214609). A conserved role in phenotypic responses to alcohol was observed for all genetic targets available for investigation (ADH1B, GCKR, SLC39A8, and KLB) in Caenorhabditis elegans. Evidence of causal links to lung cancer, and shared genetic architecture with gout and hypertension was also found. 

The author said: "Our study offers insight into genes, pathways, and relationships for disease risk associated with high alcohol consumption.

"This improved understanding regarding genetic risk of alcohol consumption will lead to further study and hopefully opportunities to develop new treatments for people with alcohol use disorders."

https://news.liverpool.ac.uk/2020/01/16/new-study-shines-light-on-genetic-risk-factors-for-high-alcohol-intake/

https://advances.sciencemag.org/content/6/3/eaay5034

http://sciencemission.com/site/index.php?page=news&type=view&id=publications%2Ffunctional-validity&filter=22

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