Depending on your genetic make-up, you might be able to drink coffee right before bed or feel wired after just one cup, ongoing research shows.
Studying how genes affect coffee consumption habits is nothing new. In previous work, Marilyn Cornelis, assistant professor in preventive medicine at Northwestern University Feinberg School of Medicine, identified genetic variants associated with coffee-drinking.
In a new study, Cornelis applied similar methodology to study metabolites in the blood—or chemicals found in one’s blood after consuming caffeine—instead of coffee consumption behavior. She found the same variants as in previous research, as well as an additional variant. Additionally, she discovered that a variant in the gene CYP2A6, which previously had been linked to smoking behavior and nicotine metabolism, is also linked to caffeine metabolism.
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“Each of us could be potentially responding to caffeine differently, and it’s possible that those differences can extend beyond that of caffeine,” Cornelis says.
The study’s first and most important takeaway, Cornelis says, is that all but one of the genes linked to caffeine metabolites in the blood are biological candidates for caffeine metabolism: CYP1A2, AHR, POR, ABCG2, and CYP2A6. But Cornelis and her collaborators were surprised to find that the gene GCKR, which has been repeatedly linked to glucose and lipid metabolism in independent studies, may also play a role in metabolizing caffeine, according to this new research.
“How this gene relates to both caffeine metabolism and caffeine-seeking behavior is unclear but worthy of further study, given its link to several health outcomes,” Cornelis says.
The second finding in Cornelis’ research is that genetic variants linked to lower levels of caffeine metabolites, which imply faster caffeine metabolism, are the same variants previously linked to higher coffee consumption.
“This makes sense, conceptually, but the genetic research confirms it and further re-emphasizes the notion that not everyone responds to a single cup of coffee (or other caffeinated beverage) in the same way,” Cornelis says. “It’s important to know, given coffee has been implicated in so many diseases.”
And finally, many of the genes that she and her collaborators found to metabolize caffeine also coded for proteins that function in the metabolism of other clinically important drugs, such as those that treat insomnia, Parkinson’s Disease, hypertension, and more.
The findings support additional links between metabolism of caffeine, nicotine, and possibly other pharmaceutical drugs. At this point, Cornelis says this is largely unknown but could have great implications for the field of precision medicine.
For this study, published in Human Molecular Genetics, Cornelis led a team of investigators from the United States, Sweden, the United Kingdom, Germany, and Switzerland in a genome-wide association study of caffeine metabolites measured in 9,876 individuals of European ancestry from six population-based studies.
Funding came from the American Diabetes Association, with additional funding for study-specific infrastructure and data collection.
Source: Northwestern University
Original Study DOI: 10.1093/hmg/ddw334
Article by Kristin Samuelson-Northwestern