Researchers identified the role bacteria play in determining how well individuals respond to medications.
Scientists in the lab of senior author Andrew Goodman of Yale’s Microbial Sciences Institute and the Department of Microbial Pathogenesi, find human gut microbes that metabolize over 150 therapeutic drugs.
They also pinpointed the microbial genes responsible for many of these drug-metabolizing activities.
Above, illustration courtesy of Marieke F. Buffing
Maria Zimmermann-Kogadeeva, a postdoctoral fellow in Goodman’s lab and co-lead author of the study, said:
“It is possible that we can use genes or species of bacteria to predict the capacity of an individual’s gut flora to metabolize a certain drug. The work is a first step in identifying biomarkers that could help doctors prescribe the drugs that are the safest and most effective for individual patients.”
The metabolism of drugs was once thought to be exclusively the role of human organs such as the liver, which carry out the important task of turning chemical compounds into water-soluble molecules to help their elimination from the body. This process is crucial to determining the effectiveness and safety of clinical drugs: The drugs need to stay in the body long enough to have an effect but not long enough to accumulate and potentially become toxic.
Drug metabolism studies typically do not assess the contribution of the microbiome. “However, anecdotal examples of microbiome-metabolized drugs have emerged over past decades,” Goodman said.
To map the connections between gut microbes and medical drugs, the researchers investigated whether and how each of 271 drugs are chemically modified by each of 76 different kinds of bacteria from the human gut. Almost two-thirds of these drugs were metabolized by at least one of the bacterial specimens tested. The researchers then constructed genetic libraries of the selected drug-metabolizing gut bacteria which allowed them to systematically identify many of the genes responsible for the chemical transformation of the drugs.
They found that the number of these genes varies widely across the gut microbial communities of healthy human volunteers. In some cases, these differences explain why some individuals’ gut microbiomes metabolize drugs rapidly, while others modify the same drugs slowly or not at all.
“We hope this study provides a useful first step in understanding the microbiome contribution to drug metabolism,” said Michael Zimmermann, postdoctoral fellow in the Goodman lab and co-lead author of the study. “We think these approaches could shed light on how the gut microbiome also modulates our response to non-drug compounds, such as dietary nutrients and environmental agents.”
The work was primarily supported by the National Institutes of Health.
The report in the journal Nature
source Yale
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