Author
Listed:
- Martina Klünemann
(European Molecular Biology Laboratory
Evonik Operations GmbH)
- Sergej Andrejev
(European Molecular Biology Laboratory
German Cancer Research Center)
- Sonja Blasche
(European Molecular Biology Laboratory
Medical Research Council Toxicology Unit)
- Andre Mateus
(European Molecular Biology Laboratory)
- Prasad Phapale
(European Molecular Biology Laboratory)
- Saravanan Devendran
(European Molecular Biology Laboratory)
- Johanna Vappiani
(Cellzome, GlaxoSmithKline R&D)
- Bernd Simon
(European Molecular Biology Laboratory)
- Timothy A. Scott
(University College London)
- Eleni Kafkia
(Medical Research Council Toxicology Unit)
- Dimitrios Konstantinidis
(European Molecular Biology Laboratory)
- Katharina Zirngibl
(European Molecular Biology Laboratory
Medical Research Council Toxicology Unit)
- Eleonora Mastrorilli
(European Molecular Biology Laboratory)
- Manuel Banzhaf
(European Molecular Biology Laboratory
University of Birmingham)
- Marie-Therese Mackmull
(European Molecular Biology Laboratory
ETH Zürich)
- Felix Hövelmann
(European Molecular Biology Laboratory)
- Leo Nesme
(European Molecular Biology Laboratory
Molecular Health GmbH)
- Ana Rita Brochado
(European Molecular Biology Laboratory
University of Würzburg)
- Lisa Maier
(European Molecular Biology Laboratory
University of Tübingen)
- Thomas Bock
(European Molecular Biology Laboratory
University of Basel)
- Vinita Periwal
(European Molecular Biology Laboratory
Medical Research Council Toxicology Unit)
- Manjeet Kumar
(European Molecular Biology Laboratory)
- Yongkyu Kim
(European Molecular Biology Laboratory)
- Melanie Tramontano
(European Molecular Biology Laboratory
German Cancer Research Center)
- Carsten Schultz
(European Molecular Biology Laboratory
Oregon Health & Science University, Portland)
- Martin Beck
(European Molecular Biology Laboratory
Max Planck Institute of Biophysics)
- Janosch Hennig
(European Molecular Biology Laboratory
University of Bayreuth)
- Michael Zimmermann
(European Molecular Biology Laboratory)
- Daniel C. Sévin
(Cellzome, GlaxoSmithKline R&D)
- Filipe Cabreiro
(University College London
Imperial College London
University of Cologne)
- Mikhail M. Savitski
(European Molecular Biology Laboratory)
- Peer Bork
(European Molecular Biology Laboratory
Max Delbrück Centre for Molecular Medicine
Yonsei University
University of Würzburg)
- Athanasios Typas
(European Molecular Biology Laboratory)
- Kiran R. Patil
(European Molecular Biology Laboratory
Medical Research Council Toxicology Unit)
Abstract
Bacteria in the gut can modulate the availability and efficacy of therapeutic drugs. However, the systematic mapping of the interactions between drugs and bacteria has only started recently1 and the main underlying mechanism proposed is the chemical transformation of drugs by microorganisms (biotransformation). Here we investigated the depletion of 15 structurally diverse drugs by 25 representative strains of gut bacteria. This revealed 70 bacteria–drug interactions, 29 of which had not to our knowledge been reported before. Over half of the new interactions can be ascribed to bioaccumulation; that is, bacteria storing the drug intracellularly without chemically modifying it, and in most cases without the growth of the bacteria being affected. As a case in point, we studied the molecular basis of bioaccumulation of the widely used antidepressant duloxetine by using click chemistry, thermal proteome profiling and metabolomics. We find that duloxetine binds to several metabolic enzymes and changes the metabolite secretion of the respective bacteria. When tested in a defined microbial community of accumulators and non-accumulators, duloxetine markedly altered the composition of the community through metabolic cross-feeding. We further validated our findings in an animal model, showing that bioaccumulating bacteria attenuate the behavioural response of Caenorhabditis elegans to duloxetine. Together, our results show that bioaccumulation by gut bacteria may be a common mechanism that alters drug availability and bacterial metabolism, with implications for microbiota composition, pharmacokinetics, side effects and drug responses, probably in an individual manner.
Suggested Citation
Martina Klünemann & Sergej Andrejev & Sonja Blasche & Andre Mateus & Prasad Phapale & Saravanan Devendran & Johanna Vappiani & Bernd Simon & Timothy A. Scott & Eleni Kafkia & Dimitrios Konstantinidis , 2021.
"Bioaccumulation of therapeutic drugs by human gut bacteria,"
Nature, Nature, vol. 597(7877), pages 533-538, September.
Handle:
RePEc:nat:nature:v:597:y:2021:i:7877:d:10.1038_s41586-021-03891-8
DOI: 10.1038/s41586-021-03891-8
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