Characterizing the metabolic effects of the selective inhibition of gut microbial beta-glucuronidases in mice
Characterizing the metabolic effects of the selective inhibition of gut microbial beta-glucuronidases in mice
The hydrolysis of xenobiotic glucuronides by gut bacterial glucuronidases reactivates previously detoxified compounds resulting in severe gut toxicity for the host. Selective bacterial β-glucuronidase inhibitors can mitigate this toxicity but their impact on wider host metabolic processes has not been studied. To investigate this the inhibitor 4-(8-(piperazin-1-yl)-1,2,3,4-tetrahydro-[1,2,3]triazino[4′,5′:4,5]thieno[2,3-c]isoquinolin-5-yl)morpholine (UNC10201652, Inh 9) was administered to mice to selectively inhibit a narrow range of bacterial β-glucuronidases in the gut. The metabolomic profiles of the intestinal contents, biofluids, and several tissues involved in the enterohepatic circulation were measured and compared to control animals. No biochemical perturbations were observed in the plasma, liver or gall bladder. In contrast, the metabolite profiles of urine, colon contents, feces and gut wall were altered compared to the controls. Changes were largely restricted to compounds derived from gut microbial metabolism. This work establishes that inhibitors targeted towards bacterial β-glucuronidases modulate the functionality of the intestinal microbiota without adversely impacting the host metabolic system.
Animals, Bacteria/metabolism, Gastrointestinal Microbiome/physiology, Glucuronidase/metabolism, Mice, Morpholines, Xenobiotics
Letertre, Marine P.M.
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Bhatt, Aadra P.
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Harvey, Michael
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Nicholson, Jeremy K.
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Wilson, Ian D.
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Redinbo, Matthew R.
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Swann, Jonathan R.
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19 October 2022
Letertre, Marine P.M.
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Bhatt, Aadra P.
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Harvey, Michael
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Nicholson, Jeremy K.
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Wilson, Ian D.
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Redinbo, Matthew R.
614489fc-9bb8-4031-b3c5-abb74b7debe6
Swann, Jonathan R.
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Letertre, Marine P.M., Bhatt, Aadra P., Harvey, Michael, Nicholson, Jeremy K., Wilson, Ian D., Redinbo, Matthew R. and Swann, Jonathan R.
(2022)
Characterizing the metabolic effects of the selective inhibition of gut microbial beta-glucuronidases in mice.
Scientific Reports, 12 (1), [17435].
(doi:10.1038/s41598-022-21518-4).
Abstract
The hydrolysis of xenobiotic glucuronides by gut bacterial glucuronidases reactivates previously detoxified compounds resulting in severe gut toxicity for the host. Selective bacterial β-glucuronidase inhibitors can mitigate this toxicity but their impact on wider host metabolic processes has not been studied. To investigate this the inhibitor 4-(8-(piperazin-1-yl)-1,2,3,4-tetrahydro-[1,2,3]triazino[4′,5′:4,5]thieno[2,3-c]isoquinolin-5-yl)morpholine (UNC10201652, Inh 9) was administered to mice to selectively inhibit a narrow range of bacterial β-glucuronidases in the gut. The metabolomic profiles of the intestinal contents, biofluids, and several tissues involved in the enterohepatic circulation were measured and compared to control animals. No biochemical perturbations were observed in the plasma, liver or gall bladder. In contrast, the metabolite profiles of urine, colon contents, feces and gut wall were altered compared to the controls. Changes were largely restricted to compounds derived from gut microbial metabolism. This work establishes that inhibitors targeted towards bacterial β-glucuronidases modulate the functionality of the intestinal microbiota without adversely impacting the host metabolic system.
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s41598-022-21518-4
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Published date: 19 October 2022
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Funding Information:
This work was supported by the Servier Technologies through the STRATiGRAD Programme of Imperial College London, and by US NIH grant CA207416 (MRR). The NPC database construction and matching were supported by the Medical Research Council and National Institute for health Research [PI JKN, grant number MC_PC_12025] as the National Phenome Centre. J.R.S. is supported by the NIHR Southampton Biomedical Research Centre, BBSRC (BB/W00139X/1) and Medical Research Council (MC_PC12025 and MR/W003597/1). A.P.B. was supported by NIH grant T32-DK007737. M.R.R is supported by the U.S. National Institutes of Health (GM135218 and GM137286). M.R.R. is also a founder of Symberix, Inc., which is developing microbiome-targeted therapeutics.
Publisher Copyright:
© 2022, The Author(s).
Keywords:
Animals, Bacteria/metabolism, Gastrointestinal Microbiome/physiology, Glucuronidase/metabolism, Mice, Morpholines, Xenobiotics
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Local EPrints ID: 472801
URI: http://eprints.soton.ac.uk/id/eprint/472801
ISSN: 2045-2322
PURE UUID: d0b1afd3-02a2-49e0-8ed7-f449628423ec
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Date deposited: 19 Dec 2022 17:43
Last modified: 18 Mar 2024 04:04
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Contributors
Author:
Marine P.M. Letertre
Author:
Aadra P. Bhatt
Author:
Michael Harvey
Author:
Jeremy K. Nicholson
Author:
Ian D. Wilson
Author:
Matthew R. Redinbo
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