Gut bacterial metabolism contributes to host global purine homeostasis
The microbes and microbial pathways that influence host inflammatory disease progression remain largely undefined. Here, we show that variation in atherosclerosis burden is partially driven by gut microbiota and is associated with circulating levels of uric acid (UA) in mice and humans. We identify...
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sg-ntu-dr.10356-1742792024-03-31T15:40:14Z Gut bacterial metabolism contributes to host global purine homeostasis Kasahara, Kazuyuki Kerby, Robert L. Zhang, Qijun Pradhan, Meenakshi Mehrabian, Margarete Lusis, Aldons J. Bergström, Göran Bäckhed, Fredrik Rey, Federico E. Lee Kong Chian School of Medicine (LKCMedicine) Medicine, Health and Life Sciences Atherosclerosis Gut microbiome The microbes and microbial pathways that influence host inflammatory disease progression remain largely undefined. Here, we show that variation in atherosclerosis burden is partially driven by gut microbiota and is associated with circulating levels of uric acid (UA) in mice and humans. We identify gut bacterial taxa spanning multiple phyla, including Bacillota, Fusobacteriota, and Pseudomonadota, that use multiple purines, including UA as carbon and energy sources anaerobically. We identify a gene cluster that encodes key steps of anaerobic purine degradation and that is widely distributed among gut-dwelling bacteria. Furthermore, we show that colonization of gnotobiotic mice with purine-degrading bacteria modulates levels of UA and other purines in the gut and systemically. Thus, gut microbes are important drivers of host global purine homeostasis and serum UA levels, and gut bacterial catabolism of purines may represent a mechanism by which gut bacteria influence health. Published version This work was partly supported by grants from the National Institutes of Health: NIH HL144651 (to F.E.R. and A.J.L.), NIH HL148577 (to F.E.R. and A.J.L.), and NIH HL147883 (to A.J.L.). This work was also supported by grants from a Transatlantic Networks of Excellence Award from Foundation Leducq (17CVD01 to F.B. and F.E.R.), from the Knut and Alice Wallenberg Foundation (2017.0026 to F.B.), from the Swedish Heart Lung Foundation (20210366 to F.B.), and from AFA insurances (160337 to F.B.). F.B. is the Torsten Söderberg Professor in Medicine and a Wallenberg Scholar. 2024-03-25T05:58:17Z 2024-03-25T05:58:17Z 2023 Journal Article Kasahara, K., Kerby, R. L., Zhang, Q., Pradhan, M., Mehrabian, M., Lusis, A. J., Bergström, G., Bäckhed, F. & Rey, F. E. (2023). Gut bacterial metabolism contributes to host global purine homeostasis. Cell Host & Microbe, 31(6), 1038-1053.e10. https://dx.doi.org/10.1016/j.chom.2023.05.011 1931-3128 https://hdl.handle.net/10356/174279 10.1016/j.chom.2023.05.011 37279756 2-s2.0-85162910973 6 31 1038 1053.e10 en Cell Host & Microbe © 2023 The Author(s). Published by Elsevier Inc. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). application/pdf |
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Medicine, Health and Life Sciences Atherosclerosis Gut microbiome |
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Medicine, Health and Life Sciences Atherosclerosis Gut microbiome Kasahara, Kazuyuki Kerby, Robert L. Zhang, Qijun Pradhan, Meenakshi Mehrabian, Margarete Lusis, Aldons J. Bergström, Göran Bäckhed, Fredrik Rey, Federico E. Gut bacterial metabolism contributes to host global purine homeostasis |
| description |
The microbes and microbial pathways that influence host inflammatory disease progression remain largely undefined. Here, we show that variation in atherosclerosis burden is partially driven by gut microbiota and is associated with circulating levels of uric acid (UA) in mice and humans. We identify gut bacterial taxa spanning multiple phyla, including Bacillota, Fusobacteriota, and Pseudomonadota, that use multiple purines, including UA as carbon and energy sources anaerobically. We identify a gene cluster that encodes key steps of anaerobic purine degradation and that is widely distributed among gut-dwelling bacteria. Furthermore, we show that colonization of gnotobiotic mice with purine-degrading bacteria modulates levels of UA and other purines in the gut and systemically. Thus, gut microbes are important drivers of host global purine homeostasis and serum UA levels, and gut bacterial catabolism of purines may represent a mechanism by which gut bacteria influence health. |
| author2 |
Lee Kong Chian School of Medicine (LKCMedicine) |
| author_facet |
Lee Kong Chian School of Medicine (LKCMedicine) Kasahara, Kazuyuki Kerby, Robert L. Zhang, Qijun Pradhan, Meenakshi Mehrabian, Margarete Lusis, Aldons J. Bergström, Göran Bäckhed, Fredrik Rey, Federico E. |
| format |
Article |
| author |
Kasahara, Kazuyuki Kerby, Robert L. Zhang, Qijun Pradhan, Meenakshi Mehrabian, Margarete Lusis, Aldons J. Bergström, Göran Bäckhed, Fredrik Rey, Federico E. |
| author_sort |
Kasahara, Kazuyuki |
| title |
Gut bacterial metabolism contributes to host global purine homeostasis |
| title_short |
Gut bacterial metabolism contributes to host global purine homeostasis |
| title_full |
Gut bacterial metabolism contributes to host global purine homeostasis |
| title_fullStr |
Gut bacterial metabolism contributes to host global purine homeostasis |
| title_full_unstemmed |
Gut bacterial metabolism contributes to host global purine homeostasis |
| title_sort |
gut bacterial metabolism contributes to host global purine homeostasis |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/174279 |
| _version_ |
1795375047460782080 |