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High-fat diet–induced colonocyte dysfunction escalates microbiota-derived trimethylamine N-oxide
- Yoo, Woongjae;
- Zieba, Jacob K;
- Foegeding, Nora J;
- Torres, Teresa P;
- Shelton, Catherine D;
- Shealy, Nicolas G;
- Byndloss, Austin J;
- Cevallos, Stephanie A;
- Gertz, Erik;
- Tiffany, Connor R;
- Thomas, Julia D;
- Litvak, Yael;
- Nguyen, Henry;
- Olsan, Erin E;
- Bennett, Brian J;
- Rathmell, Jeffrey C;
- Major, Amy S;
- Bäumler, Andreas J;
- Byndloss, Mariana X
- et al.
Published Web Location
https://doi.org/10.1126/science.aba3683Abstract
A Western-style, high-fat diet promotes cardiovascular disease, in part because it is rich in choline, which is converted to trimethylamine (TMA) by the gut microbiota. However, whether diet-induced changes in intestinal physiology can alter the metabolic capacity of the microbiota remains unknown. Using a mouse model of diet-induced obesity, we show that chronic exposure to a high-fat diet escalates Escherichia coli choline catabolism by altering intestinal epithelial physiology. A high-fat diet impaired the bioenergetics of mitochondria in the colonic epithelium to increase the luminal bioavailability of oxygen and nitrate, thereby intensifying respiration-dependent choline catabolism of E. coli In turn, E. coli choline catabolism increased levels of circulating trimethlamine N-oxide, which is a potentially harmful metabolite generated by gut microbiota.
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