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Πέμπτη 15 Φεβρουαρίου 2018

An Integrated Understanding of the Rapid Metabolic Benefits of a Carbohydrate-Restricted Diet on Hepatic Steatosis in Humans

Publication date: Available online 15 February 2018
Source:Cell Metabolism
Author(s): Adil Mardinoglu, Hao Wu, Elias Bjornson, Cheng Zhang, Antti Hakkarainen, Sari M. Räsänen, Sunjae Lee, Rosellina M. Mancina, Mattias Bergentall, Kirsi H. Pietiläinen, Sanni Söderlund, Niina Matikainen, Marcus Ståhlman, Per-Olof Bergh, Martin Adiels, Brian D. Piening, Marit Granér, Nina Lundbom, Kevin J. Williams, Stefano Romeo, Jens Nielsen, Michael Snyder, Mathias Uhlén, Göran Bergström, Rosie Perkins, Hanns-Ulrich Marschall, Fredrik Bäckhed, Marja-Riitta Taskinen, Jan Borén
A carbohydrate-restricted diet is a widely recommended intervention for non-alcoholic fatty liver disease (NAFLD), but a systematic perspective on the multiple benefits of this diet is lacking. Here, we performed a short-term intervention with an isocaloric low-carbohydrate diet with increased protein content in obese subjects with NAFLD and characterized the resulting alterations in metabolism and the gut microbiota using a multi-omics approach. We observed rapid and dramatic reductions of liver fat and other cardiometabolic risk factors paralleled by (1) marked decreases in hepatic de novo lipogenesis; (2) large increases in serum β-hydroxybutyrate concentrations, reflecting increased mitochondrial β-oxidation; and (3) rapid increases in folate-producing Streptococcus and serum folate concentrations. Liver transcriptomic analysis on biopsy samples from a second cohort revealed downregulation of the fatty acid synthesis pathway and upregulation of folate-mediated one-carbon metabolism and fatty acid oxidation pathways. Our results highlight the potential of exploring diet-microbiota interactions for treating NAFLD.

Graphical abstract

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Teaser

Mardinoglu et al. use multi-omics to investigate the effects of a carbohydrate-restricted diet in obese NAFLD patients. They show that the diet improves liver fat metabolism, promotes rapid shifts in the gut microbiota, increases circulating folate, and upregulates expression of genes involved in folate-dependent one-carbon metabolism in the liver.


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