Interactions between Roseburia intestinalis and diet modulate atherogenesis in a murine model
Kazuyuki Kasahara,Kimberly A. Krautkramer,Elin Org,Kymberleigh A. Romano,Robert L. Kerby,Eugenio I. Vivas,Margarete Mehrabian,John M. Denu,Fredrik Bäckhed,Aldons J. Lusis,Federico E. Rey +10 more
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TL;DR: Roseburia intestinalis is a butyrate-producing member of the gut microbiome that can use dietary plant polysaccharides to alter host metabolism, transcription and epigenetics, and lower inflammation and endotoxaemia, resulting in reduced atherosclerosis.
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Abstract: Humans with metabolic and inflammatory diseases frequently harbour lower levels of butyrate-producing bacteria in their gut. However, it is not known whether variation in the levels of these organisms is causally linked with disease development and whether diet modifies the impact of these bacteria on health. Here we show that a prominent gut-associated butyrate-producing bacterial genus (Roseburia) is inversely correlated with atherosclerotic lesion development in a genetically diverse mouse population. We use germ-free apolipoprotein E-deficient mice colonized with synthetic microbial communities that differ in their capacity to generate butyrate to demonstrate that Roseburia intestinalis interacts with dietary plant polysaccharides to: impact gene expression in the intestine, directing metabolism away from glycolysis and toward fatty acid utilization; lower systemic inflammation; and ameliorate atherosclerosis. Furthermore, intestinal administration of butyrate reduces endotoxaemia and atherosclerosis development. Together, our results illustrate how modifiable diet-by-microbiota interactions impact cardiovascular disease, and suggest that interventions aimed at increasing the representation of butyrate-producing bacteria may provide protection against atherosclerosis.
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Fredrik Karlsson,Valentina Tremaroli,Intawat Nookaew,Göran Bergström,Carl Johan Behre,Björn Fagerberg,Jens Nielsen,Fredrik Bäckhed,Fredrik Bäckhed +8 more
TL;DR: This work uses shotgun sequencing to characterize the faecal metagenome of 145 European women with normal, impaired or diabetic glucose control, and develops a mathematical model based on metagenomic profiles that identified T2D with high accuracy.
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Human nutrition, the gut microbiome and the immune system.
Andrew L. Kau,Philip P. Ahern,Nicholas W. Griffin,Andrew L. Goodman,Andrew L. Goodman,Jeffrey I. Gordon +5 more
TL;DR: Understanding how the diet and nutritional status influence the composition and dynamic operations of the authors' gut microbial communities, and the innate and adaptive arms of the immune system, should help to address several pressing global health problems.
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