Päivi Pöhö scite author profile

Insulin resistance is a forerunner state of ischaemic cardiovascular disease and type 2 diabetes. Here we show how the human gut microbiome impacts the serum metabolome and associates with insulin resistance in 277 non-diabetic Danish individuals. The serum metabolome of insulin-resistant individuals is characterized by increased levels of branched-chain amino acids (BCAAs), which correlate with a gut microbiome that has an enriched biosynthetic potential for BCAAs and is deprived of genes encoding bacterial inward transporters for these amino acids. Prevotella copri and Bacteroides vulgatus are identified as the main species driving the association between biosynthesis of BCAAs and insulin resistance, and in mice we demonstrate that P. copri can induce insulin resistance, aggravate glucose intolerance and augment circulating levels of BCAAs. Our findings suggest that microbial targets may have the potential to diminish insulin resistance and reduce the incidence of common metabolic and cardiovascular disorders.

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The Dynamics of the Human Infant Gut Microbiome in Development and in Progression toward Type 1 Diabetes

Kostic

Gevers

Siljander

et al. 2015

Cell Host & Microbe

986

608

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SUMMARY Colonization of the fetal and infant gut microbiome results in dynamic changes in diversity, which can impact disease susceptibility. To examine the relationship between human gut microbiome dynamics throughout infancy and type 1 diabetes (T1D), we examined a cohort of 33 infants genetically predisposed to T1D. Modeling trajectories of microbial abundances through infancy revealed a subset of microbial relationships shared across most subjects. Although strain composition of a given species was highly variable between individuals, it was stable within individuals throughout infancy. Metabolic composition and metabolic pathway abundance remained constant across time. A marked drop in alpha-diversity was observed in T1D progressors in the time-window between seroconversion and T1D diagnosis, accompanied by spikes in inflammation-favoring organisms, gene functions, and serum and stool metabolites. This work identifies trends in the development of the human infant gut microbiome along with specific alterations that precede T1D onset and distinguish T1D progressors from non-progressors.

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The Dynamics of the Human Infant Gut Microbiome in Development and in Progression toward Type 1 Diabetes

Kostić¹,

Gevers²,

Siljander³

et al. 2016

Cell Host & Microbe

198

298

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Lipidome as a predictive tool in progression to type 2 diabetes in Finnish men

et al. 2018

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Päivi Pöhö

Human gut microbes impact host serum metabolome and insulin sensitivity

The Dynamics of the Human Infant Gut Microbiome in Development and in Progression toward Type 1 Diabetes

The Dynamics of the Human Infant Gut Microbiome in Development and in Progression toward Type 1 Diabetes

Lipidome as a predictive tool in progression to type 2 diabetes in Finnish men

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