[PDF][PDF] Microbially produced imidazole propionate impairs insulin signaling through mTORC1

A Koh, A Molinaro, M Ståhlman, MT Khan, C Schmidt… - Cell, 2018 - cell.com
A Koh, A Molinaro, M Ståhlman, MT Khan, C Schmidt, L Mannerås-Holm, H Wu, A Carreras…
Cell, 2018cell.com
Interactions between the gut microbiota, diet, and the host potentially contribute to the
development of metabolic diseases. Here, we identify imidazole propionate as a microbially
produced histidine-derived metabolite that is present at higher concentrations in subjects
with versus without type 2 diabetes. We show that imidazole propionate is produced from
histidine in a gut simulator at higher concentrations when using fecal microbiota from
subjects with versus without type 2 diabetes and that it impairs glucose tolerance when …
Summary
Interactions between the gut microbiota, diet, and the host potentially contribute to the development of metabolic diseases. Here, we identify imidazole propionate as a microbially produced histidine-derived metabolite that is present at higher concentrations in subjects with versus without type 2 diabetes. We show that imidazole propionate is produced from histidine in a gut simulator at higher concentrations when using fecal microbiota from subjects with versus without type 2 diabetes and that it impairs glucose tolerance when administered to mice. We further show that imidazole propionate impairs insulin signaling at the level of insulin receptor substrate through the activation of p38γ MAPK, which promotes p62 phosphorylation and, subsequently, activation of mechanistic target of rapamycin complex 1 (mTORC1). We also demonstrate increased activation of p62 and mTORC1 in liver from subjects with type 2 diabetes. Our findings indicate that the microbial metabolite imidazole propionate may contribute to the pathogenesis of type 2 diabetes.
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