Structural characterization of the microbial enzyme urocanate reductase mediating imidazole propionate production

Raminta Venskutonytė; Ara Koh; Olof Stenström; Muhammad Tanweer Khan; Annika Lundqvist; Mikael Akke; Fredrik Bäckhed; Karin Lindkvist-Petersson

doi:10.1038/s41467-021-21548-y

Structural characterization of the microbial enzyme urocanate reductase mediating imidazole propionate production

Raminta Venskutonytė, Ara Koh, Olof Stenström, Muhammad Tanweer Khan, Annika Lundqvist, Mikael Akke, Fredrik Bäckhed, Karin Lindkvist-Petersson

Research output: Contribution to journal › Article › peer-review

Abstract

The human microbiome can produce metabolites that modulate insulin signaling. Type 2 diabetes patients have increased circulating concentrations of the microbially produced histidine metabolite, imidazole propionate (ImP) and administration of ImP in mice resulted in impaired glucose tolerance. Interestingly, the fecal microbiota of the patients had increased capacity to produce ImP, which is mediated by the bacterial enzyme urocanate reductase (UrdA). Here, we describe the X-ray structures of the ligand-binding domains of UrdA in four different states, representing the structural transitions along the catalytic reaction pathway of this unexplored enzyme linked to disease in humans. The structures in combination with functional data provide key insights into the mechanism of action of UrdA that open new possibilities for drug development strategies targeting type 2 diabetes.

Original language	English
Pages (from-to)	1347
Journal	Nature Communications
Volume	12
Issue number	1
DOIs	https://doi.org/10.1038/s41467-021-21548-y
Publication status	Published - 2021

Subject classification (UKÄ)

Cell and Molecular Biology

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10.1038/s41467-021-21548-y

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abstract = "The human microbiome can produce metabolites that modulate insulin signaling. Type 2 diabetes patients have increased circulating concentrations of the microbially produced histidine metabolite, imidazole propionate (ImP) and administration of ImP in mice resulted in impaired glucose tolerance. Interestingly, the fecal microbiota of the patients had increased capacity to produce ImP, which is mediated by the bacterial enzyme urocanate reductase (UrdA). Here, we describe the X-ray structures of the ligand-binding domains of UrdA in four different states, representing the structural transitions along the catalytic reaction pathway of this unexplored enzyme linked to disease in humans. The structures in combination with functional data provide key insights into the mechanism of action of UrdA that open new possibilities for drug development strategies targeting type 2 diabetes.",

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AU - Venskutonytė, Raminta

AU - Koh, Ara

AU - Stenström, Olof

AU - Khan, Muhammad Tanweer

AU - Lundqvist, Annika

AU - Akke, Mikael

AU - Bäckhed, Fredrik

AU - Lindkvist-Petersson, Karin

PY - 2021

Y1 - 2021

N2 - The human microbiome can produce metabolites that modulate insulin signaling. Type 2 diabetes patients have increased circulating concentrations of the microbially produced histidine metabolite, imidazole propionate (ImP) and administration of ImP in mice resulted in impaired glucose tolerance. Interestingly, the fecal microbiota of the patients had increased capacity to produce ImP, which is mediated by the bacterial enzyme urocanate reductase (UrdA). Here, we describe the X-ray structures of the ligand-binding domains of UrdA in four different states, representing the structural transitions along the catalytic reaction pathway of this unexplored enzyme linked to disease in humans. The structures in combination with functional data provide key insights into the mechanism of action of UrdA that open new possibilities for drug development strategies targeting type 2 diabetes.

AB - The human microbiome can produce metabolites that modulate insulin signaling. Type 2 diabetes patients have increased circulating concentrations of the microbially produced histidine metabolite, imidazole propionate (ImP) and administration of ImP in mice resulted in impaired glucose tolerance. Interestingly, the fecal microbiota of the patients had increased capacity to produce ImP, which is mediated by the bacterial enzyme urocanate reductase (UrdA). Here, we describe the X-ray structures of the ligand-binding domains of UrdA in four different states, representing the structural transitions along the catalytic reaction pathway of this unexplored enzyme linked to disease in humans. The structures in combination with functional data provide key insights into the mechanism of action of UrdA that open new possibilities for drug development strategies targeting type 2 diabetes.

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SN - 2041-1723

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JO - Nature Communications

JF - Nature Communications

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Structural characterization of the microbial enzyme urocanate reductase mediating imidazole propionate production

Abstract

Subject classification (UKÄ)

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