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The presence and induction of regioselective dehydroxylases dictate urolithin metabolism by Enterocloster species

Reilly Pidgeon, Arianna Giurleo, Lharbi Dridi, Bastien Castagner

npj Biofilms and Microbiomes · 2025 · ▲ 2 citations

Abstract

Urolithins are a class of bioactive metabolites derived from the metabolism of dietary ellagitannins by the human gut microbiota. In the gut, urolithins are dehydroxylated regioselectively based on microbiota composition and activity. A single 9-hydroxy urolithin dehydroxylase (ucd) operon in gut resident Enterocloster species has been described to date; however, most enzymes in the urolithin metabolic pathway remain uncharacterized. Here, we investigate urolithin cross-feeding between members of the gut microbiota and discover a novel urolithin dehydroxylase in a subset of Enterocloster species. We show that urolithin intermediates, released by gut resident Gordonibacter species during ellagic acid metabolism, are dehydroxylated at both the 9- and 10-positions by E. asparagiformis, E. citroniae, and E. pacaense, but not E. bolteae. Using untargeted proteomics, we uncover a 10-hydroxy urolithin dehydroxylase operon, termed uxd, responsible for these species-specific differences in urolithin metabolism. By inducing uxd expression with diverse urolithins, we show that 9-hydroxy urolithins are required for uxd transcription and 10-position dehydroxylation. Collectively, this study reveals some of the genes, proteins, and substrate features underlying differences in urolithin metabolism by the human gut microbiota.

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OpenAlex
DOI
10.1038/s41522-025-00849-w
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2026-06-26 MST

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APA
Pidgeon, R., Giurleo, A., Dridi, L., &amp; Castagner, B. (2025). The presence and induction of regioselective dehydroxylases dictate urolithin metabolism by Enterocloster species. <em>npj Biofilms and Microbiomes</em>. https://doi.org/10.1038/s41522-025-00849-w
Vancouver
Pidgeon R, Giurleo A, Dridi L, Castagner B. The presence and induction of regioselective dehydroxylases dictate urolithin metabolism by Enterocloster species. npj Biofilms and Microbiomes. 2025. doi:10.1038/s41522-025-00849-w.
BibTeX
@article{reilly2025Thepre, title = {The presence and induction of regioselective dehydroxylases dictate urolithin metabolism by Enterocloster species}, author = {Reilly Pidgeon and Arianna Giurleo and Lharbi Dridi and Bastien Castagner}, journal = {npj Biofilms and Microbiomes}, year = {2025}, doi = {10.1038/s41522-025-00849-w}, }

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