Litcius/Paper detail

Enantiocomplementary Gut Bacterial Enzymes Metabolize Dietary Polyphenols

Xueyang Dong, Minwoo Bae, Chi “Chip” Le, Miguel A. Aguilar Ramos, Emily P. Balskus

2025Journal of the American Chemical Society16 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Molybdenum-dependent catechol dehydroxylases in gut Actinobacteria catalyze the removal of para -hydroxyl groups from catechols, a central reaction in the microbial metabolism of polyphenol compounds. However, the substrates of most putative catechol dehydroxylases remain unidentified due to the challenges of obtaining these enzymes from standard heterologous expression systems. In this work, we establish Gordonibacter urolithinfaciens as a versatile bacterial host to express active catechol dehydroxylases. Using this system, we rapidly deorphanize eight previously uncharacterized gut bacterial catechol dehydroxylases that selectively dehydroxylate intermediates in the gut bacterial metabolism of plant-derived catechins and lignans. Unexpectedly, we discover multiple instances of distinct catechol dehydroxylases that have evolved to selectively metabolize individual substrate enantiomers, setting the stage for future efforts to elucidate their mechanisms and evolution. Altogether, these findings greatly increase our knowledge of these metalloenzymes, illustrating the power of bacterial genetics to accelerate enzyme discovery and providing a more complete understanding of transformations relevant to the health benefits of phytochemicals.

Topics & Concepts

CatecholChemistryBiochemistryEnzymeMicrobial metabolismPolyphenolMetabolismHeterologous expressionGut floraActinobacteriaBacteriaGeneBiologyRecombinant DNAGeneticsAntioxidant16S ribosomal RNAEnzyme Catalysis and ImmobilizationBiochemical Acid Research StudiesMicrobial Metabolic Engineering and Bioproduction