Metatranscriptomics-guided discovery and characterization of a polyphenol-metabolizing gut microbial enzyme

Minwoo Bae; Chi Le; Raaj S. Mehta; Xueyang Dong; Lindsey M. Pieper; Lorenzo Ramirez; Margaret Alexander; Sina Kiamehr; Peter J. Turnbaugh; Curtis Huttenhower; Andrew T. Chan; Emily P. Balskus

doi:10.1016/j.chom.2024.10.002

Metatranscriptomics-guided discovery and characterization of a polyphenol-metabolizing gut microbial enzyme

Minwoo Bae, Chi Le, Raaj S. Mehta, Xueyang Dong, Lindsey M. Pieper, Lorenzo Ramirez, Margaret Alexander, Sina Kiamehr, Peter J. Turnbaugh, Curtis Huttenhower, Andrew T. Chan, Emily P. Balskus

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

4 Scopus citations

Abstract

Gut microbial catechol dehydroxylases are a largely uncharacterized family of metalloenzymes that potentially impact human health by metabolizing dietary polyphenols. Here, we use metatranscriptomics (MTX) to identify highly transcribed catechol-dehydroxylase-encoding genes in human gut microbiomes. We discover a prevalent, previously uncharacterized catechol dehydroxylase (Gp Hcdh) from Gordonibacter pamelaeae that dehydroxylates hydrocaffeic acid (HCA), an anti-inflammatory gut microbial metabolite derived from plant-based foods. Further analyses suggest that the activity of Gp Hcdh may reduce anti-inflammatory benefits of polyphenol-rich foods. Together, these results show the utility of combining MTX analysis and biochemical characterization for gut microbial enzyme discovery and reveal a potential link between host inflammation and a specific polyphenol-metabolizing gut microbial enzyme.

Original language	English
Pages (from-to)	1887-1896.e8
Journal	Cell Host and Microbe
Volume	32
Issue number	11
DOIs	https://doi.org/10.1016/j.chom.2024.10.002
State	Published - 13 Nov 2024
Externally published	Yes

Keywords

catechol dehydroxylase
diet
gut microbe
inflammation
metatranscriptomics
polyphenol

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10.1016/j.chom.2024.10.002

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@article{cd04a99d824943eb8bd4dc0e8614570c,

title = "Metatranscriptomics-guided discovery and characterization of a polyphenol-metabolizing gut microbial enzyme",

abstract = "Gut microbial catechol dehydroxylases are a largely uncharacterized family of metalloenzymes that potentially impact human health by metabolizing dietary polyphenols. Here, we use metatranscriptomics (MTX) to identify highly transcribed catechol-dehydroxylase-encoding genes in human gut microbiomes. We discover a prevalent, previously uncharacterized catechol dehydroxylase (Gp Hcdh) from Gordonibacter pamelaeae that dehydroxylates hydrocaffeic acid (HCA), an anti-inflammatory gut microbial metabolite derived from plant-based foods. Further analyses suggest that the activity of Gp Hcdh may reduce anti-inflammatory benefits of polyphenol-rich foods. Together, these results show the utility of combining MTX analysis and biochemical characterization for gut microbial enzyme discovery and reveal a potential link between host inflammation and a specific polyphenol-metabolizing gut microbial enzyme.",

keywords = "catechol dehydroxylase, diet, gut microbe, inflammation, metatranscriptomics, polyphenol",

author = "Minwoo Bae and Chi Le and Mehta, {Raaj S.} and Xueyang Dong and Pieper, {Lindsey M.} and Lorenzo Ramirez and Margaret Alexander and Sina Kiamehr and Turnbaugh, {Peter J.} and Curtis Huttenhower and Chan, {Andrew T.} and Balskus, {Emily P.}",

note = "Publisher Copyright: {\textcopyright} 2024 The Authors",

year = "2024",

month = nov,

day = "13",

doi = "10.1016/j.chom.2024.10.002",

language = "English",

volume = "32",

pages = "1887--1896.e8",

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TY - JOUR

T1 - Metatranscriptomics-guided discovery and characterization of a polyphenol-metabolizing gut microbial enzyme

AU - Bae, Minwoo

AU - Le, Chi

AU - Mehta, Raaj S.

AU - Dong, Xueyang

AU - Pieper, Lindsey M.

AU - Ramirez, Lorenzo

AU - Alexander, Margaret

AU - Kiamehr, Sina

AU - Turnbaugh, Peter J.

AU - Huttenhower, Curtis

AU - Chan, Andrew T.

AU - Balskus, Emily P.

PY - 2024/11/13

Y1 - 2024/11/13

N2 - Gut microbial catechol dehydroxylases are a largely uncharacterized family of metalloenzymes that potentially impact human health by metabolizing dietary polyphenols. Here, we use metatranscriptomics (MTX) to identify highly transcribed catechol-dehydroxylase-encoding genes in human gut microbiomes. We discover a prevalent, previously uncharacterized catechol dehydroxylase (Gp Hcdh) from Gordonibacter pamelaeae that dehydroxylates hydrocaffeic acid (HCA), an anti-inflammatory gut microbial metabolite derived from plant-based foods. Further analyses suggest that the activity of Gp Hcdh may reduce anti-inflammatory benefits of polyphenol-rich foods. Together, these results show the utility of combining MTX analysis and biochemical characterization for gut microbial enzyme discovery and reveal a potential link between host inflammation and a specific polyphenol-metabolizing gut microbial enzyme.

AB - Gut microbial catechol dehydroxylases are a largely uncharacterized family of metalloenzymes that potentially impact human health by metabolizing dietary polyphenols. Here, we use metatranscriptomics (MTX) to identify highly transcribed catechol-dehydroxylase-encoding genes in human gut microbiomes. We discover a prevalent, previously uncharacterized catechol dehydroxylase (Gp Hcdh) from Gordonibacter pamelaeae that dehydroxylates hydrocaffeic acid (HCA), an anti-inflammatory gut microbial metabolite derived from plant-based foods. Further analyses suggest that the activity of Gp Hcdh may reduce anti-inflammatory benefits of polyphenol-rich foods. Together, these results show the utility of combining MTX analysis and biochemical characterization for gut microbial enzyme discovery and reveal a potential link between host inflammation and a specific polyphenol-metabolizing gut microbial enzyme.

KW - catechol dehydroxylase

KW - diet

KW - gut microbe

KW - inflammation

KW - metatranscriptomics

KW - polyphenol

UR - http://www.scopus.com/inward/record.url?scp=85207744222&partnerID=8YFLogxK

U2 - 10.1016/j.chom.2024.10.002

DO - 10.1016/j.chom.2024.10.002

M3 - Article

AN - SCOPUS:85207744222

SN - 1931-3128

VL - 32

SP - 1887-1896.e8

JO - Cell Host and Microbe

JF - Cell Host and Microbe

IS - 11

ER -

Metatranscriptomics-guided discovery and characterization of a polyphenol-metabolizing gut microbial enzyme

Abstract

Keywords

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