Air pollution exposure is associated with the gut microbiome as revealed by shotgun metagenomic sequencing

Farnaz Fouladi; Maximilian J. Bailey; William B. Patterson; Michael Sioda; Ivory C. Blakley; Anthony A. Fodor; Roshonda B. Jones; Zhanghua Chen; Jeniffer S. Kim; Frederick Lurmann; Cameron Martino; Rob Knight; Frank D. Gilliland; Tanya L. Alderete

doi:10.1016/j.envint.2020.105604

Air pollution exposure is associated with the gut microbiome as revealed by shotgun metagenomic sequencing

Farnaz Fouladi
, Maximilian J. Bailey
, William B. Patterson
, Michael Sioda
, Ivory C. Blakley
, Anthony A. Fodor
, Roshonda B. Jones
, Zhanghua Chen
, Jeniffer S. Kim
, Frederick Lurmann
, Cameron Martino
, Rob Knight
, Frank D. Gilliland
, Tanya L. Alderete

Biology

University of North Carolina at Charlotte
University of Colorado Boulder
Children's Hospital Los Angeles
University of Southern California
Sonoma Technology
Center for Microbiome Innovation
University of California, San Diego
Department of Computer Science and Engineering

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

156 Scopus citations

Abstract

Animal work indicates exposure to air pollutants may alter the composition of the gut microbiota. This study examined relationships between air pollutants and the gut microbiome in young adults residing in Southern California. Our results demonstrate significant associations between exposure to air pollutants and the composition of the gut microbiome using whole-genome sequencing. Higher exposure to 24-hour O3 was associated with lower Shannon diversity index, higher Bacteroides caecimuris, and multiple gene pathways, including L-ornithine de novo biosynthesis as well as pantothenate and coenzyme A biosynthesis I. Among other pollutants, higher NO2 exposure was associated with fewer taxa, including higher Firmicutes. The percent variation in gut bacterial composition that was explained by air pollution exposure was up to 11.2% for O3 concentrations, which is large compared to the effect size for many other covariates reported in healthy populations. This study provides the first evidence of significant associations between exposure to air pollutants and the compositional and functional profile of the human gut microbiome. These results identify O3 as an important pollutant that may alter the human gut microbiome.

Original language	English
Article number	105604
Journal	Environment International
Volume	138
Issue number	Issue
DOIs	https://doi.org/10.1016/j.envint.2020.105604
State	Published - May 1 2020

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

Air pollution
Gut microbiome
Whole genome sequencing

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10.1016/j.envint.2020.105604

Cite this

Fouladi, F., Bailey, M. J., Patterson, W. B., Sioda, M., Blakley, I. C., Fodor, A. A., Jones, R. B., Chen, Z., Kim, J. S., Lurmann, F., Martino, C., Knight, R., Gilliland, F. D., & Alderete, T. L. (2020). Air pollution exposure is associated with the gut microbiome as revealed by shotgun metagenomic sequencing. Environment International, 138(Issue), Article 105604. https://doi.org/10.1016/j.envint.2020.105604

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title = "Air pollution exposure is associated with the gut microbiome as revealed by shotgun metagenomic sequencing",

abstract = "Animal work indicates exposure to air pollutants may alter the composition of the gut microbiota. This study examined relationships between air pollutants and the gut microbiome in young adults residing in Southern California. Our results demonstrate significant associations between exposure to air pollutants and the composition of the gut microbiome using whole-genome sequencing. Higher exposure to 24-hour O3 was associated with lower Shannon diversity index, higher Bacteroides caecimuris, and multiple gene pathways, including L-ornithine de novo biosynthesis as well as pantothenate and coenzyme A biosynthesis I. Among other pollutants, higher NO2 exposure was associated with fewer taxa, including higher Firmicutes. The percent variation in gut bacterial composition that was explained by air pollution exposure was up to 11.2\% for O3 concentrations, which is large compared to the effect size for many other covariates reported in healthy populations. This study provides the first evidence of significant associations between exposure to air pollutants and the compositional and functional profile of the human gut microbiome. These results identify O3 as an important pollutant that may alter the human gut microbiome.",

keywords = "Air pollution, Gut microbiome, Whole genome sequencing",

author = "Farnaz Fouladi and Bailey, \{Maximilian J.\} and Patterson, \{William B.\} and Michael Sioda and Blakley, \{Ivory C.\} and Fodor, \{Anthony A.\} and Jones, \{Roshonda B.\} and Zhanghua Chen and Kim, \{Jeniffer S.\} and Frederick Lurmann and Cameron Martino and Rob Knight and Gilliland, \{Frank D.\} and Alderete, \{Tanya L.\}",

year = "2020",

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doi = "10.1016/j.envint.2020.105604",

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Fouladi, F, Bailey, MJ, Patterson, WB, Sioda, M, Blakley, IC, Fodor, AA, Jones, RB, Chen, Z, Kim, JS, Lurmann, F, Martino, C, Knight, R, Gilliland, FD & Alderete, TL 2020, 'Air pollution exposure is associated with the gut microbiome as revealed by shotgun metagenomic sequencing', Environment International, vol. 138, no. Issue, 105604. https://doi.org/10.1016/j.envint.2020.105604

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AU - Fouladi, Farnaz

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AU - Fodor, Anthony A.

AU - Jones, Roshonda B.

AU - Chen, Zhanghua

AU - Kim, Jeniffer S.

AU - Lurmann, Frederick

AU - Martino, Cameron

AU - Knight, Rob

AU - Gilliland, Frank D.

AU - Alderete, Tanya L.

PY - 2020/5/1

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N2 - Animal work indicates exposure to air pollutants may alter the composition of the gut microbiota. This study examined relationships between air pollutants and the gut microbiome in young adults residing in Southern California. Our results demonstrate significant associations between exposure to air pollutants and the composition of the gut microbiome using whole-genome sequencing. Higher exposure to 24-hour O3 was associated with lower Shannon diversity index, higher Bacteroides caecimuris, and multiple gene pathways, including L-ornithine de novo biosynthesis as well as pantothenate and coenzyme A biosynthesis I. Among other pollutants, higher NO2 exposure was associated with fewer taxa, including higher Firmicutes. The percent variation in gut bacterial composition that was explained by air pollution exposure was up to 11.2% for O3 concentrations, which is large compared to the effect size for many other covariates reported in healthy populations. This study provides the first evidence of significant associations between exposure to air pollutants and the compositional and functional profile of the human gut microbiome. These results identify O3 as an important pollutant that may alter the human gut microbiome.

AB - Animal work indicates exposure to air pollutants may alter the composition of the gut microbiota. This study examined relationships between air pollutants and the gut microbiome in young adults residing in Southern California. Our results demonstrate significant associations between exposure to air pollutants and the composition of the gut microbiome using whole-genome sequencing. Higher exposure to 24-hour O3 was associated with lower Shannon diversity index, higher Bacteroides caecimuris, and multiple gene pathways, including L-ornithine de novo biosynthesis as well as pantothenate and coenzyme A biosynthesis I. Among other pollutants, higher NO2 exposure was associated with fewer taxa, including higher Firmicutes. The percent variation in gut bacterial composition that was explained by air pollution exposure was up to 11.2% for O3 concentrations, which is large compared to the effect size for many other covariates reported in healthy populations. This study provides the first evidence of significant associations between exposure to air pollutants and the compositional and functional profile of the human gut microbiome. These results identify O3 as an important pollutant that may alter the human gut microbiome.

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KW - Whole genome sequencing

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Air pollution exposure is associated with the gut microbiome as revealed by shotgun metagenomic sequencing

Abstract

UN SDGs

Keywords

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