The infant gut resistome associates with E. coli, environmental exposures, gut microbiome maturity, and asthma-associated bacterial composition

Xuanji Li; Jakob Stokholm; Asker Daniel Brejnrod; Gisle Alberg Vestergaard; Jakob Russel; Urvish Trivedi; Jonathan Thorsen; Shashank Gupta; Mathis Hjort Hjelmsø; Shiraz A Shah; Morten Arendt Rasmussen; Hans Bisgaard; Søren Johannes Sørensen

doi:10.1016/j.chom.2021.03.017

The infant gut resistome associates with E. coli, environmental exposures, gut microbiome maturity, and asthma-associated bacterial composition

Xuanji Li, Jakob Stokholm, Asker Daniel Brejnrod, Gisle Alberg Vestergaard, Jakob Russel, Urvish Trivedi, Jonathan Thorsen, Shashank Gupta, Mathis Hjort Hjelmsø, Shiraz A Shah, Morten Arendt Rasmussen, Hans Bisgaard, Søren Johannes Sørensen

83 Citationer (Scopus)

Abstract

Antimicrobial resistance (AMR) is an accelerating global threat, yet the nature of AMR in the gut microbiome and how AMR is acquired during early life remain largely unknown. In a cohort of 662 Danish children, we characterized the antibiotic resistance genes (ARGs) acquired during the first year of life and assessed the impacts of diverse environmental exposures on ARG load. Our study reveals a clear bimodal distribution of ARG richness that is driven by the composition of the gut microbiome, especially E. coli. ARG profiles were significantly affected by various environmental factors. Among these factors, the importance of antibiotics diminished with time since treatment. Finally, ARG load and ARG clusters were also associated with the maturity of the gut microbiome and a bacterial composition associated with increased risk of asthma. These findings broaden our understanding of AMR in early life and have critical implications for efforts to mitigate its spread.

Originalsprog	Engelsk
Tidsskrift	Cell Host & Microbe
Vol/bind	29
Udgave nummer	6
Sider (fra-til)	975-987.e4
ISSN	1931-3128
DOI	https://doi.org/10.1016/j.chom.2021.03.017
Status	Udgivet - 9 jun. 2021

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10.1016/j.chom.2021.03.017

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Li, X., Stokholm, J., Brejnrod, A. D., Vestergaard, G. A., Russel, J., Trivedi, U., Thorsen, J., Gupta, S., Hjelmsø, M. H., Shah, S. A., Rasmussen, M. A., Bisgaard, H., & Sørensen, S. J. (2021). The infant gut resistome associates with E. coli, environmental exposures, gut microbiome maturity, and asthma-associated bacterial composition. Cell Host & Microbe, 29(6), 975-987.e4. https://doi.org/10.1016/j.chom.2021.03.017

Li, X, Stokholm, J, Brejnrod, AD, Vestergaard, GA, Russel, J, Trivedi, U, Thorsen, J, Gupta, S, Hjelmsø, MH, Shah, SA , Rasmussen, MA, Bisgaard, H & Sørensen, SJ 2021, 'The infant gut resistome associates with E. coli, environmental exposures, gut microbiome maturity, and asthma-associated bacterial composition', Cell Host & Microbe, bind 29, nr. 6, s. 975-987.e4. https://doi.org/10.1016/j.chom.2021.03.017

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abstract = "Antimicrobial resistance (AMR) is an accelerating global threat, yet the nature of AMR in the gut microbiome and how AMR is acquired during early life remain largely unknown. In a cohort of 662 Danish children, we characterized the antibiotic resistance genes (ARGs) acquired during the first year of life and assessed the impacts of diverse environmental exposures on ARG load. Our study reveals a clear bimodal distribution of ARG richness that is driven by the composition of the gut microbiome, especially E. coli. ARG profiles were significantly affected by various environmental factors. Among these factors, the importance of antibiotics diminished with time since treatment. Finally, ARG load and ARG clusters were also associated with the maturity of the gut microbiome and a bacterial composition associated with increased risk of asthma. These findings broaden our understanding of AMR in early life and have critical implications for efforts to mitigate its spread.",

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AU - Trivedi, Urvish

AU - Thorsen, Jonathan

AU - Gupta, Shashank

AU - Hjelmsø, Mathis Hjort

AU - Shah, Shiraz A

AU - Rasmussen, Morten Arendt

AU - Bisgaard, Hans

AU - Sørensen, Søren Johannes

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KW - Escherichia coli/drug effects

KW - Feces/microbiology

KW - Female

KW - Gastrointestinal Microbiome/drug effects

KW - Genes, Bacterial

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KW - Infant

KW - Infant, Newborn

KW - Male

KW - Metagenomics

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KW - Proteobacteria/drug effects

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The infant gut resistome associates with E. coli, environmental exposures, gut microbiome maturity, and asthma-associated bacterial composition

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