Landscape of global urban environmental resistome and its association with local socioeconomic and medical status

Jun Wu; Yige Hu; Michael H. Perlin; David Danko; Jun Lu; Manuela Oliveira; Johannes Werner; Maria M. Zambrano; Maria A. Sierra; Olayinka O. Osuolale; Paweł Łabaj; Nicolás Rascovan; Nur Hazlin Hazrin-Chong; Soojin Jang; Haruo Suzuki; Marina Nieto-Caballero; Bharath Prithiviraj; Patrick K.H. Lee; Agnieszka Chmielarczyk; Anna Różańska; Yongxiang Zhao; Lan Wang; Christopher E. Mason; Tieliu Shi

doi:10.1007/s11427-023-2504-1

Landscape of global urban environmental resistome and its association with local socioeconomic and medical status

Jun Wu
, Yige Hu
, Michael H. Perlin
, David Danko
, Jun Lu
, Manuela Oliveira
, Johannes Werner
, Maria M. Zambrano
, Maria A. Sierra
, Olayinka O. Osuolale
, Paweł Łabaj
, Nicolás Rascovan
, Nur Hazlin Hazrin-Chong
, Soojin Jang
, Haruo Suzuki
, Marina Nieto-Caballero
, Bharath Prithiviraj
, Patrick K.H. Lee
, Agnieszka Chmielarczyk
, Anna Różańska

Yongxiang Zhao^*, Lan Wang^*, Christopher E. Mason^*, Tieliu Shi^*

^*Corresponding author for this work

School of Life Sciences

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

7 Scopus citations

Abstract

Antimicrobial resistance (AMR) poses a critical threat to global health and development, with environmental factors—particularly in urban areas—contributing significantly to the spread of antibiotic resistance genes (ARGs). However, most research to date has been conducted at a local level, leaving significant gaps in our understanding of the global status of antibiotic resistance in urban environments. To address this issue, we thoroughly analyzed a total of 86,213 ARGs detected within 4,728 metagenome samples, which were collected by the MetaSUB International Consortium involving diverse urban environments in 60 cities of 27 countries, utilizing a deep-learning based methodology. Our findings demonstrated the strong geographical specificity of urban environmental resistome, and their correlation with various local socioeconomic and medical conditions. We also identified distinctive evolutionary patterns of ARG-related biosynthetic gene clusters (BGCs) across different countries, and discovered that the urban environment represents a rich source of novel antibiotics. Our study provides a comprehensive overview of the global urban environmental resistome, and fills a significant gap in our knowledge of large-scale urban antibiotic resistome analysis.

Original language	English
Pages (from-to)	1292-1301
Number of pages	10
Journal	Science China Life Sciences
Volume	67
Issue number	6
DOIs	https://doi.org/10.1007/s11427-023-2504-1
State	Published - Jun 2024

Keywords

antibiotic resistance
biosynthetic gene clusters
metagenome
resistance diversity
urban environment

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10.1007/s11427-023-2504-1

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Wu, J., Hu, Y., Perlin, M. H., Danko, D., Lu, J., Oliveira, M., Werner, J., Zambrano, M. M., Sierra, M. A., Osuolale, O. O., Łabaj, P., Rascovan, N., Hazrin-Chong, N. H., Jang, S., Suzuki, H., Nieto-Caballero, M., Prithiviraj, B., Lee, P. K. H., Chmielarczyk, A., ... Shi, T. (2024). Landscape of global urban environmental resistome and its association with local socioeconomic and medical status. Science China Life Sciences, 67(6), 1292-1301. https://doi.org/10.1007/s11427-023-2504-1

@article{6b4da8c49ec64ad6bdbc2038ddc3001b,

title = "Landscape of global urban environmental resistome and its association with local socioeconomic and medical status",

abstract = "Antimicrobial resistance (AMR) poses a critical threat to global health and development, with environmental factors—particularly in urban areas—contributing significantly to the spread of antibiotic resistance genes (ARGs). However, most research to date has been conducted at a local level, leaving significant gaps in our understanding of the global status of antibiotic resistance in urban environments. To address this issue, we thoroughly analyzed a total of 86,213 ARGs detected within 4,728 metagenome samples, which were collected by the MetaSUB International Consortium involving diverse urban environments in 60 cities of 27 countries, utilizing a deep-learning based methodology. Our findings demonstrated the strong geographical specificity of urban environmental resistome, and their correlation with various local socioeconomic and medical conditions. We also identified distinctive evolutionary patterns of ARG-related biosynthetic gene clusters (BGCs) across different countries, and discovered that the urban environment represents a rich source of novel antibiotics. Our study provides a comprehensive overview of the global urban environmental resistome, and fills a significant gap in our knowledge of large-scale urban antibiotic resistome analysis.",

keywords = "antibiotic resistance, biosynthetic gene clusters, metagenome, resistance diversity, urban environment",

author = "Jun Wu and Yige Hu and Perlin, \{Michael H.\} and David Danko and Jun Lu and Manuela Oliveira and Johannes Werner and Zambrano, \{Maria M.\} and Sierra, \{Maria A.\} and Osuolale, \{Olayinka O.\} and Pawe{\l} {\L}abaj and Nicol{\'a}s Rascovan and Hazrin-Chong, \{Nur Hazlin\} and Soojin Jang and Haruo Suzuki and Marina Nieto-Caballero and Bharath Prithiviraj and Lee, \{Patrick K.H.\} and Agnieszka Chmielarczyk and Anna R{\'o}{\.z}a{\'n}ska and Yongxiang Zhao and Lan Wang and Mason, \{Christopher E.\} and Tieliu Shi",

note = "Publisher Copyright: {\textcopyright} Science China Press 2024.",

year = "2024",

month = jun,

doi = "10.1007/s11427-023-2504-1",

language = "英语",

volume = "67",

pages = "1292--1301",

journal = "Science China Life Sciences",

issn = "1674-7305",

publisher = "Science China Press ",

number = "6",

}

Wu, J, Hu, Y, Perlin, MH, Danko, D, Lu, J, Oliveira, M, Werner, J, Zambrano, MM, Sierra, MA, Osuolale, OO, Łabaj, P, Rascovan, N, Hazrin-Chong, NH, Jang, S, Suzuki, H, Nieto-Caballero, M, Prithiviraj, B, Lee, PKH, Chmielarczyk, A, Różańska, A, Zhao, Y, Wang, L, Mason, CE & Shi, T 2024, 'Landscape of global urban environmental resistome and its association with local socioeconomic and medical status', Science China Life Sciences, vol. 67, no. 6, pp. 1292-1301. https://doi.org/10.1007/s11427-023-2504-1

TY - JOUR

T1 - Landscape of global urban environmental resistome and its association with local socioeconomic and medical status

AU - Wu, Jun

AU - Hu, Yige

AU - Perlin, Michael H.

AU - Danko, David

AU - Lu, Jun

AU - Oliveira, Manuela

AU - Werner, Johannes

AU - Zambrano, Maria M.

AU - Sierra, Maria A.

AU - Osuolale, Olayinka O.

AU - Łabaj, Paweł

AU - Rascovan, Nicolás

AU - Hazrin-Chong, Nur Hazlin

AU - Jang, Soojin

AU - Suzuki, Haruo

AU - Nieto-Caballero, Marina

AU - Prithiviraj, Bharath

AU - Lee, Patrick K.H.

AU - Chmielarczyk, Agnieszka

AU - Różańska, Anna

AU - Zhao, Yongxiang

AU - Wang, Lan

AU - Mason, Christopher E.

AU - Shi, Tieliu

PY - 2024/6

Y1 - 2024/6

N2 - Antimicrobial resistance (AMR) poses a critical threat to global health and development, with environmental factors—particularly in urban areas—contributing significantly to the spread of antibiotic resistance genes (ARGs). However, most research to date has been conducted at a local level, leaving significant gaps in our understanding of the global status of antibiotic resistance in urban environments. To address this issue, we thoroughly analyzed a total of 86,213 ARGs detected within 4,728 metagenome samples, which were collected by the MetaSUB International Consortium involving diverse urban environments in 60 cities of 27 countries, utilizing a deep-learning based methodology. Our findings demonstrated the strong geographical specificity of urban environmental resistome, and their correlation with various local socioeconomic and medical conditions. We also identified distinctive evolutionary patterns of ARG-related biosynthetic gene clusters (BGCs) across different countries, and discovered that the urban environment represents a rich source of novel antibiotics. Our study provides a comprehensive overview of the global urban environmental resistome, and fills a significant gap in our knowledge of large-scale urban antibiotic resistome analysis.

AB - Antimicrobial resistance (AMR) poses a critical threat to global health and development, with environmental factors—particularly in urban areas—contributing significantly to the spread of antibiotic resistance genes (ARGs). However, most research to date has been conducted at a local level, leaving significant gaps in our understanding of the global status of antibiotic resistance in urban environments. To address this issue, we thoroughly analyzed a total of 86,213 ARGs detected within 4,728 metagenome samples, which were collected by the MetaSUB International Consortium involving diverse urban environments in 60 cities of 27 countries, utilizing a deep-learning based methodology. Our findings demonstrated the strong geographical specificity of urban environmental resistome, and their correlation with various local socioeconomic and medical conditions. We also identified distinctive evolutionary patterns of ARG-related biosynthetic gene clusters (BGCs) across different countries, and discovered that the urban environment represents a rich source of novel antibiotics. Our study provides a comprehensive overview of the global urban environmental resistome, and fills a significant gap in our knowledge of large-scale urban antibiotic resistome analysis.

KW - antibiotic resistance

KW - biosynthetic gene clusters

KW - metagenome

KW - resistance diversity

KW - urban environment

UR - https://www.scopus.com/pages/publications/85187922522

U2 - 10.1007/s11427-023-2504-1

DO - 10.1007/s11427-023-2504-1

M3 - 文章

C2 - 38489008

AN - SCOPUS:85187922522

SN - 1674-7305

VL - 67

SP - 1292

EP - 1301

JO - Science China Life Sciences

JF - Science China Life Sciences

IS - 6

ER -

Landscape of global urban environmental resistome and its association with local socioeconomic and medical status

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Keywords

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