Heavy Metal Toxicity in Armed Conflicts Potentiates AMR in A. baumannii by Selecting for Antibiotic and Heavy Metal Co-resistance Mechanisms

Wael Bazzi; Antoine G. Abou Fayad; Aya Nasser; Louis Patrick Haraoui; Omar Dewachi; Ghassan Abou-Sitta; Vinh Kim Nguyen; Aula Abara; Nabil Karah; Hannah Landecker; Charles Knapp; Megan M. McEvoy; Muhammad H. Zaman; Paul G. Higgins; Ghassan M. Matar

doi:10.3389/fmicb.2020.00068

Heavy Metal Toxicity in Armed Conflicts Potentiates AMR in A. baumannii by Selecting for Antibiotic and Heavy Metal Co-resistance Mechanisms

Wael Bazzi, Antoine G. Abou Fayad, Aya Nasser, Louis Patrick Haraoui, Omar Dewachi, Ghassan Abou-Sitta, Vinh Kim Nguyen, Aula Abara, Nabil Karah, Hannah Landecker, Charles Knapp, Megan M. McEvoy, Muhammad H. Zaman, Paul G. Higgins, Ghassan M. Matar

SAS - Anthropology

Research output: Contribution to journal › Review article › peer-review

34 Scopus citations

Abstract

Acinetobacter baumannii has become increasingly resistant to leading antimicrobial agents since the 1970s. Increased resistance appears linked to armed conflicts, notably since widespread media stories amplified clinical reports in the wake of the American invasion of Iraq in 2003. Antimicrobial resistance is usually assumed to arise through selection pressure exerted by antimicrobial treatment, particularly where treatment is inadequate, as in the case of low dosing, substandard antimicrobial agents, or shortened treatment course. Recently attention has focused on an emerging pathogen, multi-drug resistant A. baumannii (MDRAb). MDRAb gained media attention after being identified in American soldiers returning from Iraq and treated in US military facilities, where it was termed “Iraqibacter.” However, MDRAb is strongly associated in the literature with war injuries that are heavily contaminated by both environmental debris and shrapnel from weapons. Both may harbor substantial amounts of toxic heavy metals. Interestingly, heavy metals are known to also select for antimicrobial resistance. In this review we highlight the potential causes of antimicrobial resistance by heavy metals, with a focus on its emergence in A. baumanni in war zones.

Original language	English (US)
Article number	68
Journal	Frontiers in Microbiology
Volume	11
DOIs	https://doi.org/10.3389/fmicb.2020.00068
State	Published - Feb 3 2020

All Science Journal Classification (ASJC) codes

Microbiology
Microbiology (medical)

Keywords

Acinetobacter baumannii
antimicrobial resistance
bacteria
conflict
heavy metal tolerance
heavy metals
weapons

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10.3389/fmicb.2020.00068

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Bazzi, W., Abou Fayad, A. G., Nasser, A., Haraoui, L. P., Dewachi, O., Abou-Sitta, G., Nguyen, V. K., Abara, A., Karah, N., Landecker, H., Knapp, C., McEvoy, M. M., Zaman, M. H., Higgins, P. G., & Matar, G. M. (2020). Heavy Metal Toxicity in Armed Conflicts Potentiates AMR in A. baumannii by Selecting for Antibiotic and Heavy Metal Co-resistance Mechanisms. Frontiers in Microbiology, 11, [68]. https://doi.org/10.3389/fmicb.2020.00068

Bazzi, Wael ; Abou Fayad, Antoine G. ; Nasser, Aya ; Haraoui, Louis Patrick ; Dewachi, Omar ; Abou-Sitta, Ghassan ; Nguyen, Vinh Kim ; Abara, Aula ; Karah, Nabil ; Landecker, Hannah ; Knapp, Charles ; McEvoy, Megan M. ; Zaman, Muhammad H. ; Higgins, Paul G. ; Matar, Ghassan M. / Heavy Metal Toxicity in Armed Conflicts Potentiates AMR in A. baumannii by Selecting for Antibiotic and Heavy Metal Co-resistance Mechanisms. In: Frontiers in Microbiology. 2020 ; Vol. 11.

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title = "Heavy Metal Toxicity in Armed Conflicts Potentiates AMR in A. baumannii by Selecting for Antibiotic and Heavy Metal Co-resistance Mechanisms",

abstract = "Acinetobacter baumannii has become increasingly resistant to leading antimicrobial agents since the 1970s. Increased resistance appears linked to armed conflicts, notably since widespread media stories amplified clinical reports in the wake of the American invasion of Iraq in 2003. Antimicrobial resistance is usually assumed to arise through selection pressure exerted by antimicrobial treatment, particularly where treatment is inadequate, as in the case of low dosing, substandard antimicrobial agents, or shortened treatment course. Recently attention has focused on an emerging pathogen, multi-drug resistant A. baumannii (MDRAb). MDRAb gained media attention after being identified in American soldiers returning from Iraq and treated in US military facilities, where it was termed “Iraqibacter.” However, MDRAb is strongly associated in the literature with war injuries that are heavily contaminated by both environmental debris and shrapnel from weapons. Both may harbor substantial amounts of toxic heavy metals. Interestingly, heavy metals are known to also select for antimicrobial resistance. In this review we highlight the potential causes of antimicrobial resistance by heavy metals, with a focus on its emergence in A. baumanni in war zones.",

keywords = "Acinetobacter baumannii, antimicrobial resistance, bacteria, conflict, heavy metal tolerance, heavy metals, weapons",

author = "Wael Bazzi and {Abou Fayad}, {Antoine G.} and Aya Nasser and Haraoui, {Louis Patrick} and Omar Dewachi and Ghassan Abou-Sitta and Nguyen, {Vinh Kim} and Aula Abara and Nabil Karah and Hannah Landecker and Charles Knapp and McEvoy, {Megan M.} and Zaman, {Muhammad H.} and Higgins, {Paul G.} and Matar, {Ghassan M.}",

note = "Funding Information: This project was part of the War, AntiMicrobial Resistance, and Acinetobacter baumannii (WAMRA) consortium and was supported by the Medical Practice Plan, Faculty of Medicine, American University of Beirut. Publisher Copyright: {\textcopyright} Copyright {\textcopyright} 2020 Bazzi, Abou Fayad, Nasser, Haraoui, Dewachi, Abou-Sitta, Nguyen, Abara, Karah, Landecker, Knapp, McEvoy, Zaman, Higgins and Matar.",

year = "2020",

month = feb,

day = "3",

doi = "10.3389/fmicb.2020.00068",

language = "English (US)",

volume = "11",

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Bazzi, W, Abou Fayad, AG, Nasser, A, Haraoui, LP, Dewachi, O, Abou-Sitta, G, Nguyen, VK, Abara, A, Karah, N, Landecker, H, Knapp, C, McEvoy, MM, Zaman, MH, Higgins, PG & Matar, GM 2020, 'Heavy Metal Toxicity in Armed Conflicts Potentiates AMR in A. baumannii by Selecting for Antibiotic and Heavy Metal Co-resistance Mechanisms', Frontiers in Microbiology, vol. 11, 68. https://doi.org/10.3389/fmicb.2020.00068

Heavy Metal Toxicity in Armed Conflicts Potentiates AMR in A. baumannii by Selecting for Antibiotic and Heavy Metal Co-resistance Mechanisms. / Bazzi, Wael; Abou Fayad, Antoine G.; Nasser, Aya; Haraoui, Louis Patrick; Dewachi, Omar; Abou-Sitta, Ghassan; Nguyen, Vinh Kim; Abara, Aula; Karah, Nabil; Landecker, Hannah; Knapp, Charles; McEvoy, Megan M.; Zaman, Muhammad H.; Higgins, Paul G.; Matar, Ghassan M.

In: Frontiers in Microbiology, Vol. 11, 68, 03.02.2020.

Research output: Contribution to journal › Review article › peer-review

TY - JOUR

T1 - Heavy Metal Toxicity in Armed Conflicts Potentiates AMR in A. baumannii by Selecting for Antibiotic and Heavy Metal Co-resistance Mechanisms

AU - Bazzi, Wael

AU - Abou Fayad, Antoine G.

AU - Nasser, Aya

AU - Haraoui, Louis Patrick

AU - Dewachi, Omar

AU - Abou-Sitta, Ghassan

AU - Nguyen, Vinh Kim

AU - Abara, Aula

AU - Karah, Nabil

AU - Landecker, Hannah

AU - Knapp, Charles

AU - McEvoy, Megan M.

AU - Zaman, Muhammad H.

AU - Higgins, Paul G.

AU - Matar, Ghassan M.

N1 - Funding Information: This project was part of the War, AntiMicrobial Resistance, and Acinetobacter baumannii (WAMRA) consortium and was supported by the Medical Practice Plan, Faculty of Medicine, American University of Beirut. Publisher Copyright: © Copyright © 2020 Bazzi, Abou Fayad, Nasser, Haraoui, Dewachi, Abou-Sitta, Nguyen, Abara, Karah, Landecker, Knapp, McEvoy, Zaman, Higgins and Matar.

PY - 2020/2/3

Y1 - 2020/2/3

N2 - Acinetobacter baumannii has become increasingly resistant to leading antimicrobial agents since the 1970s. Increased resistance appears linked to armed conflicts, notably since widespread media stories amplified clinical reports in the wake of the American invasion of Iraq in 2003. Antimicrobial resistance is usually assumed to arise through selection pressure exerted by antimicrobial treatment, particularly where treatment is inadequate, as in the case of low dosing, substandard antimicrobial agents, or shortened treatment course. Recently attention has focused on an emerging pathogen, multi-drug resistant A. baumannii (MDRAb). MDRAb gained media attention after being identified in American soldiers returning from Iraq and treated in US military facilities, where it was termed “Iraqibacter.” However, MDRAb is strongly associated in the literature with war injuries that are heavily contaminated by both environmental debris and shrapnel from weapons. Both may harbor substantial amounts of toxic heavy metals. Interestingly, heavy metals are known to also select for antimicrobial resistance. In this review we highlight the potential causes of antimicrobial resistance by heavy metals, with a focus on its emergence in A. baumanni in war zones.

AB - Acinetobacter baumannii has become increasingly resistant to leading antimicrobial agents since the 1970s. Increased resistance appears linked to armed conflicts, notably since widespread media stories amplified clinical reports in the wake of the American invasion of Iraq in 2003. Antimicrobial resistance is usually assumed to arise through selection pressure exerted by antimicrobial treatment, particularly where treatment is inadequate, as in the case of low dosing, substandard antimicrobial agents, or shortened treatment course. Recently attention has focused on an emerging pathogen, multi-drug resistant A. baumannii (MDRAb). MDRAb gained media attention after being identified in American soldiers returning from Iraq and treated in US military facilities, where it was termed “Iraqibacter.” However, MDRAb is strongly associated in the literature with war injuries that are heavily contaminated by both environmental debris and shrapnel from weapons. Both may harbor substantial amounts of toxic heavy metals. Interestingly, heavy metals are known to also select for antimicrobial resistance. In this review we highlight the potential causes of antimicrobial resistance by heavy metals, with a focus on its emergence in A. baumanni in war zones.

KW - Acinetobacter baumannii

KW - antimicrobial resistance

KW - bacteria

KW - conflict

KW - heavy metal tolerance

KW - heavy metals

KW - weapons

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UR - http://www.scopus.com/inward/citedby.url?scp=85079636790&partnerID=8YFLogxK

U2 - 10.3389/fmicb.2020.00068

DO - 10.3389/fmicb.2020.00068

M3 - Review article

AN - SCOPUS:85079636790

VL - 11

JO - Frontiers in Microbiology

JF - Frontiers in Microbiology

SN - 1664-302X

M1 - 68

ER -

Heavy Metal Toxicity in Armed Conflicts Potentiates AMR in A. baumannii by Selecting for Antibiotic and Heavy Metal Co-resistance Mechanisms

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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