Prevalence and mechanism of fluoroquinolone resistance in clinical isolates of Proteus mirabilis in Japan

Fluoroquinolone (FQ) and cephalosporin (CEP) resistance among Enterobacteriaceae has been increasingly reported. FQ resistance occurs primarily through mutations in DNA gyrase (gyrA and gyrB) and topoisomerase IV (parC and parE). CEP resistance in Enterobacteriaceae is mainly due to the production o...

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Autores principales: Nakano, Ryuichi, Nakano, Akiyo, Abe, Michiko, Nagano, Noriyuki, Asahara, Miwa, Furukawa, Taiji, Ono, Yasuo, Yano, Hisakazu, Okamoto, Ryoichi
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2019
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6403068/
https://www.ncbi.nlm.nih.gov/pubmed/30886932
http://dx.doi.org/10.1016/j.heliyon.2019.e01291
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author Nakano, Ryuichi
Nakano, Akiyo
Abe, Michiko
Nagano, Noriyuki
Asahara, Miwa
Furukawa, Taiji
Ono, Yasuo
Yano, Hisakazu
Okamoto, Ryoichi
author_facet Nakano, Ryuichi
Nakano, Akiyo
Abe, Michiko
Nagano, Noriyuki
Asahara, Miwa
Furukawa, Taiji
Ono, Yasuo
Yano, Hisakazu
Okamoto, Ryoichi
author_sort Nakano, Ryuichi
collection PubMed
description Fluoroquinolone (FQ) and cephalosporin (CEP) resistance among Enterobacteriaceae has been increasingly reported. FQ resistance occurs primarily through mutations in DNA gyrase (gyrA and gyrB) and topoisomerase IV (parC and parE). CEP resistance in Enterobacteriaceae is mainly due to the production of CTX-M type extended-spectrum β-lactamases. Although prevalence and mechanisms of FQ and CEP resistance in Enterobacteriaceae such as Escherichia coli have been well studied, little is known about Proteus mirabilis in Japan. In this study, we assessed the prevalence and mechanism of FQ resistance in Japanese clinical isolates of P. mirabilis. We collected 5845 P. mirabilis isolates from eight hospitals between 2000 and 2013. Prevalence of FQ resistance was calculated as the annual average percentage of all P. mirabilis isolates. We selected 50 isolates exhibiting susceptibility, intermediate resistance, or resistance to levofloxacin (LVX) and identified amino acid substitutions in GyrA, GyrB, ParC, and ParE. The prevalence of FQ-resistant P. mirabilis gradually increased from 2001 to 2004, reaching 16.6% in 2005, and has remained relatively high (13.3–17.5%) since then. Low-level LVX-resistant strains (MIC, 8–16 mg/L) showed significant changes in GyrB (S464Y or -I, or E466D). High-level LVX-resistant strains (MIC, 32–128 mg/L) displayed significant changes in GyrA (E87K) and ParE (D420N). The highest-level LVX-resistant strains (MIC, ≥ 256 mg/L) presented significant changes in GyrA (E87K or -G), GyrB (S464I or -F), and ParE (D420N). Our findings suggest that substitutions in GyrA (E87) and ParE (D420) have played an important role in the emergence of high-level LVX-resistant P. mirabilis isolates (MIC, ≥ 32 mg/L) in Japan.
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spelling pubmed-64030682019-03-18 Prevalence and mechanism of fluoroquinolone resistance in clinical isolates of Proteus mirabilis in Japan Nakano, Ryuichi Nakano, Akiyo Abe, Michiko Nagano, Noriyuki Asahara, Miwa Furukawa, Taiji Ono, Yasuo Yano, Hisakazu Okamoto, Ryoichi Heliyon Article Fluoroquinolone (FQ) and cephalosporin (CEP) resistance among Enterobacteriaceae has been increasingly reported. FQ resistance occurs primarily through mutations in DNA gyrase (gyrA and gyrB) and topoisomerase IV (parC and parE). CEP resistance in Enterobacteriaceae is mainly due to the production of CTX-M type extended-spectrum β-lactamases. Although prevalence and mechanisms of FQ and CEP resistance in Enterobacteriaceae such as Escherichia coli have been well studied, little is known about Proteus mirabilis in Japan. In this study, we assessed the prevalence and mechanism of FQ resistance in Japanese clinical isolates of P. mirabilis. We collected 5845 P. mirabilis isolates from eight hospitals between 2000 and 2013. Prevalence of FQ resistance was calculated as the annual average percentage of all P. mirabilis isolates. We selected 50 isolates exhibiting susceptibility, intermediate resistance, or resistance to levofloxacin (LVX) and identified amino acid substitutions in GyrA, GyrB, ParC, and ParE. The prevalence of FQ-resistant P. mirabilis gradually increased from 2001 to 2004, reaching 16.6% in 2005, and has remained relatively high (13.3–17.5%) since then. Low-level LVX-resistant strains (MIC, 8–16 mg/L) showed significant changes in GyrB (S464Y or -I, or E466D). High-level LVX-resistant strains (MIC, 32–128 mg/L) displayed significant changes in GyrA (E87K) and ParE (D420N). The highest-level LVX-resistant strains (MIC, ≥ 256 mg/L) presented significant changes in GyrA (E87K or -G), GyrB (S464I or -F), and ParE (D420N). Our findings suggest that substitutions in GyrA (E87) and ParE (D420) have played an important role in the emergence of high-level LVX-resistant P. mirabilis isolates (MIC, ≥ 32 mg/L) in Japan. Elsevier 2019-03-02 /pmc/articles/PMC6403068/ /pubmed/30886932 http://dx.doi.org/10.1016/j.heliyon.2019.e01291 Text en © 2019 The Authors http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Nakano, Ryuichi
Nakano, Akiyo
Abe, Michiko
Nagano, Noriyuki
Asahara, Miwa
Furukawa, Taiji
Ono, Yasuo
Yano, Hisakazu
Okamoto, Ryoichi
Prevalence and mechanism of fluoroquinolone resistance in clinical isolates of Proteus mirabilis in Japan
title Prevalence and mechanism of fluoroquinolone resistance in clinical isolates of Proteus mirabilis in Japan
title_full Prevalence and mechanism of fluoroquinolone resistance in clinical isolates of Proteus mirabilis in Japan
title_fullStr Prevalence and mechanism of fluoroquinolone resistance in clinical isolates of Proteus mirabilis in Japan
title_full_unstemmed Prevalence and mechanism of fluoroquinolone resistance in clinical isolates of Proteus mirabilis in Japan
title_short Prevalence and mechanism of fluoroquinolone resistance in clinical isolates of Proteus mirabilis in Japan
title_sort prevalence and mechanism of fluoroquinolone resistance in clinical isolates of proteus mirabilis in japan
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6403068/
https://www.ncbi.nlm.nih.gov/pubmed/30886932
http://dx.doi.org/10.1016/j.heliyon.2019.e01291
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