High prevalence of ArmA-16S rRNA methyltransferase among aminoglycoside-resistant Klebsiella pneumoniae bloodstream isolates

Burcu Isler; Caitlin Falconer; Cansel Vatansever; Berna Özer; Güle Çınar; Abdullah Tarık Aslan; Brian Forde; Patrick Harris; Funda Şimşek; Necla Tülek; Hamiyet Demirkaya; Şirin Menekşe; Halis Akalin; İlker İnanç Balkan; Mehtap Aydın; Elif Tükenmez Tigen; Safiye Koçulu Demir; Mahir Kapmaz; Şiran Keske; Özlem Doğan; Çiğdem Arabacı; Serap Yağcı; Gülşen Hazırolan; Veli Oğuzalp Bakır; Mehmet Gönen; Neşe Saltoğlu; Alpay Azap; Özlem Azap; Murat Akova; Önder Ergönül; Füsun Can; David L. Paterson

doi:10.1099/jmm.0.001629

High prevalence of ArmA-16S rRNA methyltransferase among aminoglycoside-resistant Klebsiella pneumoniae bloodstream isolates

Burcu Isler
, Caitlin Falconer
, Cansel Vatansever
, Berna Özer
, Güle Çınar
, Abdullah Tarık Aslan
, Brian Forde
, Patrick Harris
, Funda Şimşek
, Necla Tülek
, Hamiyet Demirkaya
, Şirin Menekşe
, Halis Akalin
, İlker İnanç Balkan
, Mehtap Aydın
, Elif Tükenmez Tigen
, Safiye Koçulu Demir
, Mahir Kapmaz
, Şiran Keske
, Özlem Doğan

Çiğdem Arabacı, Serap Yağcı, Gülşen Hazırolan, Veli Oğuzalp Bakır, Mehmet Gönen, Neşe Saltoğlu, Alpay Azap, Özlem Azap, Murat Akova, Önder Ergönül, Füsun Can, David L. Paterson

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

6 Citations (Scopus)

Abstract

Introduction. Aminoglycosides are used for the treatment of carbapenemase-producing Klebsiella pneumoniae (CPK) infections. 16S rRNA methyltransferases (RMTs) confer resistance to all aminoglycosides and are often cocarried with NDM. Hypothesis/Gap Statement. There is a dart of studies looking at the aminoglycoside resistance mechanisms for invasive CPK isolates, particularly in OXA-48 endemic settings. Aim. We aimed to determine the prevalence of RMTs and their association with beta lactamases and MLSTs amongst aminoglycoside-resistant CPK bloodstream isolates in an OXA-48 endemic setting. Methodology. CPK isolates (n=181), collected as part of a multicentre cohort study, were tested for amikacin, gentamicin and tobramycin susceptibility using custom-made sensititre plates (GN2XF, Thermo Fisher Scientific). All isolates were previously subjected to whole-genome sequencing. Carbapenemases, RMTs, MLSTs and plasmid incompatibility groups were detected on the assembled genomes. Results. Of the 181 isolates, 109(60%) were resistant to all three aminoglycosides, and 96 of 109(88%) aminoglycoside-resistant isolates carried an RMT (85 ArmA, 10 RmtC, 4 RmtF1; three isolates cocarried ArmA and RmtC). Main clonal types associated with ArmA were ST2096 (49/85, 58%) and ST14 (24/85, 28%), harbouring mainly OXA-232 and OXA-48 +NDM, respectively. RmtC was cocarried with NDM (5/10) on ST395, and NDM +OXA-48 or NDM +KPC (4/10) on ST14, ST15 and ST16. All RMT producers also carried CTX-M-15, and the majority cocarried SHV-106, TEM-150 and multiple other antibiotic resistance genes. The majority of the isolates harboured a combination of IncFIB, IncH and IncL/M type plasmids. Non-NDM producing isolates remained susceptible to ceftazidime-avibactam. Conclusion. Aminoglycoside resistance amongst CPK bloodstream isolates is extremely common and mainly driven by clonal spread of ArmA carried on ST2096 and ST14, associated with OXA-232 and OXA48 +NDM carriage, respectively.

Original language	English
Article number	001629
Journal	Journal of Medical Microbiology
Volume	71
Issue number	12
DOIs	https://doi.org/10.1099/jmm.0.001629
Publication status	Published - 2022

Keywords

16S rRNA methyltransferase
ArmA
Klebsiella pneumoniae
NDM
OXA-232
OXA-48
aminoglycoside resistance
bloodstream
carbapenem-resistant

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10.1099/jmm.0.001629

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Isler, B., Falconer, C., Vatansever, C., Özer, B., Çınar, G., Aslan, A. T., Forde, B., Harris, P., Şimşek, F., Tülek, N., Demirkaya, H., Menekşe, Ş., Akalin, H., Balkan, İ. İ., Aydın, M., Tigen, E. T., Demir, S. K., Kapmaz, M., Keske, Ş., ... Paterson, D. L. (2022). High prevalence of ArmA-16S rRNA methyltransferase among aminoglycoside-resistant Klebsiella pneumoniae bloodstream isolates. Journal of Medical Microbiology, 71(12), Article 001629. https://doi.org/10.1099/jmm.0.001629

@article{c1848e5fdeeb46bb9a06d19787e15d42,

title = "High prevalence of ArmA-16S rRNA methyltransferase among aminoglycoside-resistant Klebsiella pneumoniae bloodstream isolates",

abstract = "Introduction. Aminoglycosides are used for the treatment of carbapenemase-producing Klebsiella pneumoniae (CPK) infections. 16S rRNA methyltransferases (RMTs) confer resistance to all aminoglycosides and are often cocarried with NDM. Hypothesis/Gap Statement. There is a dart of studies looking at the aminoglycoside resistance mechanisms for invasive CPK isolates, particularly in OXA-48 endemic settings. Aim. We aimed to determine the prevalence of RMTs and their association with beta lactamases and MLSTs amongst aminoglycoside-resistant CPK bloodstream isolates in an OXA-48 endemic setting. Methodology. CPK isolates (n=181), collected as part of a multicentre cohort study, were tested for amikacin, gentamicin and tobramycin susceptibility using custom-made sensititre plates (GN2XF, Thermo Fisher Scientific). All isolates were previously subjected to whole-genome sequencing. Carbapenemases, RMTs, MLSTs and plasmid incompatibility groups were detected on the assembled genomes. Results. Of the 181 isolates, 109(60\%) were resistant to all three aminoglycosides, and 96 of 109(88\%) aminoglycoside-resistant isolates carried an RMT (85 ArmA, 10 RmtC, 4 RmtF1; three isolates cocarried ArmA and RmtC). Main clonal types associated with ArmA were ST2096 (49/85, 58\%) and ST14 (24/85, 28\%), harbouring mainly OXA-232 and OXA-48 +NDM, respectively. RmtC was cocarried with NDM (5/10) on ST395, and NDM +OXA-48 or NDM +KPC (4/10) on ST14, ST15 and ST16. All RMT producers also carried CTX-M-15, and the majority cocarried SHV-106, TEM-150 and multiple other antibiotic resistance genes. The majority of the isolates harboured a combination of IncFIB, IncH and IncL/M type plasmids. Non-NDM producing isolates remained susceptible to ceftazidime-avibactam. Conclusion. Aminoglycoside resistance amongst CPK bloodstream isolates is extremely common and mainly driven by clonal spread of ArmA carried on ST2096 and ST14, associated with OXA-232 and OXA48 +NDM carriage, respectively.",

keywords = "16S rRNA methyltransferase, ArmA, Klebsiella pneumoniae, NDM, OXA-232, OXA-48, aminoglycoside resistance, bloodstream, carbapenem-resistant",

author = "Burcu Isler and Caitlin Falconer and Cansel Vatansever and Berna {\"O}zer and G{\"u}le {\c C}ınar and Aslan, \{Abdullah Tarık\} and Brian Forde and Patrick Harris and Funda {\c S}im{\c s}ek and Necla T{\"u}lek and Hamiyet Demirkaya and {\c S}irin Menek{\c s}e and Halis Akalin and Balkan, \{İlker İnan{\c c}\} and Mehtap Aydın and Tigen, \{Elif T{\"u}kenmez\} and Demir, \{Safiye Ko{\c c}ulu\} and Mahir Kapmaz and {\c S}iran Keske and {\"O}zlem Doğan and {\c C}iğdem Arabacı and Serap Yağcı and G{\"u}l{\c s}en Hazırolan and Bakır, \{Veli Oğuzalp\} and Mehmet G{\"o}nen and Ne{\c s}e Saltoğlu and Alpay Azap and {\"O}zlem Azap and Murat Akova and {\"O}nder Erg{\"o}n{\"u}l and F{\"u}sun Can and Paterson, \{David L.\}",

note = "Publisher Copyright: {\textcopyright} The Authors.",

year = "2022",

doi = "10.1099/jmm.0.001629",

language = "English",

volume = "71",

journal = "Journal of Medical Microbiology",

issn = "0022-2615",

publisher = "Microbiology Society",

number = "12",

}

Isler, B, Falconer, C, Vatansever, C, Özer, B, Çınar, G, Aslan, AT, Forde, B, Harris, P, Şimşek, F, Tülek, N, Demirkaya, H, Menekşe, Ş, Akalin, H, Balkan, İİ, Aydın, M, Tigen, ET, Demir, SK, Kapmaz, M, Keske, Ş, Doğan, Ö, Arabacı, Ç, Yağcı, S, Hazırolan, G, Bakır, VO, Gönen, M, Saltoğlu, N, Azap, A, Azap, Ö, Akova, M, Ergönül, Ö, Can, F & Paterson, DL 2022, 'High prevalence of ArmA-16S rRNA methyltransferase among aminoglycoside-resistant Klebsiella pneumoniae bloodstream isolates', Journal of Medical Microbiology, vol. 71, no. 12, 001629. https://doi.org/10.1099/jmm.0.001629

TY - JOUR

T1 - High prevalence of ArmA-16S rRNA methyltransferase among aminoglycoside-resistant Klebsiella pneumoniae bloodstream isolates

AU - Isler, Burcu

AU - Falconer, Caitlin

AU - Vatansever, Cansel

AU - Özer, Berna

AU - Çınar, Güle

AU - Aslan, Abdullah Tarık

AU - Forde, Brian

AU - Harris, Patrick

AU - Şimşek, Funda

AU - Tülek, Necla

AU - Demirkaya, Hamiyet

AU - Menekşe, Şirin

AU - Akalin, Halis

AU - Balkan, İlker İnanç

AU - Aydın, Mehtap

AU - Tigen, Elif Tükenmez

AU - Demir, Safiye Koçulu

AU - Kapmaz, Mahir

AU - Keske, Şiran

AU - Doğan, Özlem

AU - Arabacı, Çiğdem

AU - Yağcı, Serap

AU - Hazırolan, Gülşen

AU - Bakır, Veli Oğuzalp

AU - Gönen, Mehmet

AU - Saltoğlu, Neşe

AU - Azap, Alpay

AU - Azap, Özlem

AU - Akova, Murat

AU - Ergönül, Önder

AU - Can, Füsun

AU - Paterson, David L.

PY - 2022

Y1 - 2022

N2 - Introduction. Aminoglycosides are used for the treatment of carbapenemase-producing Klebsiella pneumoniae (CPK) infections. 16S rRNA methyltransferases (RMTs) confer resistance to all aminoglycosides and are often cocarried with NDM. Hypothesis/Gap Statement. There is a dart of studies looking at the aminoglycoside resistance mechanisms for invasive CPK isolates, particularly in OXA-48 endemic settings. Aim. We aimed to determine the prevalence of RMTs and their association with beta lactamases and MLSTs amongst aminoglycoside-resistant CPK bloodstream isolates in an OXA-48 endemic setting. Methodology. CPK isolates (n=181), collected as part of a multicentre cohort study, were tested for amikacin, gentamicin and tobramycin susceptibility using custom-made sensititre plates (GN2XF, Thermo Fisher Scientific). All isolates were previously subjected to whole-genome sequencing. Carbapenemases, RMTs, MLSTs and plasmid incompatibility groups were detected on the assembled genomes. Results. Of the 181 isolates, 109(60%) were resistant to all three aminoglycosides, and 96 of 109(88%) aminoglycoside-resistant isolates carried an RMT (85 ArmA, 10 RmtC, 4 RmtF1; three isolates cocarried ArmA and RmtC). Main clonal types associated with ArmA were ST2096 (49/85, 58%) and ST14 (24/85, 28%), harbouring mainly OXA-232 and OXA-48 +NDM, respectively. RmtC was cocarried with NDM (5/10) on ST395, and NDM +OXA-48 or NDM +KPC (4/10) on ST14, ST15 and ST16. All RMT producers also carried CTX-M-15, and the majority cocarried SHV-106, TEM-150 and multiple other antibiotic resistance genes. The majority of the isolates harboured a combination of IncFIB, IncH and IncL/M type plasmids. Non-NDM producing isolates remained susceptible to ceftazidime-avibactam. Conclusion. Aminoglycoside resistance amongst CPK bloodstream isolates is extremely common and mainly driven by clonal spread of ArmA carried on ST2096 and ST14, associated with OXA-232 and OXA48 +NDM carriage, respectively.

AB - Introduction. Aminoglycosides are used for the treatment of carbapenemase-producing Klebsiella pneumoniae (CPK) infections. 16S rRNA methyltransferases (RMTs) confer resistance to all aminoglycosides and are often cocarried with NDM. Hypothesis/Gap Statement. There is a dart of studies looking at the aminoglycoside resistance mechanisms for invasive CPK isolates, particularly in OXA-48 endemic settings. Aim. We aimed to determine the prevalence of RMTs and their association with beta lactamases and MLSTs amongst aminoglycoside-resistant CPK bloodstream isolates in an OXA-48 endemic setting. Methodology. CPK isolates (n=181), collected as part of a multicentre cohort study, were tested for amikacin, gentamicin and tobramycin susceptibility using custom-made sensititre plates (GN2XF, Thermo Fisher Scientific). All isolates were previously subjected to whole-genome sequencing. Carbapenemases, RMTs, MLSTs and plasmid incompatibility groups were detected on the assembled genomes. Results. Of the 181 isolates, 109(60%) were resistant to all three aminoglycosides, and 96 of 109(88%) aminoglycoside-resistant isolates carried an RMT (85 ArmA, 10 RmtC, 4 RmtF1; three isolates cocarried ArmA and RmtC). Main clonal types associated with ArmA were ST2096 (49/85, 58%) and ST14 (24/85, 28%), harbouring mainly OXA-232 and OXA-48 +NDM, respectively. RmtC was cocarried with NDM (5/10) on ST395, and NDM +OXA-48 or NDM +KPC (4/10) on ST14, ST15 and ST16. All RMT producers also carried CTX-M-15, and the majority cocarried SHV-106, TEM-150 and multiple other antibiotic resistance genes. The majority of the isolates harboured a combination of IncFIB, IncH and IncL/M type plasmids. Non-NDM producing isolates remained susceptible to ceftazidime-avibactam. Conclusion. Aminoglycoside resistance amongst CPK bloodstream isolates is extremely common and mainly driven by clonal spread of ArmA carried on ST2096 and ST14, associated with OXA-232 and OXA48 +NDM carriage, respectively.

KW - 16S rRNA methyltransferase

KW - ArmA

KW - Klebsiella pneumoniae

KW - NDM

KW - OXA-232

KW - OXA-48

KW - aminoglycoside resistance

KW - bloodstream

KW - carbapenem-resistant

UR - https://www.scopus.com/pages/publications/85147460921

U2 - 10.1099/jmm.0.001629

DO - 10.1099/jmm.0.001629

M3 - Article

C2 - 36748503

AN - SCOPUS:85147460921

SN - 0022-2615

VL - 71

JO - Journal of Medical Microbiology

JF - Journal of Medical Microbiology

IS - 12

M1 - 001629

ER -

High prevalence of ArmA-16S rRNA methyltransferase among aminoglycoside-resistant Klebsiella pneumoniae bloodstream isolates

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