Molecular epidemiology of β-lactamases in ceftriaxone-resistant Enterobacterales bloodstream infections in the mid-Atlantic United States

Dariusz A. Hareza; Yehudit Bergman; Emily Jacobs; Jennifer Lu; Nancy D. Hanson; Rick Conzemius; Sara E. Cosgrove; Anthony D. Harris; Patricia J. Simner; Pranita D. Tamma

doi:10.1128/aac.01258-24

Molecular epidemiology of β-lactamases in ceftriaxone-resistant Enterobacterales bloodstream infections in the mid-Atlantic United States

Dariusz A. Hareza, Yehudit Bergman, Emily Jacobs, Jennifer Lu, Nancy D. Hanson, Rick Conzemius, Sara E. Cosgrove, Anthony D. Harris, Patricia J. Simner, Pranita D. Tamma^*

^*Corresponding author for this work

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

Abstract

Ceftriaxone-resistant Enterobacterales remain a public health threat; contemporary data investigating their molecular epidemiology are limited. Five hundred consecutive ceftriaxone-resistant (MIC ≥ 4 µg/mL) Enterobacterales bloodstream isolates were collected between 2018 and 2022 from three Maryland hospitals. Broth micro‐dilution confirmed antibiotic susceptibilities. Whole-genome sequencing identified extended-spectrum β-lactamase (ESBL) and ampC genes both in bacterial chromosomes (c-ampC) and on plasmids (p-ampC). Mutations in promoter or attenuator regions of the Escherichia coli c-ampC gene (i.e., bla_EC gene) with the potential to result in ampC derepression were investigated. The presence of ESBL or ampC genes was confirmed in 497 (99.4%) isolates. Two hundred seventy-nine (55.8%) isolates had both ESBL and ampC genes. ESBL families were identified among 398 (80%) patients: bla_CTX-M (n = 370), bla_SHV (n = 17), bla_OXY (n = 14), and bla_VEB (n = 5). Ceftriaxone-resistant Enterobacterales species carrying ESBL genes included the following: E. coli (67%), Klebsiella pneumoniae (24%), Klebsiella oxytoca (4%), Proteus mirabilis (2%), Enterobacter cloacae complex (2%), Klebsiella aerogenes (1%), Providencia stuartii (<1%), and Serratia marcescens (<1%). c-ampC genes were identified in 374 (75%) of the 500 isolates. Only 7% of E. coli isolates with mutations in the promoter or attenuator region of the c-ampC gene exhibited resistance to cefoxitin, a proxy for increased AmpC production. Two p-ampC genes were confirmed in 25 (5%) of the 500 isolates: bla_CMY-59 (72%) and bla_DHA-1 (28%; confined to E. coli [92%] and K. pneumoniae [8%]). Until comprehensive β-lactamase molecular testing is available, the species-specific prevalence of ESBL and ampC genes in ceftriaxone-resistant Enterobacterales should be considered to promote effective albeit judicious antibiotic prescribing. Mutations in promoter or attenuator regions of the E. coli c-ampC gene do not appear to contribute significantly to increased AmpC production in this species.

Original language	English
Journal	Antimicrobial Agents and Chemotherapy
Volume	69
Issue number	3
DOIs	https://doi.org/10.1128/aac.01258-24
State	Published - Mar 2025
Externally published	Yes

Bibliographical note

Publisher Copyright:
Copyright © 2025 Hareza et al.

Keywords

ampC
CMY
CTX-M
DHA
EC
ESBLs
SHV

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1128/aac.01258-24

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Hareza, D. A., Bergman, Y., Jacobs, E., Lu, J., Hanson, N. D., Conzemius, R., Cosgrove, S. E., Harris, A. D., Simner, P. J., & Tamma, P. D. (2025). Molecular epidemiology of β-lactamases in ceftriaxone-resistant Enterobacterales bloodstream infections in the mid-Atlantic United States. Antimicrobial Agents and Chemotherapy, 69(3). https://doi.org/10.1128/aac.01258-24

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title = "Molecular epidemiology of β-lactamases in ceftriaxone-resistant Enterobacterales bloodstream infections in the mid-Atlantic United States",

abstract = "Ceftriaxone-resistant Enterobacterales remain a public health threat; contemporary data investigating their molecular epidemiology are limited. Five hundred consecutive ceftriaxone-resistant (MIC ≥ 4 µg/mL) Enterobacterales bloodstream isolates were collected between 2018 and 2022 from three Maryland hospitals. Broth micro‐dilution confirmed antibiotic susceptibilities. Whole-genome sequencing identified extended-spectrum β-lactamase (ESBL) and ampC genes both in bacterial chromosomes (c-ampC) and on plasmids (p-ampC). Mutations in promoter or attenuator regions of the Escherichia coli c-ampC gene (i.e., blaEC gene) with the potential to result in ampC derepression were investigated. The presence of ESBL or ampC genes was confirmed in 497 (99.4%) isolates. Two hundred seventy-nine (55.8%) isolates had both ESBL and ampC genes. ESBL families were identified among 398 (80%) patients: blaCTX-M (n = 370), blaSHV (n = 17), blaOXY (n = 14), and blaVEB (n = 5). Ceftriaxone-resistant Enterobacterales species carrying ESBL genes included the following: E. coli (67%), Klebsiella pneumoniae (24%), Klebsiella oxytoca (4%), Proteus mirabilis (2%), Enterobacter cloacae complex (2%), Klebsiella aerogenes (1%), Providencia stuartii (<1%), and Serratia marcescens (<1%). c-ampC genes were identified in 374 (75%) of the 500 isolates. Only 7% of E. coli isolates with mutations in the promoter or attenuator region of the c-ampC gene exhibited resistance to cefoxitin, a proxy for increased AmpC production. Two p-ampC genes were confirmed in 25 (5%) of the 500 isolates: blaCMY-59 (72%) and blaDHA-1 (28%; confined to E. coli [92%] and K. pneumoniae [8%]). Until comprehensive β-lactamase molecular testing is available, the species-specific prevalence of ESBL and ampC genes in ceftriaxone-resistant Enterobacterales should be considered to promote effective albeit judicious antibiotic prescribing. Mutations in promoter or attenuator regions of the E. coli c-ampC gene do not appear to contribute significantly to increased AmpC production in this species.",

keywords = "ampC, CMY, CTX-M, DHA, EC, ESBLs, SHV",

author = "Hareza, {Dariusz A.} and Yehudit Bergman and Emily Jacobs and Jennifer Lu and Hanson, {Nancy D.} and Rick Conzemius and Cosgrove, {Sara E.} and Harris, {Anthony D.} and Simner, {Patricia J.} and Tamma, {Pranita D.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 Hareza et al.",

year = "2025",

month = mar,

doi = "10.1128/aac.01258-24",

language = "אנגלית",

volume = "69",

journal = "Antimicrobial Agents and Chemotherapy",

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AU - Hareza, Dariusz A.

AU - Bergman, Yehudit

AU - Jacobs, Emily

AU - Lu, Jennifer

AU - Hanson, Nancy D.

AU - Conzemius, Rick

AU - Cosgrove, Sara E.

AU - Harris, Anthony D.

AU - Simner, Patricia J.

AU - Tamma, Pranita D.

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N2 - Ceftriaxone-resistant Enterobacterales remain a public health threat; contemporary data investigating their molecular epidemiology are limited. Five hundred consecutive ceftriaxone-resistant (MIC ≥ 4 µg/mL) Enterobacterales bloodstream isolates were collected between 2018 and 2022 from three Maryland hospitals. Broth micro‐dilution confirmed antibiotic susceptibilities. Whole-genome sequencing identified extended-spectrum β-lactamase (ESBL) and ampC genes both in bacterial chromosomes (c-ampC) and on plasmids (p-ampC). Mutations in promoter or attenuator regions of the Escherichia coli c-ampC gene (i.e., blaEC gene) with the potential to result in ampC derepression were investigated. The presence of ESBL or ampC genes was confirmed in 497 (99.4%) isolates. Two hundred seventy-nine (55.8%) isolates had both ESBL and ampC genes. ESBL families were identified among 398 (80%) patients: blaCTX-M (n = 370), blaSHV (n = 17), blaOXY (n = 14), and blaVEB (n = 5). Ceftriaxone-resistant Enterobacterales species carrying ESBL genes included the following: E. coli (67%), Klebsiella pneumoniae (24%), Klebsiella oxytoca (4%), Proteus mirabilis (2%), Enterobacter cloacae complex (2%), Klebsiella aerogenes (1%), Providencia stuartii (<1%), and Serratia marcescens (<1%). c-ampC genes were identified in 374 (75%) of the 500 isolates. Only 7% of E. coli isolates with mutations in the promoter or attenuator region of the c-ampC gene exhibited resistance to cefoxitin, a proxy for increased AmpC production. Two p-ampC genes were confirmed in 25 (5%) of the 500 isolates: blaCMY-59 (72%) and blaDHA-1 (28%; confined to E. coli [92%] and K. pneumoniae [8%]). Until comprehensive β-lactamase molecular testing is available, the species-specific prevalence of ESBL and ampC genes in ceftriaxone-resistant Enterobacterales should be considered to promote effective albeit judicious antibiotic prescribing. Mutations in promoter or attenuator regions of the E. coli c-ampC gene do not appear to contribute significantly to increased AmpC production in this species.

AB - Ceftriaxone-resistant Enterobacterales remain a public health threat; contemporary data investigating their molecular epidemiology are limited. Five hundred consecutive ceftriaxone-resistant (MIC ≥ 4 µg/mL) Enterobacterales bloodstream isolates were collected between 2018 and 2022 from three Maryland hospitals. Broth micro‐dilution confirmed antibiotic susceptibilities. Whole-genome sequencing identified extended-spectrum β-lactamase (ESBL) and ampC genes both in bacterial chromosomes (c-ampC) and on plasmids (p-ampC). Mutations in promoter or attenuator regions of the Escherichia coli c-ampC gene (i.e., blaEC gene) with the potential to result in ampC derepression were investigated. The presence of ESBL or ampC genes was confirmed in 497 (99.4%) isolates. Two hundred seventy-nine (55.8%) isolates had both ESBL and ampC genes. ESBL families were identified among 398 (80%) patients: blaCTX-M (n = 370), blaSHV (n = 17), blaOXY (n = 14), and blaVEB (n = 5). Ceftriaxone-resistant Enterobacterales species carrying ESBL genes included the following: E. coli (67%), Klebsiella pneumoniae (24%), Klebsiella oxytoca (4%), Proteus mirabilis (2%), Enterobacter cloacae complex (2%), Klebsiella aerogenes (1%), Providencia stuartii (<1%), and Serratia marcescens (<1%). c-ampC genes were identified in 374 (75%) of the 500 isolates. Only 7% of E. coli isolates with mutations in the promoter or attenuator region of the c-ampC gene exhibited resistance to cefoxitin, a proxy for increased AmpC production. Two p-ampC genes were confirmed in 25 (5%) of the 500 isolates: blaCMY-59 (72%) and blaDHA-1 (28%; confined to E. coli [92%] and K. pneumoniae [8%]). Until comprehensive β-lactamase molecular testing is available, the species-specific prevalence of ESBL and ampC genes in ceftriaxone-resistant Enterobacterales should be considered to promote effective albeit judicious antibiotic prescribing. Mutations in promoter or attenuator regions of the E. coli c-ampC gene do not appear to contribute significantly to increased AmpC production in this species.

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KW - CMY

KW - CTX-M

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KW - EC

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Molecular epidemiology of β-lactamases in ceftriaxone-resistant Enterobacterales bloodstream infections in the mid-Atlantic United States

Abstract

Bibliographical note

Keywords

UN SDGs

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