TY - JOUR
T1 - IS1-related large-scale deletion of chromosomal regions harbouring the oxygen-insensitive nitroreductase gene nfsB causes nitrofurantoin heteroresistance in Escherichia coli
AU - Wan, Yu
AU - Sabnis, Akshay
AU - Mumin, Zaynab
AU - Potterill, Isabelle
AU - Jauneikaite, Elita
AU - Brown, Colin S.
AU - Ellington, Matthew J.
AU - Edwards, Andrew
AU - Sriskandan, Shiranee
N1 - Publisher Copyright:
© 2023, Microbiology Society. All rights reserved.
PY - 2023
Y1 - 2023
N2 - Nitrofurantoin is a broad-spectrum first-line antimicrobial used for managing uncomplicated urinary tract infection (UTI). Loss-of-function mutations in chromosomal genes nfsA, nfsB and ribE of Escherichia coli are known to reduce nitrofurantoin susceptibility. Here, we report the discovery of nitrofurantoin heteroresistance in E. coli clinical isolates and a novel genetic mechanism associated with this phenomenon. Subpopulations with lower nitrofurantoin susceptibility than major populations (hereafter, nitrofurantoin-resistant subpopulations) in two E. coli blood isolates (previously whole-genome sequenced) were identified using population analysis profiling. Each isolate was known to have a loss-of-function mutation in nfsA. From each isolate, four nitrofurantoin-resistant isolates were derived at a nitrofurantoin concentration of 32 mg l−1, and a comparator isolate was obtained without any nitrofurantoin exposure. Genomes of derived isolates were sequenced on Illumina and Nanopore MinION systems. Genetic variation between isolates was determined based on genome assemblies and read mapping. Nitrofurantoin minimum inhibitory concentrations (MICs) of both blood isolates were 64 mg l−1, with MICs of major nitrofurantoin-susceptible populations varying from 4 to 8 mg l−1. Two to 99 c.f.u. per million demonstrated growth at the nitrofurantoin concentration of 32 mg l−1, which is distinct from that of a homogeneously susceptible or resistant isolate. Derived nitrofurantoin-resistant isolates had 11–66 kb deletions in chromosomal regions harbouring nfsB, and all deletions were immediately adjacent to IS1-family insertion sequences. Our findings demonstrate that the IS1-associated large-scale genetic deletion is a hitherto unrecognized mechanism of nitrofurantoin heteroresistance and could compromise UTI management. Further, frequencies of resistant subpopulations from nitrofurantoin-heteroresistant isolates may challenge conventional nitrofurantoin susceptibility testing in clinical settings.
AB - Nitrofurantoin is a broad-spectrum first-line antimicrobial used for managing uncomplicated urinary tract infection (UTI). Loss-of-function mutations in chromosomal genes nfsA, nfsB and ribE of Escherichia coli are known to reduce nitrofurantoin susceptibility. Here, we report the discovery of nitrofurantoin heteroresistance in E. coli clinical isolates and a novel genetic mechanism associated with this phenomenon. Subpopulations with lower nitrofurantoin susceptibility than major populations (hereafter, nitrofurantoin-resistant subpopulations) in two E. coli blood isolates (previously whole-genome sequenced) were identified using population analysis profiling. Each isolate was known to have a loss-of-function mutation in nfsA. From each isolate, four nitrofurantoin-resistant isolates were derived at a nitrofurantoin concentration of 32 mg l−1, and a comparator isolate was obtained without any nitrofurantoin exposure. Genomes of derived isolates were sequenced on Illumina and Nanopore MinION systems. Genetic variation between isolates was determined based on genome assemblies and read mapping. Nitrofurantoin minimum inhibitory concentrations (MICs) of both blood isolates were 64 mg l−1, with MICs of major nitrofurantoin-susceptible populations varying from 4 to 8 mg l−1. Two to 99 c.f.u. per million demonstrated growth at the nitrofurantoin concentration of 32 mg l−1, which is distinct from that of a homogeneously susceptible or resistant isolate. Derived nitrofurantoin-resistant isolates had 11–66 kb deletions in chromosomal regions harbouring nfsB, and all deletions were immediately adjacent to IS1-family insertion sequences. Our findings demonstrate that the IS1-associated large-scale genetic deletion is a hitherto unrecognized mechanism of nitrofurantoin heteroresistance and could compromise UTI management. Further, frequencies of resistant subpopulations from nitrofurantoin-heteroresistant isolates may challenge conventional nitrofurantoin susceptibility testing in clinical settings.
KW - Escherichia coli
KW - IS1 elements
KW - comparative genomics
KW - hybrid genome assembly
KW - insertion sequences
KW - nitrofurantoin heteroresistance
KW - population analysis profiling
KW - resistance mechanism
KW - structural variation
KW - whole-genome sequencing
UR - http://www.scopus.com/inward/record.url?scp=85169757330&partnerID=8YFLogxK
U2 - 10.1099/mgen.0.001102
DO - 10.1099/mgen.0.001102
M3 - Article
C2 - 37672334
AN - SCOPUS:85169757330
SN - 2057-5858
VL - 9
JO - Microbial Genomics
JF - Microbial Genomics
IS - 9
M1 - 001102
ER -