Patrick McGann

Escherichia coli Harboring mcr-1 and blaCTX-M on a Novel IncF Plasmid: First Report of mcr-1 in the United States

The recent discovery of a plasmid-borne colistin resistance gene, mcr-1 , in China heralds the emergence of truly pan-drug-resistant bacteria ([1][1]). The gene has been found primarily in Escherichia coli but has also been identified in other members of the Enterobacteriaceae in human, animal, food

Emergence of Colistin-Resistance in Extremely Drug-Resistant Acinetobacter baumannii Containing a Novel pmrCAB Operon During Colistin Therapy of Wound Infections

BACKGROUND Colistin resistance is of concern since it is increasingly needed to treat infections caused by bacteria resistant to all other antibiotics and has been associated with poorer outcomes. Longitudinal data from in vivo series are sparse. METHODS Under a quality-improvement directive to intensify infection-control measures, extremely drug-resistant (XDR) bacteria undergo phenotypic and molecular analysis. RESULTS Twenty-eight XDR Acinetobacter baumannii isolates were longitudinally recovered during colistin therapy. Fourteen were susceptible to colistin, and 14 were resistant to colistin. Acquisition of colistin resistance did not alter resistance to other antibiotics. Isolates had low minimum inhibitory concentrations of an investigational aminoglycoside, belonged to multi-locus sequence type 94, were indistinguishable by pulsed-field gel electrophoresis and optical mapping, and harbored a novel pmrC1A1B allele. Colistin resistance was associated with point mutations in the pmrA1 and/or pmrB genes. Additional pmrC homologs, designated eptA-1 and eptA-2, were at distant locations from the operon. Compared with colistin-susceptible isolates, colistin-resistant isolates displayed significantly enhanced expression of pmrC1A1B, eptA-1, and eptA-2; lower growth rates; and lowered fitness. Phylogenetic analysis suggested that colistin resistance emerged from a single progenitor colistin-susceptible isolate. CONCLUSIONS We provide insights into the in vivo evolution of colistin resistance in a series of XDR A. baumannii isolates recovered during therapy of infections and emphasize the importance of antibiotic stewardship and surveillance.

Clinical Use of Colistin Induces Cross-Resistance to Host Antimicrobials in Acinetobacter baumannii

ABSTRACT The alarming rise in antibiotic resistance has led to an increase in patient mortality and health care costs. This problem is compounded by the absence of new antibiotics close to regulatory approval. Acinetobacter baumannii is a human pathogen that causes infections primarily in patients in intensive care units (ICUs) and is highly antibiotic resistant. Colistin is one of the last-line antibiotics for treating A. baumannii infections; however, colistin-resistant strains are becoming increasingly common. This cationic antibiotic attacks negatively charged bacterial membranes in a manner similar to that seen with cationic antimicrobials of the innate immune system. We therefore set out to determine if the increasing use of colistin, and emergence of colistin-resistant strains, is concomitant with the generation of cross-resistance to host cationic antimicrobials. We found that there is indeed a positive correlation between resistance to colistin and resistance to the host antimicrobials LL-37 and lysozyme among clinical isolates. Importantly, isolates obtained before and after treatment of individual patients demonstrated that colistin use correlated with increased resistance to cationic host antimicrobials. These data reveal the overlooked risk of inducing cross-resistance to host antimicrobials when treating patients with colistin as a last-line antibiotic. IMPORTANCE Increased use of the cationic antibiotic colistin to treat multidrug-resistant Acinetobacter baumannii has led to the development of colistin-resistant strains. Here we report that treatment of patients with colistin can induce not only increased resistance to colistin but also resistance to host cationic antimicrobials. This worrisome finding likely represents an example of a broader trend observed in other bacteria against which colistin is used therapeutically such as Pseudomonas aeruginosa and Klebsiella pneumoniae. Furthermore, these data suggest that the possible future use of an array of cationic antimicrobial peptides in development as therapeutics may have unintended negative consequences, eventually leading to the generation of hypervirulent strains that are resistant to innate host defenses. The potential for the induction of cross-resistance to innate immune antimicrobials should be considered during the development of new therapeutics. Increased use of the cationic antibiotic colistin to treat multidrug-resistant Acinetobacter baumannii has led to the development of colistin-resistant strains. Here we report that treatment of patients with colistin can induce not only increased resistance to colistin but also resistance to host cationic antimicrobials. This worrisome finding likely represents an example of a broader trend observed in other bacteria against which colistin is used therapeutically such as Pseudomonas aeruginosa and Klebsiella pneumoniae. Furthermore, these data suggest that the possible future use of an array of cationic antimicrobial peptides in development as therapeutics may have unintended negative consequences, eventually leading to the generation of hypervirulent strains that are resistant to innate host defenses. The potential for the induction of cross-resistance to innate immune antimicrobials should be considered during the development of new therapeutics.

A Model for Transposition of the Colistin Resistance Gene mcr-1 by ISApl1

ABSTRACT Analysis of mcr-1-containing sequences identified a common ∼2,607-bp DNA segment that in many cases is flanked on one or both ends by ISApl1. We present evidence that mcr-1 is mobilized by an ISApl1 composite transposon which has, in some cases, subsequently lost one or both copies of ISApl1. We also show that mcr-1 can be mobilized in some circumstances by a single upstream copy of ISApl1 in conjunction with the remnants of a downstream ISApl1.

Amplification of Aminoglycoside Resistance Gene aphA1 in Acinetobacter baumannii Results in Tobramycin Therapy Failure

ABSTRACT Gene amplification is believed to play an important role in antibiotic resistance but has been rarely documented in clinical settings because of its unstable nature. We report a rise in MICs from 0.5 to 16 μg/ml in successive Acinetobacter baumannii isolated over 4 days from a patient being treated with tobramycin for an infection by multidrug-resistant A. baumannii, resulting in therapeutic failure. Isolates were characterized by whole-genome sequencing, real-time and reverse transcriptase PCR, and growth assays to determine the mechanism of tobramycin resistance and its fitness cost. Tobramycin resistance was associated with two amplification events of different chromosomal fragments containing the aphA1 aminoglycoside resistance gene part of transposon Tn6020. The first amplification event involved low amplification (6 to 10 copies) of a large DNA fragment that was unstable and conferred tobramycin MICs of ≤8 μg/ml. The second event involved moderate (10 to 30 copies) or high (40 to 110 copies) amplification of Tn6020. High copy numbers were associated with tobramycin MICs of 16 μg/ml, impaired fitness, and genetic instability, whereas lower copy numbers resulted in tobramycin MICs of ≤8 μg/ml and no fitness cost and were stably maintained in vitro. Exposure in vitro to tobramycin of the initial susceptible isolate and of the A. baumannii AB0057 reference strain led to similar aphA1 amplifications and elevated tobramycin MICs. To the best of our knowledge, this is the first report of in vivo development of antibiotic resistance secondary to gene amplifications resulting in therapy failure. IMPORTANCE A combination of whole-genome sequencing and mapping were used to detect an antibiotic resistance mechanism, gene amplification, which has been presumed for a long time to be of major importance but has rarely been reported in clinical settings because of its unstable nature. Two gene amplification events in a patient with an Acinetobacter baumannii infection treated with tobramycin were identified. One gene amplification event led to high levels of resistance and was rapidly reversible, while the second event led to low and more stable resistance since it incurred low fitness cost on the host. Gene amplification, with an associated rise in tobramycin MICs, could be readily reproduced in vitro from initially susceptible strains exposed to increasing concentrations of tobramycin, suggesting that gene amplification in A. baumannii may be a more common mechanism than currently believed. This report underscores the importance of rapid molecular techniques for surveillance of drug resistance. A combination of whole-genome sequencing and mapping were used to detect an antibiotic resistance mechanism, gene amplification, which has been presumed for a long time to be of major importance but has rarely been reported in clinical settings because of its unstable nature. Two gene amplification events in a patient with an Acinetobacter baumannii infection treated with tobramycin were identified. One gene amplification event led to high levels of resistance and was rapidly reversible, while the second event led to low and more stable resistance since it incurred low fitness cost on the host. Gene amplification, with an associated rise in tobramycin MICs, could be readily reproduced in vitro from initially susceptible strains exposed to increasing concentrations of tobramycin, suggesting that gene amplification in A. baumannii may be a more common mechanism than currently believed. This report underscores the importance of rapid molecular techniques for surveillance of drug resistance.

Novel 16S rRNA Methyltransferase RmtH Produced by Klebsiella pneumoniae Associated with War-Related Trauma

ABSTRACT Klebsiella pneumoniae strain MRSN2404 was isolated from the chronic wound of a soldier who had been wounded in Iraq in 2006. The strain displayed very high MICs of all aminoglycosides, including arbekacin. A gene encoding a novel 16S rRNA methyltransferase, now designated RmtH, was identified. RmtH had 64% identity with RmtB1 and RmtB2. rmtH was bracketed by two copies of ISCR2, which may have played a role in its mobilization.

Detection of qacA/B in Clinical Isolates of Methicillin-Resistant Staphylococcus aureus from a Regional Healthcare Network in the Eastern United States

We describe the clinical, microbiologic, and molecular features of the first series of qacA/B-containing strains of methicillin-resistant Staphylococcus aureus from infected US patients. All qac-carrying strains were clonally diverse, and qacA strains exhibited increased tolerance to chlorhexidine as measured by minimum inhibitory concentrations, minimum bactericidal concentrations, and postexposure colony counts.

Fatal Outbreak of an Emerging Clone of Extensively Drug-Resistant Acinetobacter baumannii With Enhanced Virulence

BACKGROUND Severe Acinetobacter baumannii infections in immunocompetent patients are uncommon, and the virulence mechanisms of this organism are not fully understood. METHODS Following an outbreak of fatal A. baumannii infections in a cohort of relatively immunocompetent patients (low comorbidity and illness severity scores), isolates were investigated with comparative genomics and in animal models. RESULTS Two unrelated A. baumannii clades were associated with the outbreak. The clone associated with the majority of patient deaths, clade B, is evolutionarily distinct from the 3 international clonal complexes, belongs to multilocus sequence type (MLST) 10, and is most closely related to strains isolated from the Czech Republic, California, and Germany in 1994, 1997, and 2003, respectively. In 2 different murine models, clade B isolates were more virulent than comparator strains, including the highly virulent reference strain AB5075. The most virulent clade B derivative, MRSN 16897, was isolated from the patient with the lowest combined comorbidity/illness severity score. Clade B isolates possess a unique combination of putative virulence genes involved in iron metabolism, protein secretion, and glycosylation, which was leveraged to develop a rapid and specific clinical assay to detect this clade that cannot be distinguished by MLST. CONCLUSIONS Clade B warrants continued surveillance and investigation.

Rapid and Simultaneous Detection of blaKPC and blaNDM by Use of Multiplex Real-Time PCR

ABSTRACT The increasing incidence of carbapenem nonsusceptibility among clinically important species is of global concern. Identification of the molecular mechanisms underlying carbapenem nonsusceptibility is critical for epidemiological investigations. In this report, we describe a real-time PCR-based assay capable of simultaneously detecting bla KPC and bla NDM, two of the most important carbapenemases, directly from culture in less than 90 min. The assay was validated with bla KPC- and bla NDM-carrying clinical isolates and demonstrated 100% concordance with the Carba NP test.

Rapid and Simultaneous Detection of blaKPC and blaNDM using Multiplex Real-Time PCR

ABSTRACT The increasing incidence of carbapenem nonsusceptibility among clinically important species is of global concern. Identification of the molecular mechanisms underlying carbapenem nonsusceptibility is critical for epidemiological investigations. In this report, we describe a real-time PCR-based assay capable of simultaneously detecting bla KPC and bla NDM, two of the most important carbapenemases, directly from culture in less than 90 min. The assay was validated with bla KPC- and bla NDM-carrying clinical isolates and demonstrated 100% concordance with the Carba NP test.