Jodi M. Thomson scite author profile

Military medical facilities treating patients injured in Iraq and Afghanistan have identified a large number of multidrug-resistant (MDR)Acinetobacter baumannii isolates. In order to anticipate the impact of these pathogens on patient care, we analyzed the antibiotic resistance genes responsible for the MDR phenotype in Acinetobacter sp. isolates collected from patients at the Walter Reed Army Medical Center (WRAMC). Susceptibility testing, PCR amplification of the genetic determinants of resistance, and clonality were determined. Seventy-five unique patient isolates were included in this study: 53% were from bloodstream infections, 89% were resistant to at least three classes of antibiotics, and 15% were resistant to all nine antibiotics tested. Thirty-seven percent of the isolates were recovered from patients nosocomially infected or colonized at the WRAMC. Sixteen unique resistance genes or gene families and four mobile genetic elements were detected. In addition, this is the first report of bla OXA-58 -like and bla PER -like genes in the U.S. MDR A. baumannii isolates with at least eight identified resistance determinants were recovered from 49 of the 75 patients. Molecular typing revealed multiple clones, with eight major clonal types being nosocomially acquired and with more than 60% of the isolates being related to three pan-European types. This report gives a "snapshot" of the complex genetic background responsible for antimicrobial resistance in Acinetobacter spp. from the WRAMC. Identifying genes associated with the MDR phenotype and defining patterns of transmission serve as a starting point for devising strategies to limit the clinical impact of these serious infections.

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Crystal Structure of KPC-2: Insights into Carbapenemase Activity in Class A β-Lactamases^,

Wei

et al. 2007

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Beta-lactamases inactivate beta-lactam antibiotics and are a major cause of antibiotic resistance. The recent outbreaks of Klebsiella pneumoniae carbapenem resistant (KPC) infections mediated by KPC type beta-lactamases are creating a serious threat to our "last resort" antibiotics, the carbapenems. KPC beta-lactamases are serine carbapenemases and are a subclass of class A beta-lactamases that have evolved to efficiently hydrolyze carbapenems and cephamycins which contain substitutions at the alpha-position proximal to the carbonyl group that normally render these beta-lactams resistant to hydrolysis. To investigate the molecular basis of this carbapenemase activity, we have determined the structure of KPC-2 at 1.85 A resolution. The active site of KPC-2 reveals the presence of a bicine buffer molecule which interacts via its carboxyl group with conserved active site residues S130, K234, T235, and T237; these likely resemble the interactions the beta-lactam carboxyl moiety makes in the Michaelis-Menten complex. Comparison of the KPC-2 structure with non-carbapenemases and previously determined NMC-A and SME-1 carbapenemase structures shows several active site alterations that are unique among carbapenemases. An outward shift of the catalytic S70 residue renders the active sites of the carbapenemases more shallow, likely allowing easier access of the bulkier substrates. Further space for the alpha-substituents is potentially provided by shifts in N132 and N170 in addition to concerted movements in the postulated carboxyl binding pocket that might allow the substrates to bind at a slightly different angle to accommodate these alpha-substituents. The structure of KPC-2 provides key insights into the carbapenemase activity of emerging class A beta-lactamases.

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The threat of antibiotic resistance in Gram-negative pathogenic bacteria: β-lactams in peril!

Thomson

Bonomo

2005

Current Opinion in Microbiology

190

141

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Jodi M. Thomson

Analysis of Antibiotic Resistance Genes in Multidrug-Resistant Acinetobacter sp. Isolates from Military and Civilian Patients Treated at the Walter Reed Army Medical Center

Crystal Structure of KPC-2: Insights into Carbapenemase Activity in Class A β-Lactamases^,

The threat of antibiotic resistance in Gram-negative pathogenic bacteria: β-lactams in peril!

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About

Jodi M. Thomson

Analysis of Antibiotic Resistance Genes in Multidrug-Resistant Acinetobacter sp. Isolates from Military and Civilian Patients Treated at the Walter Reed Army Medical Center

Crystal Structure of KPC-2: Insights into Carbapenemase Activity in Class A β-Lactamases,

The threat of antibiotic resistance in Gram-negative pathogenic bacteria: β-lactams in peril!

Contact Info

Product

Resources

About

Crystal Structure of KPC-2: Insights into Carbapenemase Activity in Class A β-Lactamases^,