Jun Ichi Wachino scite author profile

Detection of the resistance mediated by class C ␤-lactamases remains a challenging issue, considering that transferable plasmid-mediated class C ␤-lactamases are of worldwide concern. Methods for the identification of strains that produce extended-spectrum ␤-lactamases (ESBLs) or metallo-␤-lactamases (MBLs) have been developed and applied for routine use in clinical microbiology laboratories, but no practical methods for identification of plasmid-mediated class C producers have been established to date. We therefore developed three simple methods for clinical microbiology laboratories that allow identification of plasmid-mediated class C ␤-lactamase-producing bacteria using a boronic acid derivative, 3-aminophenylboronic acid (APB), one of the specific inhibitors of class C ␤-lactamases. Detection by the disk potentiation test was based on the enlargement of the growth-inhibitory zone diameter (by greater than or equal to 5 mm) around a Kirby-Bauer disk containing a ceftazidime (CAZ) or a cefotaxime (CTX) disk in combination with APB. In a double-disk synergy test, the discernible expansion of the growth-inhibitory zone around the CAZ or the CTX disk toward a disk containing APB was indicative of class C ␤-lactamase production. A greater than or equal to eightfold decrease in the MIC of CAZ or CTX in the presence of APB was the criterion for detection in the microdilution test. By using these methods, Escherichia coli and Klebsiella pneumoniae isolates producing plasmid-mediated class C ␤-lactamases, ACT-1, CMY-2, CMY-9, FOX-5, LAT-1, and MOX-1, were successfully distinguished from those producing other classes of ␤-lactamases, such as ESBLs and MBLs. These methods will provide useful information needed for targeted antimicrobial therapy and better infection control.

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Crystallographic Investigation of the Inhibition Mode of a VIM-2 Metallo-β-lactamase from Pseudomonas aeruginosa by a Mercaptocarboxylate Inhibitor

Yamaguchi

et al. 2007

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The VIM-2 metallo-beta-lactamase enzyme from Pseudomonas aeruginosa catalyzes the hydrolysis of most beta-lactam antibiotics including carbapenems, and there are currently no potent inhibitors of such enzymes. We found rac-2-omega-phenylpropyl-3-mercaptopropionic acid, phenylC3SH, to be a potent inhibitor of VIM-2. The structure of the VIM-2-phenylC3SH complex was determined by X-ray crystallography to 2.3 A. The structure revealed that the thiol group of phenylC3SH bridged to the two zinc(II) ions and the phenyl group interacted with Tyr67(47) on loop1 near the active site, by pi-pi stacking interactions. The methylene group interacted with Phe61(42) located at the bottom of loop1 through CH-pi interactions. Dynamic movements were observed in Arg228(185) and Asn233(190) on loop2, compared with the native structure (PDB code: 1KO3 ). These results suggest that the above-mentioned four residues play important roles in the binding and recognition of inhibitors or substrates and in stabilizing a loop in the VIM-2 enzyme.

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Global Spread of Multiple Aminoglycoside Resistance Genes

Yamane

Wachino

Doi

et al. 2005

Emerg. Infect. Dis.

125

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Jun Ichi Wachino

Aminoglycoside Resistance

Practical Methods Using Boronic Acid Compounds for Identification of Class C β-Lactamase-ProducingKlebsiella pneumoniaeandEscherichia coli

Crystallographic Investigation of the Inhibition Mode of a VIM-2 Metallo-β-lactamase from Pseudomonas aeruginosa by a Mercaptocarboxylate Inhibitor

Global Spread of Multiple Aminoglycoside Resistance Genes

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