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  • Title: Fluorescein-labeled beta-lactamase mutant for high-throughput screening of bacterial beta-lactamases against beta-lactam antibiotics.
    Author: Chan PH, Chan KC, Liu HB, Chung WH, Leung YC, Wong KY.
    Journal: Anal Chem; 2005 Aug 15; 77(16):5268-76. PubMed ID: 16097768.
    Abstract:
    The increasing emergence of new bacterial beta-lactamases that can efficiently hydrolyze beta-lactam antibiotics to clinically inactive carboxylic acids has created an intractable problem in the treatment of bacterial infections, and it is highly desirable to develop a useful tool that can rapidly screen bacteria for beta-lactamases against a variety of antibiotic candidates in a high-throughput manner. This paper describes the use of a fluorescein-labeled beta-lactamase mutant (E166Cf) as a convenient fluorescent tool to screen beta-lactamases, including the Bacillus cereus beta-lactamase I (PenPC), B. cereus beta-lactamase II, Bacillus licheniformis PenP, Escherichia coli TEM-1, and Enterobacter cloacae P99 against various beta-lactam antibiotics (penicillin G, penicillin V, ampicillin, cefuroxime, cefoxitin, moxalactam, cephaloridine), using a 96-well microplate reader. The E166Cf mutant was constructed by replacing Glu166 on the flexible Omega-loop, which is close to the enzyme's active site, with a cysteine residue on a class A beta-lactamase (B. cereus PenPC) and subsequently labeling the mutant with thiol-reactive fluorescein-5-maleimide. Such modifications significantly impaired the hydrolytic activity of the E166Cf mutant compared to that of the wild-type enzyme. The fluorescence intensity of the E166Cf mutant increases in the presence of beta-lactam antibiotics. For antibiotics that are resistant to hydrolysis by the E166Cf mutant (cefuroxime, cefoxitin, moxalactam), the fluorescence signal slowly increases until it reaches a plateau. For antibiotics that can be slowly hydrolyzed by the E166Cf mutant (penicillin G, penicillin V, ampicillin), the fluorescence signal rapidly increases to the plateau and then declines after a prolonged incubation. The E166Cf mutant retains its characteristic pattern of fluorescence signals in the presence of both bacterial beta-lactamases and beta-lactamase-resistant antibiotics. In contrast, in the presence of both bacterial beta-lactamases and beta-lactamase-sensitive antibiotics, the fluorescence signals of the E166Cf mutant were decreased. The fluorescence signals from the E166Cf mutant allow an unambiguous differentiation of beta-lactamase-resistant antibiotics from beta-lactamase-sensitive ones in the screening of bacterial beta-lactamases against a panel of antibiotic candidates. This simple method may provide an alternative tool in choosing potent beta-lactam antibiotics for treatment of bacterial infections.
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