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Arginine Modulates Carbapenem Deactivation by OXA-24/40 in Acinetobacter baumannii.


ABSTRACT: The resistance of Gram-negative bacteria to β-lactam antibiotics stems mainly from β-lactamase proteins that hydrolytically deactivate the β-lactams. Of particular concern are the β-lactamases that can deactivate a class of β-lactams known as carbapenems. Carbapenems are among the few anti-infectives that can treat multi-drug resistant bacterial infections. Revealing the mechanisms of their deactivation by β-lactamases is a necessary step for preserving their therapeutic value. Here, we present NMR investigations of OXA-24/40, a carbapenem-hydrolyzing Class D β-lactamase (CHDL) expressed in the gram-negative pathogen, Acinetobacter baumannii. Using rapid data acquisition methods, we were able to study the "real-time" deactivation of the carbapenem known as doripenem by OXA-24/40. Our results indicate that OXA-24/40 has two deactivation mechanisms: canonical hydrolytic cleavage, and a distinct mechanism that produces a β-lactone product that has weak affinity for the OXA-24/40 active site. The mechanisms issue from distinct active site environments poised either for hydrolysis or β-lactone formation. Mutagenesis reveals that R261, a conserved active site arginine, stabilizes the active site environment enabling β-lactone formation. Our results have implications not only for OXA-24/40, but the larger family of CHDLs now challenging clinical settings on a global scale.

SUBMITTER: VanPelt J 

PROVIDER: S-EPMC8453075 | biostudies-literature | 2021 Sep

REPOSITORIES: biostudies-literature

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Arginine Modulates Carbapenem Deactivation by OXA-24/40 in Acinetobacter baumannii.

VanPelt Jamie J   Stoffel Shannon S   Staude Michael W MW   Dempster Kayla K   Rose Heath A HA   Graney Sarah S   Graney Erin E   Braynard Sara S   Kovrigina Elizaveta E   Leonard David A DA   Peng Jeffrey W JW  

Journal of molecular biology 20210714 19


The resistance of Gram-negative bacteria to β-lactam antibiotics stems mainly from β-lactamase proteins that hydrolytically deactivate the β-lactams. Of particular concern are the β-lactamases that can deactivate a class of β-lactams known as carbapenems. Carbapenems are among the few anti-infectives that can treat multi-drug resistant bacterial infections. Revealing the mechanisms of their deactivation by β-lactamases is a necessary step for preserving their therapeutic value. Here, we present  ...[more]

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