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Aspergillomarasmine A inhibits metallo-β-lactamases by selectively sequestering Zn2+

David Sychantha, Caitlyn M. Rotondo, Kamaleddin H. M. E. Tehrani, Nathaniel I. Martin, Gerard D. Wright

2021Journal of Biological Chemistry45 citationsDOIOpen Access PDF

Abstract

Class B metallo-β-lactamases (MBLs) are Zn 2+ -dependent enzymes that catalyze the hydrolysis of β-lactam antibiotics to confer resistance in bacteria. Several problematic groups of MBLs belong to subclass B1, including the binuclear New Delhi MBL (NDM), Verona integrin-encoded MBL, and imipenemase-type enzymes, which are responsible for widespread antibiotic resistance. Aspergillomarasmine A (AMA) is a natural aminopolycarboxylic acid that functions as an effective inhibitor of class B1 MBLs. The precise mechanism of action of AMA is not thoroughly understood, but it is known to inactivate MBLs by removing one catalytic Zn 2+ cofactor. We investigated the kinetics of MBL inactivation in detail and report that AMA is a selective Zn 2+ scavenger that indirectly inactivates NDM-1 by encouraging the dissociation of a metal cofactor. To further investigate the mechanism in living bacteria, we used an active site probe and showed that AMA causes the loss of a Zn 2+ ion from a low-affinity binding site of NDM-1. Zn 2+ -depleted NDM-1 is rapidly degraded, contributing to the efficacy of AMA as a β-lactam potentiator. However, MBLs with higher metal affinity and stability such as NDM-6 and imipenemase-7 exhibit greater tolerance to AMA. These results indicate that the mechanism of AMA is broadly applicable to diverse Zn 2+ chelators and highlight that leveraging Zn 2+ availability can influence the survival of MBL-producing bacteria when they are exposed to β-lactam antibiotics.

Topics & Concepts

PotentiatorCofactorEnzymeBacteriaActive siteChemistryBiochemistryAntibioticsMicrobiologyBinding siteBiologyPharmacologyGeneticsAntibiotic Resistance in BacteriaBacterial biofilms and quorum sensingAntimicrobial Resistance in Staphylococcus
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