Kinetic and structural characterization of the first B3 metallob-lactamase with an active-site glutamic acid

Liam A. Wilson, Esmée G. Knaven, Marc T. Morris, Marcelo Monteiro Pedroso, Christopher J. Schofield, Thomas B. Brück, Mikael Boden, David W. Waite, Philip Hugenholtz, Luke Guddat, Gerhard Schenk

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Abstract

The structural diversity in metallo-b-lactamases (MBLs), especially in the vicinity of the active site, has been a major hurdle in the development of clinically effective inhibitors. Representatives from three variants of the B3 MBL subclass, containing either the canonical HHH/DHH active-site motif (present in the majority of MBLs in this subclass) or the QHH/DHH (B3-Q) or HRH/DQK (B3-RQK) variations, were reported previously. Here, we describe the structure and kinetic properties of the first example (SIE-1) of a fourth variant containing the EHH/DHH active-site motif (B3-E). SIE-1 was identified in the hexachlorocyclohexane-degrading bacterium Sphingobium indicum, and kinetic analyses demonstrate that although it is active against a wide range of antibiotics, its efficiency is lower than that of other B3 MBLs but has increased efficiency toward cephalosporins relative to other b-lactam substrates. The overall fold of SIE-1 is characteristic of the MBLs; the notable variation is observed in the Zn1 site due to the replacement of the canonical His116 by a glutamate. The unusual preference of SIE-1 for cephalosporins and its occurrence in a widespread environmental organism suggest the scope for increased MBL-mediated b-lactam resistance. Thus, it is relevant to include SIE-1 in MBL inhibitor design studies to widen the therapeutic scope of much needed antiresistance drugs.

Original languageEnglish
Article numbere00936-21
JournalAntimicrobial Agents and Chemotherapy
Volume65
Issue number10
DOIs
StatePublished - Oct 2021

Keywords

  • Beta-lactamases
  • Enzyme kinetics
  • Mechanisms of resistance
  • Metalloenzymes

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