Antibiotics (Sep 2019)

Phenylboronic Acids Probing Molecular Recognition against Class A and Class C β-lactamases

  • Pasquale Linciano,
  • Mattia Vicario,
  • Ivana Kekez,
  • Pierangelo Bellio,
  • Giuseppe Celenza,
  • Isabel Martín-Blecua,
  • Jesús Blázquez,
  • Laura Cendron,
  • Donatella Tondi

DOI
https://doi.org/10.3390/antibiotics8040171
Journal volume & issue
Vol. 8, no. 4
p. 171

Abstract

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Worldwide dissemination of pathogens resistant to almost all available antibiotics represent a real problem preventing efficient treatment of infectious diseases. Among antimicrobial used in therapy, β-lactam antibiotics represent 40% thus playing a crucial role in the management of infections treatment. We report a small series of phenylboronic acids derivatives (BAs) active against class A carbapenemases KPC-2 and GES-5, and class C cephalosporinases AmpC. The inhibitory profile of our BAs against class A and C was investigated by means of molecular docking, enzyme kinetics and X-ray crystallography. We were interested in the mechanism of recognition among class A and class C to direct the design of broad serine β-Lactamases (SBLs) inhibitors. Molecular modeling calculations vs GES-5 and crystallographic studies vs AmpC reasoned, respectively, the ortho derivative 2 and the meta derivative 3 binding affinity. The ability of our BAs to protect β-lactams from BLs hydrolysis was determined in biological assays conducted against clinical strains: Fractional inhibitory concentration index (FICI) tests confirmed their ability to be synergic with β-lactams thus restoring susceptibility to meropenem. Considering the obtained results and the lack of cytotoxicity, our derivatives represent validated probe for the design of SBLs inhibitors.

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