In Silico Fragment-Based Design Identifies Subfamily B1 Metallo-B- lactamase Inhibitors
Zinc ion-dependent β-lactamases (MBLs) catalyze the hydrolysis of almost all β-lactam antibiotics and resist the action of clinically available β-lactamase inhibitors. We report how application of in silico fragment-based molecular design employing thiol-mediated metal anchorage leads to potent MBL inhibitors. The new inhibitors manifest potent inhibition of clinically important B1 subfamily MBLs, including the widespread NDM-1, IMP-1, and VIM-2 enzymes; with lower potency, some of them also inhibit clinically relevant Class A and D serine-β-lactamases. The inhibitors show selectivity for bacterial MBL enzymes compared to that for human MBL fold nucleases. Cocrystallization of one inhibitor, which shows potentiation of Meropenem activity against MBL-expressing Enterobacteriaceae, with VIM-2 reveals an unexpected binding mode, involving interactions with residues from conserved active site bordering loops.
Related content
Predicting pKa
One of the most important physicochemical properties of small molecules and macromolecules are the...
Calculate on the cloud
In order to increase the flexibility, access and integrability, Calculators and Predictors have...
Coupling stabilizers open KV1-type potassium channels
ABSTRACT: The opening and closing of voltage-gated ion channels are regulated by voltage sensors...
Cheminfo Stories 2021 Virtual UGM | Boost analytical experiments with phys-chem properties
TRY CHEMICALIZE Log in for videos & slides