AI Article Synopsis
- The rise of metallo-β-lactamase (MBL) resistance to β-lactam antibiotics is a major public health concern, highlighting the urgent need for new MBL inhibitors.
- Recent research focused on synthesizing 2-substituted acetic acid derivatives, with some showing effective inhibition against key MBL types, VIM-2 and NDM-1.
- Studies showed these inhibitors work by interacting with zinc ions in the active site of VIM-2, enhancing E. coli's susceptibility to antibiotics while being non-toxic to human and zebrafish cells.
Article Abstract
The emergence and global spread of metallo-β-lactamase (MBL) mediated resistance to almost all β-lactam antibacterials poses a serious threat to public health. Since no clinically useful MBL inhibitors have been reported, there is an urgent need to develop new potent broad-spectrum MBL inhibitors effective against antibacterial resistance. Herein, we synthesized a set of 2-substituted ((S)-3-mercapto-2-methylpropanamido) acetic acid derivatives, some of which displayed potent inhibition with high ligand efficiency to the clinically relevant MBL subtypes, Verona Integron-encoded MBL (VIM)-2 and New Delhi MBL (NDM)-1. Kinetic studies revealed that the inhibitors are not strong zinc chelators in solution, and they bind reversibly to VIM-2 but dissociate very slowly. Crystallographic analyses revealed that they inhibit VIM-2 via chelating the active site zinc ions and interacting with catalytically important residues. Further cell- and zebrafish-based assays revealed that the inhibitors slightly increase susceptibility of E. coli cells expressing VIM-2 to meropenem, and they have no apparent toxicity to the viability of HEK293T cells and the zebrafish embryogenesis.
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| http://dx.doi.org/10.1016/j.ejmech.2018.01.032 | DOI Listing |
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