Abstract
One mechanism by which bacteria can escape the action of beta-lactam antibiotics is the production of metallo-beta-lactamases. Inhibition of these enzymes should restore the action of these widely used antibiotics. The tetrameric enzyme L1 from Stenotrophomonas maltophilia was used as a model system to determine a series of high-resolution crystal structures of apo, mono and bi-metal substituted proteins as well as protein-inhibitor complexes. Unexpectedly, although the apo structure revealed only few significant structural differences from the holo structure, some inhibitors were shown to induce amino acid side-chain rotations in the tightly packed active site. Moreover, one inhibitor employs a new binding mode in order to interact with the di-zinc center. This structural information could prove essential in the process of elucidation of the mode of interaction between a putative lead compound and metallo-beta-lactamases, one of the main steps in structure-based drug design.
MeSH terms
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Anti-Bacterial Agents / antagonists & inhibitors*
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Anti-Bacterial Agents / metabolism
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Apoenzymes / chemistry
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Binding Sites
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Captopril / metabolism
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Cephalosporins / chemistry
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Enzyme Inhibitors / chemistry*
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Escherichia coli / genetics
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Hydrogen Bonding
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Hydrogen-Ion Concentration
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Indicators and Reagents / chemistry
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Inhibitory Concentration 50
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Ligands
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Models, Molecular
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Molecular Structure
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Moxalactam / metabolism
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Protein Binding
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Protein Structure, Secondary
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Stenotrophomonas maltophilia / enzymology*
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Stereoisomerism
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Substrate Specificity
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Sulfates / chemistry
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Water / chemistry
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X-Ray Diffraction
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Zinc / metabolism
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beta-Lactamase Inhibitors*
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beta-Lactamases / metabolism
Substances
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Anti-Bacterial Agents
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Apoenzymes
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Cephalosporins
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Enzyme Inhibitors
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Indicators and Reagents
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Ligands
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Sulfates
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beta-Lactamase Inhibitors
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Water
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Captopril
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beta-lactamase L1
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beta-Lactamases
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nitrocefin
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Zinc
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Moxalactam
Associated data
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PDB/2FM6
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PDB/2FU6
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PDB/2FU7
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PDB/2FU8
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PDB/2FU9
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PDB/2GFJ
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PDB/2GJK
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PDB/2H6A
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PDB/2HB9