Agnes Mihalyi scite author profile

Naturally occurring muraymycin nucleoside antibiotics represent a promising class of novel antibacterial agents. The structural complexity suggests the investigation of simplified analogues as potential lead structures, which can then be further optimized towards highly potent antimicrobials. Herein we report studies on muraymycin-derived potential lead structures lacking an aminoribose motif found in most naturally occurring muraymycins. We have identified a 5'-defunctionalized motif to be ideal in terms of stability and chemical accessibility and have synthesized a full-length muraymycin analogue based on this structure using a novel fully stereocontrolled route. The obtained 5'-deoxy analogue of the natural product muraymycin C4 showed good inhibitory properties towards the bacterial target protein MraY, sufficient pharmacokinetic stability and no cytotoxicity against human cells, thus making it a promising lead for antibacterial drug development.

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Identification of a Novel Inhibition Site in Translocase MraY Based upon the Site of Interaction with Lysis Protein E from Bacteriophage ϕX174

Rodolis

Mihalyi

O'Reilly

et al. 2014

ChemBioChem

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Translocase MraY is the site of action of lysis protein E from bacteriophage ϕX174. Previous genetic studies have shown that mutation F288L in transmembrane helix 9 of E. coli MraY confers resistance to protein E. Construction of a helical wheel model for transmembrane helix 9 of MraY and the transmembrane domain of protein E enabled the identification of an Arg-Trp-x-x-Trp (RWxxW) motif in protein E that might interact with Phe288 of MraY and the neighbouring Glu287. This motif is also found in a number of cationic antimicrobial peptide sequences. Synthetic dipeptides and pentapeptides based on the RWxxW consensus sequence showed inhibition of particulate E. coli MraY activity (IC50 200-600 μM), and demonstrated antimicrobial activity against E. coli (MIC 31-125 μg mL(-1)). Cationic antimicrobial peptides at a concentration of 100 μg mL(-1) containing Arg-Trp sequences also showed 30-60 % inhibition of E. coli MraY activity. Assay of the synthetic peptide inhibitors against recombinant MraY enzymes from Bacillus subtilis, Pseudomonas aeruginosa, and Micrococcus flavus (all of which lack Phe288) showed reduced levels of enzyme inhibition, and assay against recombinant E. coli MraY F288L and an E287A mutant demonstrated either reduced or no detectable enzyme inhibition, thus indicating that these peptides interact at this site. The MIC of Arg-Trp-octyl ester against E. coli was increased eightfold by overexpression of mraY, and was further increased by overexpression of the mraY mutant F288L, also consistent with inhibition at the RWxxW site. As this site is on the exterior face of the cytoplasmic membrane, it constitutes a potential new site for antimicrobial action, and provides a new cellular target for cationic antimicrobial peptides.

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Identification of novel inhibitors of phospho-MurNAc-pentapeptide translocase MraY from library screening: Isoquinoline alkaloid michellamine B and xanthene dye phloxine B

Mihalyi¹,

Jamshidi²,

Slikas³

et al. 2014

Bioorganic & Medicinal Chemistry

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Mechanism of action of the uridyl peptide antibiotics: an unexpected link to a protein–protein interaction site in translocase MraY

et al. 2014

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The pacidamycin and muraymycin uridyl peptide antibiotics show some structural resemblance to an Arg-Trp-x-x-Trp sequence motif for protein-protein interaction between bacteriophage ϕX174 protein E and E. coli translocase MraY. Members of the UPA class, and a synthetic uridine-peptide analogue, were found to show reduced levels of inhibition to F288L or E287A mutant MraY enzymes, implying that the UPAs interact at this extracellular site as part of the enzyme inhibition mechanism.

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Agnes Mihalyi

Lead Structures for New Antibacterials: Stereocontrolled Synthesis of a Bioactive Muraymycin Analogue

Identification of a Novel Inhibition Site in Translocase MraY Based upon the Site of Interaction with Lysis Protein E from Bacteriophage ϕX174

Identification of novel inhibitors of phospho-MurNAc-pentapeptide translocase MraY from library screening: Isoquinoline alkaloid michellamine B and xanthene dye phloxine B

Mechanism of action of the uridyl peptide antibiotics: an unexpected link to a protein–protein interaction site in translocase MraY

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