Imidazopyridine Compounds Inhibit Mycobacterial Growth by Depleting ATP Levels

Imidazopyridine Compounds Inhibit Mycobacterial Growth by Depleting ATP Levels

The imidazopyridines are a promising new class of antitubercular agents with potent activity and We isolated mutants of resistant to a representative imidazopyridine; the mutants had large shifts (>20-fold) in MIC. Whole-genome sequencing revealed mutations in Rv1339, a hypothetical protein of un...

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Published in:Antimicrobial agents and chemotherapy Vol. 62; no. 6
Main Authors: O'Malley, Theresa, Alling, Torey, Early, Julie V, Wescott, Heather A, Kumar, Anuradha, Moraski, Garrett C, Miller, Marvin J, Masquelin, Thierry, Hipskind, Philip A, Parish, Tanya
Format: Journal Article
Language:English
Published: United States American Society for Microbiology 01-06-2018
Subjects:
Adenosine Triphosphate
Antitubercular Agents
Imidazoles
Mechanisms of Resistance
Mycobacterium tuberculosis
Pyridines
mycobacterium
drug discovery
cytochrome oxidase
antibacterial
respiration
drug resistance
ATP
antibiotics
mycobacteria
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Summary:The imidazopyridines are a promising new class of antitubercular agents with potent activity and We isolated mutants of resistant to a representative imidazopyridine; the mutants had large shifts (>20-fold) in MIC. Whole-genome sequencing revealed mutations in Rv1339, a hypothetical protein of unknown function. We isolated mutants resistant to three further compounds from the series; resistant mutants isolated from two of the compounds had single nucleotide polymorphisms in Rv1339 and resistant mutants isolated from the third compound had single nucleotide polymorphisms in QcrB, the proposed target for the series. All the strains were resistant to two compounds, regardless of the mutation, and a strain carrying the QcrB T313I mutation was resistant to all of the imidazopyridine derivatives tested, confirming cross-resistance. By monitoring pH homeostasis and ATP generation, we confirmed that compounds from the series were targeting QcrB; imidazopyridines disrupted pH homeostasis and depleted ATP, providing further evidence of an effect on the electron transport chain. A representative compound was bacteriostatic against replicating bacteria, consistent with a mode of action against QcrB. The series had a narrow inhibitory spectrum, with no activity against other bacterial species. No synergy or antagonism was seen with other antituberculosis drugs under development. In conclusion, our data support the hypothesis that the imidazopyridine series functions by reducing ATP generation via inhibition of QcrB.
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Citation O'Malley T, Alling T, Early JV, Wescott HA, Kumar A, Moraski GC, Miller MJ, Masquelin T, Hipskind PA, Parish T. 2018. Imidazopyridine compounds inhibit mycobacterial growth by depleting ATP levels. Antimicrob Agents Chemother 62:e02439-17. https://doi.org/10.1128/AAC.02439-17.
Present address: Garrett C. Moraski, Department of Chemistry and Biochemistry, Montana State University, Bozeman, Montana, USA.
ISSN:0066-4804
1098-6596
DOI:10.1128/AAC.02439-17