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Antimicrobial agents and chemotherapy
Oct, 2014;58 (10): 6165-71.

UDP-N-acetylmuramic acid l-alanine ligase (MurC) inhibition in a tolC mutant Escherichia coli strain leads to cell death.

Vaishali Humnabadkar, K R Prabhakar, Ashwini Narayan, Sreevalli Sharma, Supreeth Guptha, Praveena Manjrekar, Murugan Chinnapattu, Vasanthi Ramachandran, Shahul P Hameed, Sudha Ravishankar, Monalisa Chatterji
Author Information
  1. Vaishali Humnabadkar: Biosciences, AstraZeneca, Bangalore, India.
  2. K R Prabhakar: DMPK and Animal Sciences, AstraZeneca, Bangalore, India.
  3. Ashwini Narayan: Biosciences, AstraZeneca, Bangalore, India.
  4. Sreevalli Sharma: Biosciences, AstraZeneca, Bangalore, India.
  5. Supreeth Guptha: Biosciences, AstraZeneca, Bangalore, India.
  6. Praveena Manjrekar: Chemistry, AstraZeneca, Bangalore, India.
  7. Murugan Chinnapattu: Chemistry, AstraZeneca, Bangalore, India.
  8. Vasanthi Ramachandran: Biosciences, AstraZeneca, Bangalore, India.
  9. Shahul P Hameed: Chemistry, AstraZeneca, Bangalore, India.
  10. Sudha Ravishankar: Biosciences, AstraZeneca, Bangalore, India.
  11. Monalisa Chatterji: Biosciences, AstraZeneca, Bangalore, India monalisa.chatterji@astrazeneca.com.
PMID: 25114134 DOI: 10.1128/AAC.02890-14

Abstract

The Mur ligases play an essential role in the biosynthesis of bacterial peptidoglycan and hence are attractive antibacterial targets. A screen of the AstraZeneca compound library led to the identification of compound A, a pyrazolopyrimidine, as a potent inhibitor of Escherichia coli and Pseudomonas aeruginosa MurC. However, cellular activity against E. coli or P. aeruginosa was not observed. Compound A was active against efflux pump mutants of both strains. Experiments using an E. coli tolC mutant revealed accumulation of the MurC substrate and a decrease in the level of product upon treatment with compound A ,: indicating inhibition of MurC enzyme in these cells. Such a modulation was not observed in the E. coli wild-type cells. Further, overexpression of MurC in the E. coli tolC mutant led to an increase in the compound A MIC by ≥16-fold, establishing a correlation between MurC inhibition and cellular activity. In addition, estimation of the intracellular compound A level showed an accumulation of the compound over time in the tolC mutant strain. A significant compound A level was not detected in the wild-type E. coli strain even upon treatment with high concentrations of the compound. Therefore, the lack of MIC and absence of MurC inhibition in wild-type E. coli were possibly due to suboptimal compound concentration as a consequence of a high efflux level and/or poor permeativity of compound A.

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MeSH Term

Alanine
Bacterial Outer Membrane Proteins
Escherichia coli
Escherichia coli Proteins
Membrane Transport Proteins
Mutation
Peptide Synthases
Pseudomonas aeruginosa
Uridine Diphosphate N-Acetylmuramic Acid

Chemicals

Bacterial Outer Membrane Proteins
Escherichia coli Proteins
Membrane Transport Proteins
Uridine Diphosphate N-Acetylmuramic Acid
tolC protein, E coli
Peptide Synthases
Alanine
Journal Article

Word Cloud

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