A chemical genetic screen in Mycobacterium tuberculosis identifies carbon-source-dependent growth inhibitors devoid of in vivo efficacy. Academic Article uri icon

Overview

abstract

  • Candidate antibacterials are usually identified on the basis of their in vitro activity. However, the apparent inhibitory activity of new leads can be misleading because most culture media do not reproduce an environment relevant to infection in vivo. In this study, while screening for novel anti-tuberculars, we uncovered how carbon metabolism can affect antimicrobial activity. Novel pyrimidine-imidazoles (PIs) were identified in a whole-cell screen against Mycobacterium tuberculosis. Lead optimization generated in vitro potent derivatives with desirable pharmacokinetic properties, yet without in vivo efficacy. Mechanism of action studies linked the PI activity to glycerol metabolism, which is not relevant for M. tuberculosis during infection. PIs induced self-poisoning of M. tuberculosis by promoting the accumulation of glycerol phosphate and rapid ATP depletion. This study underlines the importance of understanding central bacterial metabolism in vivo and of developing predictive in vitro culture conditions as a prerequisite for the rational discovery of new antibiotics.

authors

  • Pethe, Kevin
  • Sequeira, Patricia C
  • Agarwalla, Sanjay
  • Rhee, Kyu Y.
  • Kuhen, Kelli
  • Phong, Wai Yee
  • Patel, Viral
  • Beer, David
  • Walker, John R
  • Duraiswamy, Jeyaraj
  • Jiricek, Jan
  • Keller, Thomas H
  • Chatterjee, Arnab
  • Tan, Mai Ping
  • Ujjini, Manjunatha
  • Rao, Srinivasa P S
  • Camacho, Luis
  • Bifani, Pablo
  • Mak, Puiying A
  • Ma, Ida
  • Barnes, S Whitney
  • Chen, Zhong
  • Plouffe, David
  • Thayalan, Pamela
  • Ng, Seow Hwee
  • Au, Melvin
  • Lee, Boon Heng
  • Tan, Bee Huat
  • Ravindran, Sindhu
  • Nanjundappa, Mahesh
  • Lin, Xiuhua
  • Goh, Anne
  • Lakshminarayana, Suresh B
  • Shoen, Carolyn
  • Cynamon, Michael
  • Kreiswirth, Barry
  • Dartois, Veronique
  • Peters, Eric C
  • Glynne, Richard
  • Brenner, Sydney
  • Dick, Thomas

publication date

  • August 24, 2010

Research

keywords

  • Mycobacterium tuberculosis

Identity

PubMed Central ID

  • PMC3220188

Scopus Document Identifier

  • 79251537963

Digital Object Identifier (DOI)

  • 10.1038/ncomms1060

PubMed ID

  • 20975714

Additional Document Info

volume

  • 1