Literature DB >> 15047531

Effect of rpoB mutations conferring rifampin resistance on fitness of Mycobacterium tuberculosis.

Deneke H Mariam1, Yohannes Mengistu, Sven E Hoffner, Dan I Andersson.   

Abstract

Rifampin is a major drug used in the treatment of tuberculosis infections, and increasing rifampin resistance represents a worldwide clinical problem. Resistance to rifampin is caused by mutations in the rpoB gene, encoding the beta-subunit of RNA polymerase. We examined the effect of three different rpoB mutations on the fitness of Mycobacterium tuberculosis. Rifampin-resistant mutants were isolated from a virulent clinical isolate of M. tuberculosis (strain Harlingen) in vitro at a mutation frequency of 2.3 x 10(-8). Mutations in the rpoB gene were identified, and the growth rates of three defined mutants were measured by competition with the susceptible parent strain in laboratory medium and by single cultures in a macrophage cell line and in laboratory medium. All of the mutants showed a decreased growth rate in the three assays. The relative fitness of the mutants varied between 0.29 and 0.96 (that of the susceptible strain was set to 1.0) depending on the specific mutant and assay system. Unexpectedly, the relative fitness ranking of the mutants differed between the different assays. In conclusion, rifampin resistance is associated with a cost that is conditional.

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Year:  2004        PMID: 15047531      PMCID: PMC375340          DOI: 10.1128/AAC.48.4.1289-1294.2004

Source DB:  PubMed          Journal:  Antimicrob Agents Chemother        ISSN: 0066-4804            Impact factor:   5.191


  32 in total

1.  Effects of environment on compensatory mutations to ameliorate costs of antibiotic resistance.

Authors:  J Björkman; I Nagaev; O G Berg; D Hughes; D I Andersson
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2.  Mutation frequency and biological cost of antibiotic resistance in Helicobacter pylori.

Authors:  B Björkholm; M Sjölund; P G Falk; O G Berg; L Engstrand; D I Andersson
Journal:  Proc Natl Acad Sci U S A       Date:  2001-11-20       Impact factor: 11.205

3.  Global trends in resistance to antituberculosis drugs. World Health Organization-International Union against Tuberculosis and Lung Disease Working Group on Anti-Tuberculosis Drug Resistance Surveillance.

Authors:  M A Espinal; A Laszlo; L Simonsen; F Boulahbal; S J Kim; A Reniero; S Hoffner; H L Rieder; N Binkin; C Dye; R Williams; M C Raviglione
Journal:  N Engl J Med       Date:  2001-04-26       Impact factor: 91.245

4.  Biological cost and compensatory evolution in fusidic acid-resistant Staphylococcus aureus.

Authors:  I Nagaev; J Björkman; D I Andersson; D Hughes
Journal:  Mol Microbiol       Date:  2001-04       Impact factor: 3.501

5.  Compensatory evolution in rifampin-resistant Escherichia coli.

Authors:  M G Reynolds
Journal:  Genetics       Date:  2000-12       Impact factor: 4.562

6.  Physiological cost of rifampin resistance induced in vitro in Mycobacterium tuberculosis.

Authors:  O J Billington; T D McHugh; S H Gillespie
Journal:  Antimicrob Agents Chemother       Date:  1999-08       Impact factor: 5.191

7.  Bacteriological and molecular analysis of rifampin-resistant Mycobacterium tuberculosis strains isolated in Australia.

Authors:  L K Yuen; D Leslie; P J Coloe
Journal:  J Clin Microbiol       Date:  1999-12       Impact factor: 5.948

8.  Characterization of spontaneous, In vitro-selected, rifampin-resistant mutants of Mycobacterium tuberculosis strain H37Rv.

Authors:  G P Morlock; B B Plikaytis; J T Crawford
Journal:  Antimicrob Agents Chemother       Date:  2000-12       Impact factor: 5.191

9.  Persistence of sulphonamide resistance in Escherichia coli in the UK despite national prescribing restriction.

Authors:  V I Enne; D M Livermore; P Stephens; L M Hall
Journal:  Lancet       Date:  2001-04-28       Impact factor: 79.321

Review 10.  The molecular basis of resistance to isoniazid, rifampin, and pyrazinamide in Mycobacterium tuberculosis.

Authors:  A Somoskovi; L M Parsons; M Salfinger
Journal:  Respir Res       Date:  2001-04-05
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  99 in total

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3.  Resistance levels and rpoB gene mutations among in vitro-selected rifampin-resistant Mycobacterium tuberculosis mutants.

Authors:  Emma Huitric; Jim Werngren; Pontus Juréen; Sven Hoffner
Journal:  Antimicrob Agents Chemother       Date:  2006-08       Impact factor: 5.191

4.  Evaluation of MGIT 960-based antimicrobial testing and determination of critical concentrations of first- and second-line antimicrobial drugs with drug-resistant clinical strains of Mycobacterium tuberculosis.

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Review 5.  A practical guide to measuring mutation rates in antibiotic resistance.

Authors:  Cassie F Pope; Denise M O'Sullivan; Timothy D McHugh; Stephen H Gillespie
Journal:  Antimicrob Agents Chemother       Date:  2008-02-04       Impact factor: 5.191

Review 6.  Doomsday postponed? Preventing and reversing epidemics of drug-resistant tuberculosis.

Authors:  Christopher Dye
Journal:  Nat Rev Microbiol       Date:  2009-01       Impact factor: 60.633

7.  Pyrazinamide Resistance Is Caused by Two Distinct Mechanisms: Prevention of Coenzyme A Depletion and Loss of Virulence Factor Synthesis.

Authors:  Pooja Gopal; Michelle Yee; Jickky Sarathy; Jian Liang Low; Jansy P Sarathy; Firat Kaya; Véronique Dartois; Martin Gengenbacher; Thomas Dick
Journal:  ACS Infect Dis       Date:  2016-08-08       Impact factor: 5.084

Review 8.  Tuberculosis: drug resistance, fitness, and strategies for global control.

Authors:  Erik C Böttger; Burkhard Springer
Journal:  Eur J Pediatr       Date:  2007-11-07       Impact factor: 3.183

9.  How soon should patients with smear-positive tuberculosis be released from inpatient isolation?

Authors:  David J Horne; Catherine O Johnson; Eyal Oren; Christopher Spitters; Masahiro Narita
Journal:  Infect Control Hosp Epidemiol       Date:  2010-01       Impact factor: 3.254

10.  In situ growth rates and biofilm development of Pseudomonas aeruginosa populations in chronic lung infections.

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