Literature DB >> 12727073

Mutations causing in vitro resistance to azithromycin in Neisseria gonorrhoeae.

Steven R Johnson1, Amy L Sandul, Manhar Parekh, Susan A Wang, Joan S Knapp, David L Trees.   

Abstract

In 1999, a cluster of gonococcal isolates exhibiting high Minimal Inhibitory Concentrations (MICs), to azithromycin (2.0-4.0 mg/l) were identified in Kansas City, MO. Isolates were characterized by auxotype/serovar class, lipoprotein (Lip) subtyping and sequencing of the mtrR gene, which has been implicated in decreased azithromycin susceptibility in the gonococcus. Isolates were Pro/IB-3 and contained the 17c Lip subtype. Molecular characterization of the mtrR gene revealed a 153 base pair insertion sequence located between the mtrR/mtrC promoter and the mtrC gene. Some isolates also contained a frame shift within the mtrR gene. Transformation of these mutations into an azithromycin-sensitive recipient strain resulted in transformants with MICs as high as 2.0 mg/l and inactivation of the mtrD gene reduced azithromycin MICs 270-fold. These results demonstrated that the mtr mutations were responsible for the increased MICs in these isolates.

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Year:  2003        PMID: 12727073     DOI: 10.1016/s0924-8579(03)00039-6

Source DB:  PubMed          Journal:  Int J Antimicrob Agents        ISSN: 0924-8579            Impact factor:   5.283


  15 in total

Review 1.  Antimicrobial resistance in Neisseria gonorrhoeae in the 21st century: past, evolution, and future.

Authors:  Magnus Unemo; William M Shafer
Journal:  Clin Microbiol Rev       Date:  2014-07       Impact factor: 26.132

2.  In Vitro selection of Neisseria gonorrhoeae mutants with elevated MIC values and increased resistance to cephalosporins.

Authors:  Steven R Johnson; Yonatan Grad; Satishkumar Ranganathan Ganakammal; Mark Burroughs; Mike Frace; Marc Lipsitch; Ryan Weil; David Trees
Journal:  Antimicrob Agents Chemother       Date:  2014-09-08       Impact factor: 5.191

Review 3.  Emergence of multidrug-resistant, extensively drug-resistant and untreatable gonorrhea.

Authors:  Magnus Unemo; Robert A Nicholas
Journal:  Future Microbiol       Date:  2012-12       Impact factor: 3.165

4.  Analysis of Neisseria gonorrhoeae azithromycin susceptibility in the United States by the Gonococcal Isolate Surveillance Project, 2005 to 2013.

Authors:  Robert D Kirkcaldy; Olusegun Soge; John R Papp; Edward W Hook; Carlos del Rio; Grace Kubin; Hillard S Weinstock
Journal:  Antimicrob Agents Chemother       Date:  2014-12-01       Impact factor: 5.191

5.  Use of whole-genome sequencing data to analyze 23S rRNA-mediated azithromycin resistance.

Authors:  Steven R Johnson; Yonatan Grad; A Jeanine Abrams; Kevin Pettus; David L Trees
Journal:  Int J Antimicrob Agents       Date:  2016-12-19       Impact factor: 5.283

Review 6.  Efflux pumps of the resistance-nodulation-division family: a perspective of their structure, function, and regulation in gram-negative bacteria.

Authors:  Mathew D Routh; Yaramah Zalucki; Chih-Chia Su; Qijing Zhang; William M Shafer; Edward W Yu
Journal:  Adv Enzymol Relat Areas Mol Biol       Date:  2011

Review 7.  Resistance to macrolide, lincosamide, streptogramin, ketolide, and oxazolidinone antibiotics.

Authors:  Marilyn C Roberts
Journal:  Mol Biotechnol       Date:  2004-09       Impact factor: 2.695

8.  Acquired macrolide resistance genes in pathogenic Neisseria spp. isolated between 1940 and 1987.

Authors:  Sydney Cousin; William L H Whittington; Marilyn C Roberts
Journal:  Antimicrob Agents Chemother       Date:  2003-12       Impact factor: 5.191

9.  Cephalosporin Resistance in Neisseria gonorrhoeae.

Authors:  Manju Bala; Seema Sood
Journal:  J Glob Infect Dis       Date:  2010-09

Review 10.  An insight into the drug resistance profile & mechanism of drug resistance in Neisseria gonorrhoeae.

Authors:  Achchhe Lal Patel; Uma Chaudhry; Divya Sachdev; Poonam Nagpal Sachdeva; Manju Bala; Daman Saluja
Journal:  Indian J Med Res       Date:  2011-10       Impact factor: 2.375
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