PLoS ONE (Jan 2015)

Detection of Low-Level Mixed-Population Drug Resistance in Mycobacterium tuberculosis Using High Fidelity Amplicon Sequencing.

  • Rebecca E Colman,
  • James M Schupp,
  • Nathan D Hicks,
  • David E Smith,
  • Jordan L Buchhagen,
  • Faramarz Valafar,
  • Valeriu Crudu,
  • Elena Romancenco,
  • Ecaterina Noroc,
  • Lynn Jackson,
  • Donald G Catanzaro,
  • Timothy C Rodwell,
  • Antonino Catanzaro,
  • Paul Keim,
  • David M Engelthaler

DOI
https://doi.org/10.1371/journal.pone.0126626
Journal volume & issue
Vol. 10, no. 5
p. e0126626

Abstract

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Undetected and untreated, low-levels of drug resistant (DR) subpopulations in clinical Mycobacterium tuberculosis (Mtb) infections may lead to development of DR-tuberculosis, potentially resulting in treatment failure. Current phenotypic DR susceptibility testing has a theoretical potential for 1% sensitivity, is not quantitative, and requires several weeks to complete. The use of "single molecule-overlapping reads" (SMOR) analysis with next generation DNA sequencing for determination of ultra-rare target alleles in complex mixtures provides increased sensitivity over standard DNA sequencing. Ligation free amplicon sequencing with SMOR analysis enables the detection of resistant allele subpopulations at ≥0.1% of the total Mtb population in near real-time analysis. We describe the method using standardized mixtures of DNA from resistant and susceptible Mtb isolates and the assay's performance for detecting ultra-rare DR subpopulations in DNA extracted directly from clinical sputum samples. SMOR analysis enables rapid near real-time detection and tracking of previously undetectable DR sub-populations in clinical samples allowing for the evaluation of the clinical relevance of low-level DR subpopulations. This will provide insights into interventions aimed at suppressing minor DR subpopulations before they become clinically significant.