Detection of drug resistant Mycobacterium tuberculosis by high-throughput sequencing of DNA isolated from acid fast bacilli smears

Mazhgan Rowneki; Naomi Aronson; Peicheng Du; Paige Sachs; Robert Blakemore; Soumitesh Chakravorty; Shawn Levy; Angela Jones; Geetika Trivedi; Sheilla Chebore; Dennis Addo; Denis K. Byarugaba; Panganani Njobvu; Frederick Wabwire-Mangen; Bernard Erima; Eric Ramos; Carlton A. Evans; Braden Hale; James D. Mancuso; David Alland

doi:10.1371/journal.pone.0232343

Detection of drug resistant Mycobacterium tuberculosis by high-throughput sequencing of DNA isolated from acid fast bacilli smears

Mazhgan Rowneki(Rutgers, The State University of New Jersey), Naomi Aronson(Uniformed Services University of the Health Sciences), Peicheng Du(Rutgers, The State University of New Jersey), Paige Sachs(Uniformed Services University of the Health Sciences), Robert Blakemore(Rutgers, The State University of New Jersey), Soumitesh Chakravorty(Rutgers, The State University of New Jersey), Shawn Levy(HudsonAlpha Institute for Biotechnology), Angela Jones(HudsonAlpha Institute for Biotechnology), Geetika Trivedi(HudsonAlpha Institute for Biotechnology), Sheilla Chebore(United States Army Medical Research Directorate - Africa), Dennis Addo(37 Military Hospital), Denis K. Byarugaba(Makerere University Walter Reed Project), Panganani Njobvu, Frederick Wabwire-Mangen(Makerere University Walter Reed Project), Bernard Erima(Makerere University Walter Reed Project), Eric Ramos(Universidad Peruana Cayetano Heredia), Carlton A. Evans(Universidad Peruana Cayetano Heredia), Braden Hale(Defense Health Agency), James D. Mancuso(Armed Forces Health Surveillance Center), David Alland(Rutgers, The State University of New Jersey)

PLoS ONE

May 8, 2020

10.1371/journal.pone.0232343

Cited by 13Open Access

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Abstract

BACKGROUND: Drug susceptibility testing for Mycobacterium tuberculosis (MTB) is difficult to perform in resource-limited settings where Acid Fast Bacilli (AFB) smears are commonly used for disease diagnosis and monitoring. We developed a simple method for extraction of MTB DNA from AFB smears for sequencing-based detection of mutations associated with resistance to all first and several second-line anti-tuberculosis drugs. METHODS: We isolated MTB DNA by boiling smear content in a Chelex solution, followed by column purification. We sequenced PCR-amplified segments of the rpoB, katG, embB, gyrA, gyrB, rpsL, and rrs genes, the inhA, eis, and pncA promoters and the entire pncA gene. RESULTS: We tested our assay on 1,208 clinically obtained AFB smears from Ghana (n = 379), Kenya (n = 517), Uganda (n = 262), and Zambia (n = 50). Coverage depth varied by target and slide smear grade, ranging from 300X to 12000X on average. Coverage of ≥20X was obtained for all targets in 870 (72%) slides overall. Mono-resistance (5.9%), multi-drug resistance (1.8%), and poly-resistance (2.4%) mutation profiles were detected in 10% of slides overall, and in over 32% of retreatment and follow-up cases. CONCLUSION: This rapid AFB smear DNA-based method for determining drug resistance may be useful for the diagnosis and surveillance of drug-resistant tuberculosis.

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