FLASH-TB: an Application of Next-Generation CRISPR to Detect Drug Resistant Tuberculosis from Direct Sputum

Offering patients with tuberculosis (TB) an optimal and timely treatment regimen depends on the rapid detection of Mycobacterium tuberculosis (Mtb) drug resistance from clinical samples. Finding Low Abundance Sequences by Hybridization (FLASH) is a technique that harnesses the efficiency, specificit...

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Autores principales: Tram, Trinh Thi Bich, Ha, Vu Thi Ngoc, Trieu, Le Pham Tien, Ashton, Philip M., Crawford, Emily D., Thu, Do Dang Anh, Quang, Nguyen Le, Thwaites, Guy E., Walker, Timothy M., Anscombe, Catherine, Thuong, Nguyen Thuy Thuong
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society for Microbiology 2023
Materias:
Mycobacteriology and Aerobic Actinomycetes
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10117099/
https://www.ncbi.nlm.nih.gov/pubmed/37010411
http://dx.doi.org/10.1128/jcm.01634-22
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author Tram, Trinh Thi Bich
Ha, Vu Thi Ngoc
Trieu, Le Pham Tien
Ashton, Philip M.
Crawford, Emily D.
Thu, Do Dang Anh
Quang, Nguyen Le
Thwaites, Guy E.
Walker, Timothy M.
Anscombe, Catherine
Thuong, Nguyen Thuy Thuong
author_facet Tram, Trinh Thi Bich
Ha, Vu Thi Ngoc
Trieu, Le Pham Tien
Ashton, Philip M.
Crawford, Emily D.
Thu, Do Dang Anh
Quang, Nguyen Le
Thwaites, Guy E.
Walker, Timothy M.
Anscombe, Catherine
Thuong, Nguyen Thuy Thuong
author_sort Tram, Trinh Thi Bich
collection PubMed
description Offering patients with tuberculosis (TB) an optimal and timely treatment regimen depends on the rapid detection of Mycobacterium tuberculosis (Mtb) drug resistance from clinical samples. Finding Low Abundance Sequences by Hybridization (FLASH) is a technique that harnesses the efficiency, specificity, and flexibility of the Cas9 enzyme to enrich targeted sequences. Here, we used FLASH to amplify 52 candidate genes probably associated with resistance to first- and second-line drugs in the Mtb reference strain (H37Rv), then detect drug resistance mutations in cultured Mtb isolates, and in sputum samples. 92% of H37Rv reads mapped to Mtb targets, with 97.8% of target regions covered at a depth ≥ 10X. Among cultured isolates, FLASH-TB detected the same 17 drug resistance mutations as whole genome sequencing (WGS) did, but with much greater depth. Among the 16 sputum samples, FLASH-TB increased recovery of Mtb DNA compared with WGS (from 1.4% [IQR 0.5-7.5] to 33% [IQR 4.6-66.3]) and average depth reads of targets (from 6.3 [IQR 3.8-10.5] to 1991 [IQR 254.4-3623.7]). FLASH-TB identified Mtb complex in all 16 samples based on IS1081 and IS6110 copies. Drug resistance predictions for 15/16 (93.7%) clinical samples were highly concordant with phenotypic DST for isoniazid, rifampicin, amikacin, and kanamycin [15/15 (100%)], ethambutol [12/15 (80%)] and moxifloxacin [14/15 (93.3%)]. These results highlighted the potential of FLASH-TB for detecting Mtb drug resistance from sputum samples.
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spelling pubmed-101170992023-04-21 FLASH-TB: an Application of Next-Generation CRISPR to Detect Drug Resistant Tuberculosis from Direct Sputum Tram, Trinh Thi Bich Ha, Vu Thi Ngoc Trieu, Le Pham Tien Ashton, Philip M. Crawford, Emily D. Thu, Do Dang Anh Quang, Nguyen Le Thwaites, Guy E. Walker, Timothy M. Anscombe, Catherine Thuong, Nguyen Thuy Thuong J Clin Microbiol Mycobacteriology and Aerobic Actinomycetes Offering patients with tuberculosis (TB) an optimal and timely treatment regimen depends on the rapid detection of Mycobacterium tuberculosis (Mtb) drug resistance from clinical samples. Finding Low Abundance Sequences by Hybridization (FLASH) is a technique that harnesses the efficiency, specificity, and flexibility of the Cas9 enzyme to enrich targeted sequences. Here, we used FLASH to amplify 52 candidate genes probably associated with resistance to first- and second-line drugs in the Mtb reference strain (H37Rv), then detect drug resistance mutations in cultured Mtb isolates, and in sputum samples. 92% of H37Rv reads mapped to Mtb targets, with 97.8% of target regions covered at a depth ≥ 10X. Among cultured isolates, FLASH-TB detected the same 17 drug resistance mutations as whole genome sequencing (WGS) did, but with much greater depth. Among the 16 sputum samples, FLASH-TB increased recovery of Mtb DNA compared with WGS (from 1.4% [IQR 0.5-7.5] to 33% [IQR 4.6-66.3]) and average depth reads of targets (from 6.3 [IQR 3.8-10.5] to 1991 [IQR 254.4-3623.7]). FLASH-TB identified Mtb complex in all 16 samples based on IS1081 and IS6110 copies. Drug resistance predictions for 15/16 (93.7%) clinical samples were highly concordant with phenotypic DST for isoniazid, rifampicin, amikacin, and kanamycin [15/15 (100%)], ethambutol [12/15 (80%)] and moxifloxacin [14/15 (93.3%)]. These results highlighted the potential of FLASH-TB for detecting Mtb drug resistance from sputum samples. American Society for Microbiology 2023-04-03 /pmc/articles/PMC10117099/ /pubmed/37010411 http://dx.doi.org/10.1128/jcm.01634-22 Text en Copyright © 2023 Tram et al. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution 4.0 International license (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Mycobacteriology and Aerobic Actinomycetes
Tram, Trinh Thi Bich
Ha, Vu Thi Ngoc
Trieu, Le Pham Tien
Ashton, Philip M.
Crawford, Emily D.
Thu, Do Dang Anh
Quang, Nguyen Le
Thwaites, Guy E.
Walker, Timothy M.
Anscombe, Catherine
Thuong, Nguyen Thuy Thuong
FLASH-TB: an Application of Next-Generation CRISPR to Detect Drug Resistant Tuberculosis from Direct Sputum
title FLASH-TB: an Application of Next-Generation CRISPR to Detect Drug Resistant Tuberculosis from Direct Sputum
title_full FLASH-TB: an Application of Next-Generation CRISPR to Detect Drug Resistant Tuberculosis from Direct Sputum
title_fullStr FLASH-TB: an Application of Next-Generation CRISPR to Detect Drug Resistant Tuberculosis from Direct Sputum
title_full_unstemmed FLASH-TB: an Application of Next-Generation CRISPR to Detect Drug Resistant Tuberculosis from Direct Sputum
title_short FLASH-TB: an Application of Next-Generation CRISPR to Detect Drug Resistant Tuberculosis from Direct Sputum
title_sort flash-tb: an application of next-generation crispr to detect drug resistant tuberculosis from direct sputum
topic Mycobacteriology and Aerobic Actinomycetes
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10117099/
https://www.ncbi.nlm.nih.gov/pubmed/37010411
http://dx.doi.org/10.1128/jcm.01634-22
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