Hi-plex deep amplicon sequencing for identification, high-resolution genotyping and multidrug resistance prediction of Mycobacterium leprae directly from patient biopsies by using Deeplex Myc-Lep

BACKGROUND: Expansion of antimicrobial resistance monitoring and epidemiological surveillance are key components of the WHO strategy towards zero leprosy. The inability to grow Mycobacterium leprae in vitro precludes routine phenotypic drug susceptibility testing, and only limited molecular tests ar...

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Autores principales: Jouet, Agathe, Braet, Sofie Marijke, Gaudin, Cyril, Bisch, Gaëlle, Vasconcellos, Sidra, Epaminondas Nicacio de Oliveira do Livramento, Rebecca Emmanuela, Prado Palacios, Yrneh Yadamis, Fontes, Amanda Brum, Lucena, Norma, Rosa, Patricia, Moraes, Milton, La, Kevin, Badalato, Nelly, Lenoir, Esteban, Ferré, Alice, Clément, Marie, Hasker, Epco, Grillone, Silahi Halifa, Abdou, Wirdane, Said, Aouladi, Assoumani, Younoussa, Attoumani, Nissad, Laurent, Yannick, Cambau, Emmanuelle, de Jong, Bouke Catherine, Suffys, Philip Noël, Supply, Philip
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2023
Materias:
Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10279541/
https://www.ncbi.nlm.nih.gov/pubmed/37327675
http://dx.doi.org/10.1016/j.ebiom.2023.104649
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author Jouet, Agathe
Braet, Sofie Marijke
Gaudin, Cyril
Bisch, Gaëlle
Vasconcellos, Sidra
Epaminondas Nicacio de Oliveira do Livramento, Rebecca Emmanuela
Prado Palacios, Yrneh Yadamis
Fontes, Amanda Brum
Lucena, Norma
Rosa, Patricia
Moraes, Milton
La, Kevin
Badalato, Nelly
Lenoir, Esteban
Ferré, Alice
Clément, Marie
Hasker, Epco
Grillone, Silahi Halifa
Abdou, Wirdane
Said, Aouladi
Assoumani, Younoussa
Attoumani, Nissad
Laurent, Yannick
Cambau, Emmanuelle
de Jong, Bouke Catherine
Suffys, Philip Noël
Supply, Philip
author_facet Jouet, Agathe
Braet, Sofie Marijke
Gaudin, Cyril
Bisch, Gaëlle
Vasconcellos, Sidra
Epaminondas Nicacio de Oliveira do Livramento, Rebecca Emmanuela
Prado Palacios, Yrneh Yadamis
Fontes, Amanda Brum
Lucena, Norma
Rosa, Patricia
Moraes, Milton
La, Kevin
Badalato, Nelly
Lenoir, Esteban
Ferré, Alice
Clément, Marie
Hasker, Epco
Grillone, Silahi Halifa
Abdou, Wirdane
Said, Aouladi
Assoumani, Younoussa
Attoumani, Nissad
Laurent, Yannick
Cambau, Emmanuelle
de Jong, Bouke Catherine
Suffys, Philip Noël
Supply, Philip
author_sort Jouet, Agathe
collection PubMed
description BACKGROUND: Expansion of antimicrobial resistance monitoring and epidemiological surveillance are key components of the WHO strategy towards zero leprosy. The inability to grow Mycobacterium leprae in vitro precludes routine phenotypic drug susceptibility testing, and only limited molecular tests are available. We evaluated a culture-free targeted deep sequencing assay, for mycobacterial identification, genotyping based on 18 canonical SNPs and 11 core variable-number tandem-repeat (VNTR) markers, and detection of rifampicin, dapsone and fluoroquinolone resistance-associated mutations in rpoB/ctpC/ctpI, folP1, gyrA/gyrB, respectively, and hypermutation-associated mutations in nth. METHODS: The limit of detection (LOD) was determined using DNA of M. leprae reference strains and from 246 skin biopsies and 74 slit skin smears of leprosy patients, with genome copies quantified by RLEP qPCR. Sequencing results were evaluated versus whole genome sequencing (WGS) data of 14 strains, and versus VNTR-fragment length analysis (FLA) results of 89 clinical specimens. FINDINGS: The LOD for sequencing success ranged between 80 and 3000 genome copies, depending on the sample type. The LOD for minority variants was 10%. All SNPs detected in targets by WGS were identified except in a clinical sample where WGS revealed two dapsone resistance-conferring mutations instead of one by Deeplex Myc-Lep, due to partial duplication of the sulfamide-binding domain in folP1. SNPs detected uniquely by Deeplex Myc-Lep were missed by WGS due to insufficient coverage. Concordance with VNTR-FLA results was 99.4% (926/932 alleles). INTERPRETATION: Deeplex Myc-Lep may help improve the diagnosis and surveillance of leprosy. Gene domain duplication is an original putative drug resistance-related genetic adaptation in M. leprae. FUNDING: EDCTP2 programme supported by the 10.13039/501100000780European Union (grant number RIA2017NIM-1847 -PEOPLE). EDCTP, R2Stop: Effect:Hope, The Mission To End Leprosy, the Flemish Fonds Wetenschappelijk Onderzoek.
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spelling pubmed-102795412023-06-21 Hi-plex deep amplicon sequencing for identification, high-resolution genotyping and multidrug resistance prediction of Mycobacterium leprae directly from patient biopsies by using Deeplex Myc-Lep Jouet, Agathe Braet, Sofie Marijke Gaudin, Cyril Bisch, Gaëlle Vasconcellos, Sidra Epaminondas Nicacio de Oliveira do Livramento, Rebecca Emmanuela Prado Palacios, Yrneh Yadamis Fontes, Amanda Brum Lucena, Norma Rosa, Patricia Moraes, Milton La, Kevin Badalato, Nelly Lenoir, Esteban Ferré, Alice Clément, Marie Hasker, Epco Grillone, Silahi Halifa Abdou, Wirdane Said, Aouladi Assoumani, Younoussa Attoumani, Nissad Laurent, Yannick Cambau, Emmanuelle de Jong, Bouke Catherine Suffys, Philip Noël Supply, Philip eBioMedicine Articles BACKGROUND: Expansion of antimicrobial resistance monitoring and epidemiological surveillance are key components of the WHO strategy towards zero leprosy. The inability to grow Mycobacterium leprae in vitro precludes routine phenotypic drug susceptibility testing, and only limited molecular tests are available. We evaluated a culture-free targeted deep sequencing assay, for mycobacterial identification, genotyping based on 18 canonical SNPs and 11 core variable-number tandem-repeat (VNTR) markers, and detection of rifampicin, dapsone and fluoroquinolone resistance-associated mutations in rpoB/ctpC/ctpI, folP1, gyrA/gyrB, respectively, and hypermutation-associated mutations in nth. METHODS: The limit of detection (LOD) was determined using DNA of M. leprae reference strains and from 246 skin biopsies and 74 slit skin smears of leprosy patients, with genome copies quantified by RLEP qPCR. Sequencing results were evaluated versus whole genome sequencing (WGS) data of 14 strains, and versus VNTR-fragment length analysis (FLA) results of 89 clinical specimens. FINDINGS: The LOD for sequencing success ranged between 80 and 3000 genome copies, depending on the sample type. The LOD for minority variants was 10%. All SNPs detected in targets by WGS were identified except in a clinical sample where WGS revealed two dapsone resistance-conferring mutations instead of one by Deeplex Myc-Lep, due to partial duplication of the sulfamide-binding domain in folP1. SNPs detected uniquely by Deeplex Myc-Lep were missed by WGS due to insufficient coverage. Concordance with VNTR-FLA results was 99.4% (926/932 alleles). INTERPRETATION: Deeplex Myc-Lep may help improve the diagnosis and surveillance of leprosy. Gene domain duplication is an original putative drug resistance-related genetic adaptation in M. leprae. FUNDING: EDCTP2 programme supported by the 10.13039/501100000780European Union (grant number RIA2017NIM-1847 -PEOPLE). EDCTP, R2Stop: Effect:Hope, The Mission To End Leprosy, the Flemish Fonds Wetenschappelijk Onderzoek. Elsevier 2023-06-14 /pmc/articles/PMC10279541/ /pubmed/37327675 http://dx.doi.org/10.1016/j.ebiom.2023.104649 Text en © 2023 The Author(s) https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Articles
Jouet, Agathe
Braet, Sofie Marijke
Gaudin, Cyril
Bisch, Gaëlle
Vasconcellos, Sidra
Epaminondas Nicacio de Oliveira do Livramento, Rebecca Emmanuela
Prado Palacios, Yrneh Yadamis
Fontes, Amanda Brum
Lucena, Norma
Rosa, Patricia
Moraes, Milton
La, Kevin
Badalato, Nelly
Lenoir, Esteban
Ferré, Alice
Clément, Marie
Hasker, Epco
Grillone, Silahi Halifa
Abdou, Wirdane
Said, Aouladi
Assoumani, Younoussa
Attoumani, Nissad
Laurent, Yannick
Cambau, Emmanuelle
de Jong, Bouke Catherine
Suffys, Philip Noël
Supply, Philip
Hi-plex deep amplicon sequencing for identification, high-resolution genotyping and multidrug resistance prediction of Mycobacterium leprae directly from patient biopsies by using Deeplex Myc-Lep
title Hi-plex deep amplicon sequencing for identification, high-resolution genotyping and multidrug resistance prediction of Mycobacterium leprae directly from patient biopsies by using Deeplex Myc-Lep
title_full Hi-plex deep amplicon sequencing for identification, high-resolution genotyping and multidrug resistance prediction of Mycobacterium leprae directly from patient biopsies by using Deeplex Myc-Lep
title_fullStr Hi-plex deep amplicon sequencing for identification, high-resolution genotyping and multidrug resistance prediction of Mycobacterium leprae directly from patient biopsies by using Deeplex Myc-Lep
title_full_unstemmed Hi-plex deep amplicon sequencing for identification, high-resolution genotyping and multidrug resistance prediction of Mycobacterium leprae directly from patient biopsies by using Deeplex Myc-Lep
title_short Hi-plex deep amplicon sequencing for identification, high-resolution genotyping and multidrug resistance prediction of Mycobacterium leprae directly from patient biopsies by using Deeplex Myc-Lep
title_sort hi-plex deep amplicon sequencing for identification, high-resolution genotyping and multidrug resistance prediction of mycobacterium leprae directly from patient biopsies by using deeplex myc-lep
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10279541/
https://www.ncbi.nlm.nih.gov/pubmed/37327675
http://dx.doi.org/10.1016/j.ebiom.2023.104649
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