Evolution and transmission of drug resistant tuberculosis in a Russian population

The molecular mechanisms determining transmissibility and prevalence of drug-resistant tuberculosis in a population were investigated through whole genome sequencing of 1,000 prospectively-obtained patient isolates from Russia. Two-thirds belonged to the Beijing lineage, which was dominated by two h...

Descripción completa

Detalles Bibliográficos
Autores principales: Casali, Nicola, Nikolayevskyy, Vladyslav, Balabanova, Yanina, Harris, Simon R, Ignatyeva, Olga, Kontsevaya, Irina, Corander, Jukka, Bryant, Josephine, Parkhill, Julian, Nejentsev, Sergey, Horstmann, Rolf D, Brown, Timothy, Drobniewski, Francis
Formato: Online Artículo Texto
Lenguaje:English
Publicado: 2014
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3939361/
https://www.ncbi.nlm.nih.gov/pubmed/24464101
http://dx.doi.org/10.1038/ng.2878
_version_ 1782305695657361408
author Casali, Nicola
Nikolayevskyy, Vladyslav
Balabanova, Yanina
Harris, Simon R
Ignatyeva, Olga
Kontsevaya, Irina
Corander, Jukka
Bryant, Josephine
Parkhill, Julian
Nejentsev, Sergey
Horstmann, Rolf D
Brown, Timothy
Drobniewski, Francis
author_facet Casali, Nicola
Nikolayevskyy, Vladyslav
Balabanova, Yanina
Harris, Simon R
Ignatyeva, Olga
Kontsevaya, Irina
Corander, Jukka
Bryant, Josephine
Parkhill, Julian
Nejentsev, Sergey
Horstmann, Rolf D
Brown, Timothy
Drobniewski, Francis
author_sort Casali, Nicola
collection PubMed
description The molecular mechanisms determining transmissibility and prevalence of drug-resistant tuberculosis in a population were investigated through whole genome sequencing of 1,000 prospectively-obtained patient isolates from Russia. Two-thirds belonged to the Beijing lineage, which was dominated by two homogeneous clades. MDR genotypes were found in 48% of isolates overall and 87% of the major clades. The most common rifampicin-resistance rpoB mutation was associated with fitness-compensatory mutations in rpoA or rpoC, and a novel intragenic compensatory substitution was identified. The proportion of MDR cases with XDR-tuberculosis was 16% overall with 65% of MDR isolates harboring eis mutations, selected by kanamycin therapy, which may drive the expansion of strains with enhanced virulence. The combination of drug resistance and compensatory mutations displayed by the major clades confer clinical resistance without compromising fitness and transmissibility, revealing a biological contribution to the tuberculosis program weaknesses driving the persistence and spread of M/XDR-tuberculosis in Russia and beyond.
format Online
Article
Text
id pubmed-3939361
institution National Center for Biotechnology Information
language English
publishDate 2014
record_format MEDLINE/PubMed
spelling pubmed-39393612014-09-01 Evolution and transmission of drug resistant tuberculosis in a Russian population Casali, Nicola Nikolayevskyy, Vladyslav Balabanova, Yanina Harris, Simon R Ignatyeva, Olga Kontsevaya, Irina Corander, Jukka Bryant, Josephine Parkhill, Julian Nejentsev, Sergey Horstmann, Rolf D Brown, Timothy Drobniewski, Francis Nat Genet Article The molecular mechanisms determining transmissibility and prevalence of drug-resistant tuberculosis in a population were investigated through whole genome sequencing of 1,000 prospectively-obtained patient isolates from Russia. Two-thirds belonged to the Beijing lineage, which was dominated by two homogeneous clades. MDR genotypes were found in 48% of isolates overall and 87% of the major clades. The most common rifampicin-resistance rpoB mutation was associated with fitness-compensatory mutations in rpoA or rpoC, and a novel intragenic compensatory substitution was identified. The proportion of MDR cases with XDR-tuberculosis was 16% overall with 65% of MDR isolates harboring eis mutations, selected by kanamycin therapy, which may drive the expansion of strains with enhanced virulence. The combination of drug resistance and compensatory mutations displayed by the major clades confer clinical resistance without compromising fitness and transmissibility, revealing a biological contribution to the tuberculosis program weaknesses driving the persistence and spread of M/XDR-tuberculosis in Russia and beyond. 2014-01-26 2014-03 /pmc/articles/PMC3939361/ /pubmed/24464101 http://dx.doi.org/10.1038/ng.2878 Text en Users may view, print, copy, download and text and data- mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use: http://www.nature.com/authors/editorial_policies/license.html#terms
spellingShingle Article
Casali, Nicola
Nikolayevskyy, Vladyslav
Balabanova, Yanina
Harris, Simon R
Ignatyeva, Olga
Kontsevaya, Irina
Corander, Jukka
Bryant, Josephine
Parkhill, Julian
Nejentsev, Sergey
Horstmann, Rolf D
Brown, Timothy
Drobniewski, Francis
Evolution and transmission of drug resistant tuberculosis in a Russian population
title Evolution and transmission of drug resistant tuberculosis in a Russian population
title_full Evolution and transmission of drug resistant tuberculosis in a Russian population
title_fullStr Evolution and transmission of drug resistant tuberculosis in a Russian population
title_full_unstemmed Evolution and transmission of drug resistant tuberculosis in a Russian population
title_short Evolution and transmission of drug resistant tuberculosis in a Russian population
title_sort evolution and transmission of drug resistant tuberculosis in a russian population
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3939361/
https://www.ncbi.nlm.nih.gov/pubmed/24464101
http://dx.doi.org/10.1038/ng.2878
work_keys_str_mv AT casalinicola evolutionandtransmissionofdrugresistanttuberculosisinarussianpopulation
AT nikolayevskyyvladyslav evolutionandtransmissionofdrugresistanttuberculosisinarussianpopulation
AT balabanovayanina evolutionandtransmissionofdrugresistanttuberculosisinarussianpopulation
AT harrissimonr evolutionandtransmissionofdrugresistanttuberculosisinarussianpopulation
AT ignatyevaolga evolutionandtransmissionofdrugresistanttuberculosisinarussianpopulation
AT kontsevayairina evolutionandtransmissionofdrugresistanttuberculosisinarussianpopulation
AT coranderjukka evolutionandtransmissionofdrugresistanttuberculosisinarussianpopulation
AT bryantjosephine evolutionandtransmissionofdrugresistanttuberculosisinarussianpopulation
AT parkhilljulian evolutionandtransmissionofdrugresistanttuberculosisinarussianpopulation
AT nejentsevsergey evolutionandtransmissionofdrugresistanttuberculosisinarussianpopulation
AT horstmannrolfd evolutionandtransmissionofdrugresistanttuberculosisinarussianpopulation
AT browntimothy evolutionandtransmissionofdrugresistanttuberculosisinarussianpopulation
AT drobniewskifrancis evolutionandtransmissionofdrugresistanttuberculosisinarussianpopulation

Ejemplares similares