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Tuberculosis is one of the leading causes of death worldwide, with an estimated 1.4 million deaths and ten million people infected annually. Resistant and multidrug-resistant (MDR) variants of the tuberculosis pathogen Mycobacterium tuberculosis pose a major threat to tuberculosis control and global health. Rapid detection of these patient-specific resistance patterns is therefore crucial for targeted treatment and successful control of the transmission of antibiotic-resistant tuberculosis bacteria—a goal that DZIF scientists have now taken a major step towards.
Mutations in the genome of multidrug-resistant (MDR) M. tuberculosis bacteria occur in different combinations in MDR tuberculosis patients. In an international study presented in the journal Lancet Microbe, DZIF researchers have now succeeded in identifying patient-specific resistance patterns using a bacterial genome analysis technique. The determination of these resistance patterns can serve as a basis for targeted personalised treatment of tuberculosis patients in the future.
"This large-scale study is the result of close collaboration between DZIF scientists in Borstel and Heidelberg, the global diagnostics alliance FIND, and partners in five countries where tuberculosis is highly endemic. The sequence analysis enables us to better understand the genetic basis for resistance to anti-tuberculosis drugs and therefore to provide faster, personalised anti-tuberculosis treatment," summarises Dr Claudia Denkinger, last author of the publication.
"In the comparative genome analysis, we also observed, for example, changes in the genetic makeup of the bacteria that do not always lead to unambiguous results in classical bacterial culture-based resistance testing, but may potentially influence therapy," says Dr Matthias Merker, one of the study's first authors and Schleswig-Holstein Excellence-Chair junior research group leader at the Research Center Borstel.
"Our study also shows that genetic analysis of the bacteria already enables precise prediction of resistance to important tuberculosis antibiotics and can replace many of the classical and often lengthy tests," adds Prof. Stefan Niemann of the National Reference Center for Mycobacteria at Borstel, one of the study's final authors. "In the future, we plan to further expand this bacterial genomic analysis technique specifically in tuberculosis focal points in southern Africa, Eastern Europe and Central Asia."
The work was supported by the Bill & Melinda Gates Foundation, the German Center for Infection Research (DZIF) and the Schleswig-Holstein Cluster of Excellence "Precision Medicine for Chronic Inflammatory Diseases."
PD Dr. Claudia Denkinger
Universitätsklinikum Heidelberg
Claudia.Denkinger[at]Uni-Heidelberg.de
Prof. Dr. Stefan Niemann
Forschungszentrum Borstel, Leibniz Lungenzentrum
Stellv. Koordinator Tuberkulose
sniemann[at]fz-borstel.de
Investigating resistance in clinical Mycobacterium tuberculosis complex isolates with genomic and phenotypic antimicrobial susceptibility testing: a multicentre observational study, Finci I. et al., Lancet Microbe, 2022, DOI: 10.1016/S2666-5247(22)00116-1.
https://www.dzif.de/en/personalised-antibiotic-treatment-strategies-tuberculosis... DZIF-press release
Electron microscopic image of Mycobacterium tuberculosis (left); circular phylogenetic tree depictin ...
S. Homolka, T. Gutsmann/Borstel
CC BY 4.0/Finci, I. et al.
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Electron microscopic image of Mycobacterium tuberculosis (left); circular phylogenetic tree depictin ...
S. Homolka, T. Gutsmann/Borstel
CC BY 4.0/Finci, I. et al.
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