Your search keyword '"Chloé Loiseau"' showing total 45 results

1. The relative transmission fitness of multidrug-resistant Mycobacterium tuberculosis in a drug resistance hotspot

Author

Chloé Loiseau, Etthel M. Windels, Sebastian M. Gygli, Levan Jugheli, Nino Maghradze, Daniela Brites, Amanda Ross, Galo Goig, Miriam Reinhard, Sonia Borrell, Andrej Trauner, Anna Dötsch, Rusudan Aspindzelashvili, Rebecca Denes, Klaus Reither, Christian Beisel, Nestani Tukvadze, Zaza Avaliani, Tanja Stadler, and Sebastien Gagneux

Subjects

Science

Abstract

Geographical hotspots with high frequency of multi-drug resistant tuberculosis (MDR-TB) have been observed in several locations, such as the country of Georgia. Here, the authors analyse genomic sequences from tuberculosis bacteria isolated from Georgia to show that the transmission fitness of MDR-TB strains is heterogeneous, and highly drug-resistant and transmissible isolates contribute to the emergence and maintenance of MDR-TB hotspots.

Published

2023

2. Genomic epidemiological analysis identifies high relapse among individuals with recurring tuberculosis and provides evidence of recent household-related transmission of tuberculosis in Ghana

Author

Prince Asare, Stephen Osei-Wusu, Nyonuku Akosua Baddoo, Edmund Bedeley, Isaac Darko Otchere, Daniela Brites, Chloé Loiseau, Adwoa Asante-Poku, Diana Ahu Prah, Sonia Borrell, Miriam Reinhard, Michael Amo Omari, Audrey Forson, Kwadwo Ansah Koram, Sebastien Gagneux, and Dorothy Yeboah-Manu

Subjects

Tuberculosis, Mycobacterium tuberculosis, Mycobacterium africanum, Molecular epidemiology, Whole-genome sequencing, Relapse, Infectious and parasitic diseases, RC109-216

Abstract

Objective: To retrospectively investigate the cause of recurring tuberculosis (rcTB) among participants with pulmonary TB recruited from a prospective population-based study conducted between July 2012 and December 2015. Methods: Mycobacterium tuberculosis complex isolates obtained from rcTB cases were characterized by standard mycobacterial genotyping tools, whole-genome sequencing, and phylogenetic analysis carried out to assess strain relatedness. Results: The majority (58.3%, 21/36) of study participants with rcTB episodes had TB recurrence within 12 months post treatment. TB strains with isoniazid (INH) resistance were found in 19.4% (7/36) of participants at the primary episode, of which 29% (2/7) were also rifampicin-resistant. On TB recurrence, an INH-resistant strain was found in a larger proportion of participants, 27.8% (10/36), of which 40% (4/10) were MDR-TB strains. rcTB was attributed to relapse (same strain) in 75.0% (27/36) of participants and 25.0% (9/36) to re-infection. Conclusion: Our findings indicate that previous unresolved infectiondue to inadequate treatment, may be the major cause of rcTB.

Published

2021

3. A sister lineage of the Mycobacterium tuberculosis complex discovered in the African Great Lakes region

Author

Jean Claude Semuto Ngabonziza, Chloé Loiseau, Michael Marceau, Agathe Jouet, Fabrizio Menardo, Oren Tzfadia, Rudy Antoine, Esdras Belamo Niyigena, Wim Mulders, Kristina Fissette, Maren Diels, Cyril Gaudin, Stéphanie Duthoy, Willy Ssengooba, Emmanuel André, Michel K. Kaswa, Yves Mucyo Habimana, Daniela Brites, Dissou Affolabi, Jean Baptiste Mazarati, Bouke Catherine de Jong, Leen Rigouts, Sebastien Gagneux, Conor Joseph Meehan, and Philip Supply

Subjects

Science

Abstract

The human- and animal-adapted lineages of the Mycobacterium tuberculosis complex (MTBC) are thought to be evolved from a common progenitor in Africa. Here, the authors identify two MTBC strains isolated from patients with multidrug-resistant tuberculosis, representing an as-yet-unknown lineage further supporting an East African origin for the MTBC.

Published

2020

4. Mortality from drug-resistant tuberculosis in high-burden countries comparing routine drug susceptibility testing with whole-genome sequencing: a multicentre cohort study

Author

Kathrin Zürcher, MSc, Martina L Reichmuth, MSc, Marie Ballif, PhD, Chloé Loiseau, PhD, Sonia Borrell, PhD, Miriam Reinhard, Veronika Skrivankova, PhD, Rico Hömke, Peter Sander, MD, Anchalee Avihingsanon, MD, Alash'le G Abimiku, ProfPhD, Olivier Marcy, MD, Jimena Collantes, MSc, E Jane Carter, MD, Robert J Wilkinson, ProfPhD, Helen Cox, ProfPhD, Marcel Yotebieng, ProfMD, Robin Huebner, PhD, Lukas Fenner, ProfMD, Erik C Böttger, ProfMD, Sebastien Gagneux, ProfPhD, and Matthias Egger, ProfMD

Subjects

Medicine (General), R5-920, Microbiology, QR1-502

Abstract

Summary: Background: Drug resistance threatens global tuberculosis control. We aimed to examine mortality in patients with tuberculosis from high-burden countries, according to concordance or discordance of results from drug susceptibility testing done locally and whole-genome sequencing (WGS). Methods: In this multicentre cohort study, we collected pulmonary Mycobacterium tuberculosis isolates and clinical data from individuals with tuberculosis from antiretroviral therapy programmes and tuberculosis clinics in Côte d'Ivoire, Democratic Republic of the Congo, Kenya, Nigeria, Peru, South Africa, and Thailand, stratified by HIV status and drug resistance. Sites tested drug susceptibility using routinely available methods. WGS was done on Illumina HiSeq 2500 in the USA and Switzerland, and TBprofiler was used to analyse the genomes. We included individuals aged 16 years or older with pulmonary tuberculosis (bacteriologically confirmed or clinically diagnosed). We analysed mortality in multivariable logistic regression models adjusted for sex, age, HIV status, history of tuberculosis, and sputum positivity. Findings: Between Sept 1, 2014, and July 4, 2016, of 634 patients included in our previous analysis, we included 582 patients with tuberculosis (median age 33 years [IQR 27–43], 225 [39%] women, and 247 [42%] HIV-positive). Based on WGS, 339 (58%) isolates were pan-susceptible, 35 (6%) monoresistant, 146 (25%) multidrug-resistant, and 24 (4%) pre-extensively drug-resistant (pre-XDR) or XDR. The analysis of mortality was based on 530 patients; 63 (12%) died and 77 (15%) patients received inappropriate treatment. Mortality ranged from 6% (18 of 310) in patients with pan-susceptible tuberculosis to 39% (nine of 23) in patients with pre-XDR or XDR tuberculosis. The adjusted odds ratio for mortality was 4·92 (95% CI 2·47–9·78) among undertreated patients, compared with appropriately treated patients. Interpretation: In seven countries with a high burden of tuberculosis, we observed discrepancies between drug resistance patterns obtained locally and WGS. The underdiagnosis of drug resistance resulted in inappropriate treatment and higher mortality. WGS can provide accurate and detailed drug resistance information required to improve the outcomes of drug-resistant tuberculosis in high-burden settings. Our results support WHO's call for point-of-care tests based on WGS. Funding: National Institutes of Allergy and Infectious Diseases, Swiss National Science Foundation, and Swiss National Center for Mycobacteria.

Published

2021

5. Whole Genome Sequencing and Spatial Analysis Identifies Recent Tuberculosis Transmission Hotspots in Ghana

Author

Prince Asare, Isaac Darko Otchere, Edmund Bedeley, Daniela Brites, Chloé Loiseau, Nyonuku Akosua Baddoo, Adwoa Asante-Poku, Stephen Osei-Wusu, Diana Ahu Prah, Sonia Borrell, Miriam Reinhard, Audrey Forson, Kwadwo Ansah Koram, Sebastien Gagneux, and Dorothy Yeboah-Manu

Subjects

Mycobacterium tuberculosis, Mycobacterium africanum, molecular epidemiology, whole genome sequence, recent transmission, cluster, Medicine (General), R5-920

Abstract

Whole genome sequencing (WGS) is progressively being used to investigate the transmission dynamics of Mycobacterium tuberculosis complex (MTBC). We used WGS analysis to resolve traditional genotype clusters and explored the spatial distribution of confirmed recent transmission clusters. Bacterial genomes from a total of 452 MTBC isolates belonging to large traditional clusters from a population-based study spanning July 2012 and December 2015 were obtained through short read next-generation sequencing using the illumina HiSeq2500 platform. We performed clustering and spatial analysis using specified R packages and ArcGIS. Of the 452 traditional genotype clustered genomes, 314 (69.5%) were confirmed clusters with a median cluster size of 7.5 genomes and an interquartile range of 4–12. Recent tuberculosis (TB) transmission was estimated as 24.7%. We confirmed the wide spread of a Cameroon sub-lineage clone with a cluster size of 78 genomes predominantly from the Ablekuma sub-district of Accra metropolis. More importantly, we identified a recent transmission cluster associated with isoniazid resistance belonging to the Ghana sub-lineage of lineage 4. WGS was useful in detecting unsuspected outbreaks; hence, we recommend its use not only as a research tool but as a surveillance tool to aid in providing the necessary guided steps to track, monitor, and control TB.

Published

2020

6. Treemmer: a tool to reduce large phylogenetic datasets with minimal loss of diversity

Author

Fabrizio Menardo, Chloé Loiseau, Daniela Brites, Mireia Coscolla, Sebastian M. Gygli, Liliana K. Rutaihwa, Andrej Trauner, Christian Beisel, Sonia Borrell, and Sebastien Gagneux

Subjects

Representative sample, Large phylogenetic trees, Redundancy reduction, Size reduction, Sampling bias, Clone elimination, Computer applications to medicine. Medical informatics, R858-859.7, Biology (General), QH301-705.5

Abstract

Abstract Background Large sequence datasets are difficult to visualize and handle. Additionally, they often do not represent a random subset of the natural diversity, but the result of uncoordinated and convenience sampling. Consequently, they can suffer from redundancy and sampling biases. Results Here we present Treemmer, a simple tool to evaluate the redundancy of phylogenetic trees and reduce their complexity by eliminating leaves that contribute the least to the tree diversity. Conclusions Treemmer can reduce the size of datasets with different phylogenetic structures and levels of redundancy while maintaining a sub-sample that is representative of the original diversity. Additionally, it is possible to fine-tune the behavior of Treemmer including any kind of meta-information, making Treemmer particularly useful for empirical studies.

Published

2018

7. Phylogenomics and antimicrobial resistance of the leprosy bacillus Mycobacterium leprae

Author

Andrej Benjak, Charlotte Avanzi, Pushpendra Singh, Chloé Loiseau, Selfu Girma, Philippe Busso, Amanda N. Brum Fontes, Yuji Miyamoto, Masako Namisato, Kidist Bobosha, Claudio G. Salgado, Moisés B. da Silva, Raquel C. Bouth, Marco A. C. Frade, Fred Bernardes Filho, Josafá G. Barreto, José A. C. Nery, Samira Bührer-Sékula, Andréanne Lupien, Abdul R. Al-Samie, Yasin Al-Qubati, Abdul S. Alkubati, Gisela Bretzel, Lucio Vera-Cabrera, Fatoumata Sakho, Christian R. Johnson, Mamoudou Kodio, Abdoulaye Fomba, Samba O. Sow, Moussa Gado, Ousmane Konaté, Mariane M. A. Stefani, Gerson O. Penna, Philip N. Suffys, Euzenir Nunes Sarno, Milton O. Moraes, Patricia S. Rosa, Ida M. F. Dias Baptista, John S. Spencer, Abraham Aseffa, Masanori Matsuoka, Masanori Kai, and Stewart T. Cole

Subjects

Science

Abstract

Leprosy is caused by the yet-uncultured pathogen Mycobacterium leprae. Here, Benjak et al. obtain M. leprae genome sequences from DNA extracted from patients' skin biopsies and, by analysing 154 genomes from 25 countries, provide insight into the pathogen’s evolution and antimicrobial resistance.

Published

2018

8. A New Phylogenetic Framework for the Animal-Adapted Mycobacterium tuberculosis Complex

Author

Daniela Brites, Chloé Loiseau, Fabrizio Menardo, Sonia Borrell, Maria Beatrice Boniotti, Robin Warren, Anzaan Dippenaar, Sven David Charles Parsons, Christian Beisel, Marcel A. Behr, Janet A. Fyfe, Mireia Coscolla, and Sebastien Gagneux

Subjects

host–pathogen interactions, specificity, host range, genetic diversity, whole-genome sequencing, Microbiology, QR1-502

Abstract

Tuberculosis (TB) affects humans and other animals and is caused by bacteria from the Mycobacterium tuberculosis complex (MTBC). Previous studies have shown that there are at least nine members of the MTBC infecting animals other than humans; these have also been referred to as ecotypes. However, the ecology and the evolution of these animal-adapted MTBC ecotypes are poorly understood. Here we screened 12,886 publicly available MTBC genomes and newly sequenced 17 animal-adapted MTBC strains, gathering a total of 529 genomes of animal-adapted MTBC strains. Phylogenomic and comparative analyses confirm that the animal-adapted MTBC members are paraphyletic with some members more closely related to the human-adapted Mycobacterium africanum Lineage 6 than to other animal-adapted strains. Furthermore, we identified four main animal-adapted MTBC clades that might correspond to four main host shifts; two of these clades are hypothesized to reflect independent cattle domestication events. Contrary to what would be expected from an obligate pathogen, MTBC nucleotide diversity was not positively correlated with host phylogenetic distances, suggesting that host tropism in the animal-adapted MTBC seems to be driven by contact rates and demographic aspects of the host population rather by than host relatedness. By combining phylogenomics with ecological data, we propose an evolutionary scenario in which the ancestor of Lineage 6 and all animal-adapted MTBC ecotypes was a generalist pathogen that subsequently adapted to different host species. This study provides a new phylogenetic framework to better understand the evolution of the different ecotypes of the MTBC and guide future work aimed at elucidating the molecular mechanisms underlying host range.

Published

2018

9. Whole genome sequencing distinguishes between relapse and reinfection in recurrent leprosy cases.

Author

Mariane M A Stefani, Charlotte Avanzi, Samira Bührer-Sékula, Andrej Benjak, Chloé Loiseau, Pushpendra Singh, Maria A A Pontes, Heitor S Gonçalves, Emerith M Hungria, Philippe Busso, Jérémie Piton, Maria I S Silveira, Rossilene Cruz, Antônio Schetinni, Maurício B Costa, Marcos C L Virmond, Suzana M Diorio, Ida M F Dias-Baptista, Patricia S Rosa, Masanori Matsuoka, Maria L F Penna, Stewart T Cole, and Gerson O Penna

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

Since leprosy is both treated and controlled by multidrug therapy (MDT) it is important to monitor recurrent cases for drug resistance and to distinguish between relapse and reinfection as a means of assessing therapeutic efficacy. All three objectives can be reached with single nucleotide resolution using next generation sequencing and bioinformatics analysis of Mycobacterium leprae DNA present in human skin.DNA was isolated by means of optimized extraction and enrichment methods from samples from three recurrent cases in leprosy patients participating in an open-label, randomized, controlled clinical trial of uniform MDT in Brazil (U-MDT/CT-BR). Genome-wide sequencing of M. leprae was performed and the resultant sequence assemblies analyzed in silico.In all three cases, no mutations responsible for resistance to rifampicin, dapsone and ofloxacin were found, thus eliminating drug resistance as a possible cause of disease recurrence. However, sequence differences were detected between the strains from the first and second disease episodes in all three patients. In one case, clear evidence was obtained for reinfection with an unrelated strain whereas in the other two cases, relapse appeared more probable.This is the first report of using M. leprae whole genome sequencing to reveal that treated and cured leprosy patients who remain in endemic areas can be reinfected by another strain. Next generation sequencing can be applied reliably to M. leprae DNA extracted from biopsies to discriminate between cases of relapse and reinfection, thereby providing a powerful tool for evaluating different outcomes of therapeutic regimens and for following disease transmission.

Published

2017

10. The Genome of the Toluene-Degrading Pseudomonas veronii Strain 1YdBTEX2 and Its Differential Gene Expression in Contaminated Sand.

Author

Marian Morales, Vladimir Sentchilo, Claire Bertelli, Andrea Komljenovic, Nadezda Kryuchkova-Mostacci, Audrey Bourdilloud, Burkhard Linke, Alexander Goesmann, Keith Harshman, Francisca Segers, Fabien Delapierre, Damien Fiorucci, Mathieu Seppey, Evgeniya Trofimenco, Pauline Berra, Athimed El Taher, Chloé Loiseau, Dejan Roggero, Madeleine Sulfiotti, Angela Etienne, Gustavo Ruiz Buendia, Loïc Pillard, Angelique Escoriza, Roxane Moritz, Cedric Schneider, Esteban Alfonso, Fatma Ben Jeddou, Oliver Selmoni, Gregory Resch, Gilbert Greub, Olivier Emery, Manupriyam Dubey, Trestan Pillonel, Marc Robinson-Rechavi, and Jan Roelof van der Meer

Subjects

Medicine, Science

Abstract

The natural restoration of soils polluted by aromatic hydrocarbons such as benzene, toluene, ethylbenzene and m- and p-xylene (BTEX) may be accelerated by inoculation of specific biodegraders (bioaugmentation). Bioaugmentation mainly involves introducing bacteria that deploy their metabolic properties and adaptation potential to survive and propagate in the contaminated environment by degrading the pollutant. In order to better understand the adaptive response of cells during a transition to contaminated material, we analyzed here the genome and short-term (1 h) changes in genome-wide gene expression of the BTEX-degrading bacterium Pseudomonas veronii 1YdBTEX2 in non-sterile soil and liquid medium, both in presence or absence of toluene. We obtained a gapless genome sequence of P. veronii 1YdBTEX2 covering three individual replicons with a total size of 8 Mb, two of which are largely unrelated to current known bacterial replicons. One-hour exposure to toluene, both in soil and liquid, triggered massive transcription (up to 208-fold induction) of multiple gene clusters, such as toluene degradation pathway(s), chemotaxis and toluene efflux pumps. This clearly underlines their key role in the adaptive response to toluene. In comparison to liquid medium, cells in soil drastically changed expression of genes involved in membrane functioning (e.g., lipid composition, lipid metabolism, cell fatty acid synthesis), osmotic stress response (e.g., polyamine or trehalose synthesis, uptake of potassium) and putrescine metabolism, highlighting the immediate response mechanisms of P. veronii 1YdBTEX2 for successful establishment in polluted soil.

Published

2016

11. Genomic epidemiological analysis identifies high relapse among individuals with recurring tuberculosis and provides evidence of recent household-related transmission of tuberculosis in Ghana

Author

Sebastien Gagneux, Prince Asare, Dorothy Yeboah-Manu, Chloé Loiseau, Miriam Reinhard, Isaac Darko Otchere, Michael Amo Omari, Adwoa Asante-Poku, Kwadwo A. Koram, Sonia Borrell, Stephen Osei-Wusu, Daniela Brites, Diana Ahu Prah, Nyonuku Akosua Baddoo, Edmund Bedeley, and Audrey Forson

Subjects

Male, 0301 basic medicine, Antitubercular Agents, Infectious and parasitic diseases, RC109-216, Ghana, 0302 clinical medicine, Recurrence, Epidemiology, 030212 general & internal medicine, Relapse, Phylogeny, education.field_of_study, biology, Isoniazid, Genomics, General Medicine, Middle Aged, Infectious Diseases, Mycobacterium tuberculosis complex, Molecular epidemiology, Female, medicine.drug, Adult, Microbiology (medical), medicine.medical_specialty, Tuberculosis, 030106 microbiology, Population, Article, Mycobacterium tuberculosis, 03 medical and health sciences, Internal medicine, parasitic diseases, medicine, Humans, education, Genotyping, Retrospective Studies, Whole-genome sequencing, Mycobacterium africanum, Whole Genome Sequencing, business.industry, biology.organism_classification, medicine.disease, Mutation, Housing, business

Abstract

Highlights • Unresolved previous infection as major cause of recurring tuberculosis (TB) in Ghana. • Genomic epidemiology identifies high relapse among recurrent TB cases in Ghana. • 15-locus MIRU-VNTR typing is sufficient to predict the cause of TB recurrence. • Evidence of recent household-related TB transmission in Ghana. • Need for increased education by national TB control program., Objective To retrospectively investigate the cause of recurring tuberculosis (rcTB) among participants with pulmonary TB recruited from a prospective population-based study conducted between July 2012 and December 2015. Methods Mycobacterium tuberculosis complex isolates obtained from rcTB cases were characterized by standard mycobacterial genotyping tools, whole-genome sequencing, and phylogenetic analysis carried out to assess strain relatedness. Results The majority (58.3%, 21/36) of study participants with rcTB episodes had TB recurrence within 12 months post treatment. TB strains with isoniazid (INH) resistance were found in 19.4% (7/36) of participants at the primary episode, of which 29% (2/7) were also rifampicin-resistant. On TB recurrence, an INH-resistant strain was found in a larger proportion of participants, 27.8% (10/36), of which 40% (4/10) were MDR-TB strains. rcTB was attributed to relapse (same strain) in 75.0% (27/36) of participants and 25.0% (9/36) to re-infection. Conclusion Our findings indicate that previous unresolved infectiondue to inadequate treatment, may be the major cause of rcTB.

Published

2021

12. The Genetic Background Modulates the Evolution of Fluoroquinolone-Resistance in Mycobacterium tuberculosis

Author

Sebastien Gagneux, Miriam Reinhard, Chloé Loiseau, Andrej Trauner, Rhastin A D Castro, Amanda Ross, Lujeko Kamwela, Sonia Borrell, and Julia Feldmann

Subjects

epistasis, Ofloxacin, Lineage (genetic), mycobacteria, medicine.disease_cause, Mycobacterium tuberculosis, 03 medical and health sciences, Minimum inhibitory concentration, Antibiotic resistance, Mutation Rate, evolution, Drug Resistance, Bacterial, Genetic variation, Genetics, medicine, antimicrobial resistance, fluoroquinolones, Molecular Biology, Discoveries, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, 0303 health sciences, Mutation, biology, 030306 microbiology, In vitro toxicology, biology.organism_classification, Biological Evolution, fitness, Anti-Bacterial Agents, 3. Good health, Epistasis, Genetic Background, Genome, Bacterial

Abstract

Fluoroquinolones (FQ) form the backbone in experimental treatment regimens against drug-susceptible tuberculosis. However, little is known on whether the genetic variation present in natural populations of Mycobacterium tuberculosis (Mtb) affects the evolution of FQ-resistance (FQ-R). To investigate this question, we used nine genetically distinct drug-susceptible clinical isolates of Mtb and measured their frequency of resistance to the FQ ofloxacin (OFX) in vitro. We found that the Mtb genetic background led to differences in the frequency of OFX-resistance (OFX-R) that spanned two orders of magnitude and substantially modulated the observed mutational profiles for OFX-R. Further, in vitro assays showed that the genetic background also influenced the minimum inhibitory concentration and the fitness effect conferred by a given OFX-R mutation. To test the clinical relevance of our in vitro work, we surveyed the mutational profile for FQ-R in publicly available genomic sequences from clinical Mtb isolates, and found substantial Mtb lineage-dependent variability. Comparison of the clinical and the in vitro mutational profiles for FQ-R showed that 51% and 39% of the variability in the clinical frequency of FQ-R gyrA mutation events in Lineage 2 and Lineage 4 strains, respectively, can be attributed to how Mtb evolves FQ-R in vitro. As the Mtb genetic background strongly influenced the evolution of FQ-R in vitro, we conclude that the genetic background of Mtb also impacts the evolution of FQ-R in the clinic.

Published

2019

13. Phylogenomics of Mycobacterium africanum reveals a new lineage and a complex evolutionary history

Author

Leonor Sánchez-Busó, Bouke C. de Jong, Sonia Borrell, Conor J. Meehan, Dorothy Yeboah-Manu, Mireia Coscolla, Fabrizio Menardo, Martin P. Grobusch, Abraham Alabi, Adwoa Asante-Poku, Christian Beisel, Robin Kobbe, Sebastien Gagneux, Patrick Beckert, Julian Parkhill, Daniela Brites, Florian Gehre, Chloé Loiseau, Stefan Niemann, Martin Antonio, C. N’Dira Sanoussi, Dissou Affolabi, Simon R. Harris, Paula Ruiz-Rodríguez, Lukas Fenner, Erik C. Böttger, Isaac Darko Otchere, Janet A. M. Fyfe, Prince Asare, Apollo-University Of Cambridge Repository, Ministerio de Ciencia, Innovación y Universidades (España), European Society of Clinical Microbiology and Infectious Diseases, European Commission, Agencia Estatal de Investigación (España), Generalitat Valenciana, European Research Council, Swiss National Science Foundation, Wellcome, Infectious diseases, AII - Infectious diseases, APH - Global Health, APH - Aging & Later Life, Parkhill, Julian [0000-0002-7069-5958], and Apollo - University of Cambridge Repository

Subjects

0301 basic medicine, Evolution, mycobacteria, Lineage (evolution), 030106 microbiology, Population, 610 Medicine & health, Systems Microbiology: Large-scale comparative genomics, Genome, diversity, Mycobacterium tuberculosis, Evolution, Molecular, 03 medical and health sciences, 360 Social problems & social services, Phylogenomics, evolution, Drug Resistance, Bacterial, Humans, Tuberculosis, education, genome, Phylogeny, 030304 developmental biology, 0303 health sciences, education.field_of_study, Genetic diversity, Diversity, Mycobacterium africanum, biology, Whole Genome Sequencing, 030306 microbiology, Mycobacteria, High-Throughput Nucleotide Sequencing, General Medicine, Africa, Eastern, biology.organism_classification, 3. Good health, Phylogeography, Africa, Western, 030104 developmental biology, Mycobacterium tuberculosis complex, Evolutionary biology, Genome, Bacterial, Research Article

Abstract

Coscolla et al., Human tuberculosis (TB) is caused by members of the Mycobacterium tuberculosis complex (MTBC). The MTBC comprises several human-adapted lineages known as M. tuberculosis sensu stricto, as well as two lineages (L5 and L6) traditionally referred to as Mycobacterium africanum . Strains of L5 and L6 are largely limited to West Africa for reasons unknown, and little is known of their genomic diversity, phylogeography and evolution. Here, we analysed the genomes of 350 L5 and 320 L6 strains, isolated from patients from 21 African countries, plus 5 related genomes that had not been classified into any of the known MTBC lineages. Our population genomic and phylogeographical analyses showed that the unclassified genomes belonged to a new group that we propose to name MTBC lineage 9 (L9). While the most likely ancestral distribution of L9 was predicted to be East Africa, the most likely ancestral distribution for both L5 and L6 was the Eastern part of West Africa. Moreover, we found important differences between L5 and L6 strains with respect to their phylogeographical substructure and genetic diversity. Finally, we could not confirm the previous association of drug-resistance markers with lineage and sublineages. Instead, our results indicate that the association of drug resistance with lineage is most likely driven by sample bias or geography. In conclusion, our study sheds new light onto the genomic diversity and evolutionary history of M. africanum , and highlights the need to consider the particularities of each MTBC lineage for understanding the ecology and epidemiology of TB in Africa and globally., M.C. is supported by the Ramón y Cajal programme from the Ministerio de Ciencia, Innovación y Universidades. This work was supported by the European Society of Clinical Microbiology and Infectious Diseases (ESCMID) (research award to M.C.), Ministerio de Ciencia, Innovación y Universidades (grant number RTI2018-094399-A-I00 to M.C.) and Consellería de Educació de la Generalitat Valenciana (grant number SEJI/2019/011 to M.C.), the Swiss National Science Foundation (grants 310030_188888, IZRJZ3_164171, IZLSZ3_170834 and CRSII5_177163 to S. G.), the European Research Council (883582-ECOEVODRTB to S. G.) and Wellcome (grant number 097134/Z/11/Z to D. Y.-M).

Published

2021

14. Mortality of drug-resistant tuberculosis in high-burden countries: comparison of routine drug susceptibility testing with whole-genome sequencing

Author

Matthias Egger, Erik C. Böttger, Marie Ballif, Olivier Marcy, E. Jane Carter, Rico Hömke, Anchalee Avihingsanon, Martina L. Reichmuth, Veronika Skrivankova, Jimena Collantes, Miriam Reihnhard, Sebastien Gagneux, Chloé Loiseau, Robin Huebner, Alash'le Abimiku, Helen Cox, Kathrin Zürcher, Peter Sander, Lukas Fenner, Sonia Borrell, Marcel Yotebieng, Robert J. Wilkinson, and Wellcome Trust

Subjects

medicine.medical_specialty, Tuberculosis, biology, business.industry, Odds ratio, Drug resistance, Pyrazinamide, biology.organism_classification, medicine.disease, Mycobacterium tuberculosis, Interquartile range, Internal medicine, medicine, business, Ethambutol, Rifampicin, medicine.drug

Abstract

BackgroundDrug-resistant Mycobacterium tuberculosis (Mtb) strains threaten tuberculosis (TB) control. We compared data on drug resistance obtained at clinics in seven high TB burden countries during routine care with whole-genome sequencing (WGS) carried out centrally.MethodsWe collected pulmonary Mtb isolates and clinical data from adult TB patients in Africa, Latin America, and Asia, stratified by HIV status and drug resistance, from 2013 to 2016. Participating sites performed drug susceptibility testing (DST) locally, using routinely available methods. WGS was done using Illumina HiSeq 2500 at laboratories in the USA and Switzerland. We used TBprofiler to analyse the genomes. We used multivariable logistic regression adjusted for sex, age, HIV-status, history of TB, sputum positivity, and Mtb-lineage to analyse mortality.FindingsWe included 582 TB patients. The median age was 32 years (interquartile range: 27-43 years), 225 (39%) were female, and 247 (42%) were HIV-positive. Based on WGS, 339 (58%) isolates were pan-susceptible, 35 (6%) monoresistant, 146 (25%) multidrug-resistant, and 24 (4%) pre-/ extensively drug-resistant (pre-XDR/XDR-TB). The local DST results were discordant compared to WGS results in 130/582 (22%) of patients. All testing methods identified isoniazid and rifampicin resistance with relatively high agreement (kappa 0.69 for isoniazid and 0.88 rifampicin). Resistance to ethambutol, pyrazinamide, and second-line drugs was rarely tested locally. Of 576 patients with known treatment, 86 (15%) patients received inadequate treatment according to WGS results and the World Health Organization treatment guidelines. The analysis of mortality was based on 530 patients; 63 patients (12%) died and 77 patients (15%) received inadequate treatment. Mortality ranged from 6% in patients with pan-susceptible Mtb (18/310) to 39% in patients with pre-XDR/XDR-TB (9/23). The adjusted odds ratio for mortality was 4.82 (95% CI 2.43-9.44) for under-treatment and 0.52 (95% CI 0.03-2.73) for over-treatment.InterpretationIn seven high-burden TB countries, we observed discrepancies between drug resistance patterns from local DST and WGS, which resulted in inadequate treatment and higher mortality. WGS can provide accurate and detailed drug resistance information, which is required to improve the outcomes of drug-resistant TB in high burden settings. Our results support the WHO’s call for point-of-care tests based on WGS.

Published

2021

15. Local adaptation in populations of Mycobacterium tuberculosis endemic to the Indian Ocean Rim

Author

Serej D. Ley, Rafael Silva Duarte, Miriam Reinhard, Qingyun Liu, Lujeko Kamwela, Fabrizio Menardo, Chloé Loiseau, Midori Kato-Maeda, Christophe Sola, Sonia Borrell, Julia Feldmann, Iñaki Comas, Liliana K. Rutaihwa, Jerry Hella, Karla Valéria Batista Lima, Mireia Coscolla, Alberto L. García-Basteiro, Moses Joloba, Christian Beisel, Dorothy Yeboah-Manu, Horng-Yunn Dou, Mohamed Sasamalo, Bijaya Malla, Niaina Rakotosamimanana, Klaus Reither, Sebastien Gagneux, Surakameth Mahasirimongkol, Levan Jugheli, Darío García de Viedma, Philip Noel Suffys, Hellen Hiza, Janet A. M. Fyfe, Emilyn Costa Conceição, Lukas Fenner, Michaela Zwyer, Prasit Palittapongarnpim, Daniela Brites, Qian Gao, Helen Cox, Voahangy Rasolofo, Sebastian M. Gygli, Swiss National Science Foundation, and European Research Council

Subjects

0301 basic medicine, Mycobacterium tuberculosis / patogenicidade, Tuberculosis, Genotype, viruses, Lineage (evolution), 030106 microbiology, Locus (genetics), adaptation, Biology, Genome, General Biochemistry, Genetics and Molecular Biology, Mycobacterium tuberculosis, 03 medical and health sciences, Adapta??o, Genoma Bacteriano, medicine, Humans, Oceano ?ndico / epidemiologia, General Pharmacology, Toxicology and Pharmaceutics, Adaptation, Indian Ocean, Local adaptation, Genetic diversity, General Immunology and Microbiology, virus diseases, Tuberculose / patologia, General Medicine, Articles, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, medicine.disease, digestive system diseases, 3. Good health, 030104 developmental biology, Mycobacterium tuberculosis complex, Evolutionary biology, coevolution, Linhagem, Coevolution, Research Article

Abstract

24 páginas, 3 figuras, 1 tabla. The sequence data generated by this study has been deposited on SRA (https://www.ncbi.nlm.nih.gov/sra) under the accession number PRJNA670836. Extended data is available here: https://github.com/fmenardo/MTBC_L1_L3. DOI: https://doi.org/10.5281/zenodo.4609804 (Menardo, 2021)., Background: Lineage 1 (L1) and 3 (L3) are two lineages of the Mycobacterium tuberculosis complex (MTBC) causing tuberculosis (TB) in humans. L1 and L3 are prevalent around the rim of the Indian Ocean, the region that accounts for most of the world's new TB cases. Despite their relevance for this region, L1 and L3 remain understudied. Methods: We analyzed 2,938 L1 and 2,030 L3 whole genome sequences originating from 69 countries. We reconstructed the evolutionary history of these two lineages and identified genes under positive selection. Results: We found a strongly asymmetric pattern of migration from South Asia toward neighboring regions, highlighting the historical role of South Asia in the dispersion of L1 and L3. Moreover, we found that several genes were under positive selection, including genes involved in virulence and resistance to antibiotics. For L1 we identified signatures of local adaptation at the esxH locus, a gene coding for a secreted effector that targets the human endosomal sorting complex, and is included in several vaccine candidates. Conclusions: Our study highlights the importance of genetic diversity in the MTBC, and sheds new light on two of the most important MTBC lineages affecting humans., This work was supported by the Swiss National Science Foundation (grants 310030_188888, CRSII5_177163, IZRJZ3_164171 and IZLSZ3_170834) and the European Research Council (309540 EVODRTB and 883582-ECOEVODRTB).

Published

2021

16. Local adaptation in populations ofMycobacterium tuberculosisendemic to the Indian Ocean Rim

Author

Chloé Loiseau, Rafael Silva Duarte, Mireia Coscolla, Mohamed Sasamalo, Jerry Hella, Bijaya Malla, Julia Feldmann, Niaina Rakotosamimanana, Dorothy Yeboah-Manu, Daniela Brites, Miriam Reinhard, Helen Cox, Christian Beisel, Surakameth Mahasirimongkol, Prasit Palittapongarnpim, Lujeko Kamwela, Levan Jugheli, Qian Gao, Midori Kato-Maeda, A. L. Garcia-Basteiro, Janet A. M. Fyfe, Sonia Borrell, Voahangy Rasolofo, Christophe Sola, Iñaki Comas, Moses Joloba, H.-Y. Dou, Philip Noel Suffys, Serej D. Ley, Sebastian M. Gygli, Qingyun Liu, Michaela Zwyer, Fabrizio Menardo, Liliana K. Rutaihwa, K. V. Batista Lima, Gagneux S, Emilyn Costa Conceição, Klaus Reither, D. G. de Viedma, Hellen Hiza, and Lukas Fenner

Subjects

0303 health sciences, Genetic diversity, Tuberculosis, biology, 030306 microbiology, Locus (genetics), biology.organism_classification, medicine.disease, Genome, 3. Good health, Mycobacterium tuberculosis, 03 medical and health sciences, Mycobacterium tuberculosis complex, Evolutionary biology, medicine, Gene, 030304 developmental biology, Local adaptation

Abstract

Lineage 1 (L1) and 3 (L3) are two lineages of theMycobacterium tuberculosiscomplex (MTBC), causing tuberculosis (TB) in humans. L1 and L3 are endemic to the Rim of the Indian Ocean, the region that accounts for most of the world’s new TB cases. Despite their relevance for this region, L1 and L3 remain understudied. Here we analyzed 2,938 L1 and 2,030 L3 whole genome sequences originating from 69 countries. We show that South Asia played a central role in the dispersion of these two lineages to neighboring regions. Moreover, we found that L1 exhibits signatures of local adaptation at theesxHlocus, a gene coding for a secreted effector that targets the human endosomal sorting complex, and is included in several vaccine candidates. Our study highlights the importance of genetic diversity in the MTBC, and sheds new light on two of the most important MTBC lineages affecting humans.

Published

2020

17. Natural Polymorphisms in Mycobacterium tuberculosis Conferring Resistance to Delamanid in Drug-naïve Patients

Author

Matthias Egger, Kathrin Zürcher, Sonia Borrell, Robert J. Wilkinson, Erik C. Böttger, Peter M. Keller, Rico Hoemke, Martina L. Reichmuth, Chloé Loiseau, Miriam Reinhard, Jimena Collantes, Anchalee Avihingsanon, Peter Sander, Lukas Fenner, Sebastien Gagneux, and Marcel Yotebieng

Subjects

Mycobacterium tuberculosis, Drug-naïve, Minimum inhibitory concentration, biology, medicine, Delamanid, biology.organism_classification, Gene, Microbiology, medicine.drug

Abstract

Mutations in the genes of the F420 signaling pathway, including dnn, fgd1, fbiA, fbiB, fbiC, and fbiD, of Mycobacterium tuberculosis (Mtb) complex can lead to delamanid resistance. We searched for such mutations among 129 Mtb strains from Asia, South-America, and Africa using whole-genome sequencing; 70 (54%) strains had at least one mutation in one of the genes. For ten strains with mutations, we determined the minimum inhibitory concentration (MIC) of delamanid. We found one strain from a delamanid-naïve patient carrying the natural polymorphism Tyr29del (ddn) that was associated with a critical MIC to delamanid.

Published

2020

18. Natural Polymorphisms in Mycobacterium tuberculosis Conferring Resistance to Delamanid in Drug-Naive Patients

Author

Peter M. Keller, Marcel Yotebieng, Chloé Loiseau, Erik C. Böttger, Kathrin Zürcher, Robert J. Wilkinson, Sonia Borrell, Matthias Egger, Miriam Reinhard, Jimena Collantes, Anchalee Avihingsanon, Peter Sander, Lukas Fenner, Martina L. Reichmuth, Sebastien Gagneux, Rico Hömke, Wellcome Trust, University of Zurich, and Keller, Peter M

Subjects

Resistance, Antitubercular Agents, Natural polymorphism, Drug resistance, delamanid, 1108 Medical Microbiology, Tuberculosis, Multidrug-Resistant, 2736 Pharmacology (medical), Pharmacology (medical), Oxazoles, 0303 health sciences, 10179 Institute of Medical Microbiology, 3. Good health, 3004 Pharmacology, Infectious Diseases, Mycobacterium tuberculosis complex, Pharmaceutical Preparations, Nitroimidazoles, Delamanid, 1115 Pharmacology and Pharmaceutical Sciences, Mutations, medicine.drug, 0605 Microbiology, International epidemiology Databases to Evaluate AIDS (IeDEA), Tuberculosis, Asia, 610 Medicine & health, Microbial Sensitivity Tests, purl.org/pe-repo/ocde/ford#3.03.08 [https], Biology, Microbiology, Mycobacterium tuberculosis, resistance, 03 medical and health sciences, 360 Social problems & social services, medicine, Humans, purl.org/pe-repo/ocde/ford#3.01.05 [https], Gene, 030304 developmental biology, Pharmacology, drug resistance, 030306 microbiology, 2725 Infectious Diseases, South America, medicine.disease, biology.organism_classification, mutations, Virology, natural polymorphism, Drug-naïve, Susceptibility, Africa, Mutation, 570 Life sciences, biology

Abstract

Mutations in the genes of the F420 signaling pathway of Mycobacterium tuberculosis complex, including dnn, fgd1, fbiA, fbiB, fbiC, and fbiD, can lead to delamanid resistance. We searched for such mutations among 129 M. tuberculosis strains from Asia, South America, and Africa using whole-genome sequencing; 70 (54%) strains had at least one mutation in one of the genes., Mutations in the genes of the F420 signaling pathway of Mycobacterium tuberculosis complex, including dnn, fgd1, fbiA, fbiB, fbiC, and fbiD, can lead to delamanid resistance. We searched for such mutations among 129 M. tuberculosis strains from Asia, South America, and Africa using whole-genome sequencing; 70 (54%) strains had at least one mutation in one of the genes. For 10 strains with mutations, we determined the MIC of delamanid. We found one strain from a delamanid-naive patient carrying the natural polymorphism Tyr29del (ddn) that was associated with a critical delamanid MIC.

Published

2020

19. HIV coinfection is associated with low fitness rpoB variants in rifampicin-resistant Mycobacterium tuberculosis

Author

Nicola M. Zetola, Helen Cox, Erik C. Böttger, Basra Doulla, Olivier Marcy, Chloé Loiseau, Kathrin Zürcher, Matthias Egger, Liliana K. Rutaihwa, Marie Ballif, Marcel Yotebieng, Eduardo Gotuzzo, Lukas Fenner, Miriam Reinhard, Anchalee Avihingsanon, Sebastien Gagneux, Alash'le Abimiku, Robert J. Wilkinson, Daniela Brites, Sonia Borrell, E. Jane Carter, University of Zurich, Gagneux, Sebastien, and Wellcome Trust

Subjects

Host immunity, Tuberculosis, Rifampicin resistant, Human immunodeficiency virus (HIV), 610 Medicine & health, Context (language use), Drug resistance, purl.org/pe-repo/ocde/ford#3.03.08 [https], medicine.disease_cause, Microbiology, Mycobacterium tuberculosis, 03 medical and health sciences, 1108 Medical Microbiology, 360 Social problems & social services, medicine, 2736 Pharmacology (medical), Pharmacology (medical), purl.org/pe-repo/ocde/ford#3.01.05 [https], Rifampicin, 030304 developmental biology, Pharmacology, 0303 health sciences, HIV Coinfection, biology, 10179 Institute of Medical Microbiology, 030306 microbiology, 2725 Infectious Diseases, bacterial infections and mycoses, biology.organism_classification, rpoB, medicine.disease, Virology, 3. Good health, 3004 Pharmacology, Infectious Diseases, HIV-TB coinfection, 570 Life sciences, Fitness cost, 1115 Pharmacology and Pharmaceutical Sciences, 0605 Microbiology, medicine.drug

Abstract

We analyzed 312 drug-resistant genomes of Mycobacterium tuberculosis isolates collected from HIV-coinfected and HIV-negative TB patients from nine countries with a high tuberculosis burden. We found that rifampicin-resistant M. tuberculosis strains isolated from HIV-coinfected patients carried disproportionally more resistance-conferring mutations in rpoB that are associated with a low fitness in the absence of the drug, suggesting these low-fitness rpoB variants can thrive in the context of reduced host immunity.

Published

2020

20. Publisher Correction: Prisons as ecological drivers of fitness-compensated multidrug-resistant Mycobacterium tuberculosis

Author

Sebastian M. Gygli, Chloé Loiseau, Sebastien Gagneux, Nestani Tukvadze, Nino Maghradze, Rusudan Aspindzelashvili, Levan Jugheli, Natia Adamia, Amanda Ross, Andrej Trauner, Zaza Avaliani, Sonia Borrell, Klaus Reither, Miriam Reinhard, and Christian Beisel

Subjects

Genetics, Tuberculosis, MEDLINE, medicine, Microbial genetics, Multidrug-Resistant Mycobacterium tuberculosis, Genomics, General Medicine, Biology, medicine.disease, General Biochemistry, Genetics and Molecular Biology

Published

2021

21. An African origin for Mycobacterium bovis

Author

Leen Rigouts, Suelee Robbe-Austerman, Jakob Zinsstag, Sebastien Gagneux, Elena Hailu, Chloé Loiseau, Gobena Ameni, Daniela Brites, Balako Gumi, Fabrizio Menardo, Abraham Aseffa, and Stefan Berg

Subjects

Tuberculosis, phylogeography, 03 medical and health sciences, medicine, Original Research Article, bovine tuberculosis, Molecular clock, Biology, 030304 developmental biology, 2. Zero hunger, Whole genome sequencing, 0303 health sciences, Mycobacterium bovis, Phylogenetic tree, biology, 030306 microbiology, business.industry, molecular clock, zoonosis, biology.organism_classification, medicine.disease, Mycobacterium caprae, 3. Good health, Phylogeography, Evolutionary biology, whole-genome sequencing, Livestock, Human medicine, business

Abstract

Background and objectives: Mycobacterium bovis and Mycobacterium caprae are two of the most important agents of tuberculosis in livestock and the most important causes of zoonotic tuberculosis in humans. However, little is known about the global population structure, phylogeography and evolutionary history of these pathogens. Methodology: We compiled a global collection of 3364 whole-genome sequences from M.bovis and M.caprae originating from 35 countries and inferred their phylogenetic relationships, geographic origins and age. Results: Our results resolved the phylogenetic relationship among the four previously defined clonal complexes of M.bovis, and another eight newly described here. Our phylogeographic analysis showed that M.bovis likely originated in East Africa. While some groups remained restricted to East and West Africa, others have subsequently dispersed to different parts of the world. Conclusions and implications: Our results allow a better understanding of the global population structure of M.bovis and its evolutionary history. This knowledge can be used to define better molecular markers for epidemiological investigations of M.bovis in settings where whole-genome sequencing cannot easily be implemented. Lay summary: During the last few years, analyses of large globally representative collections of whole-genome sequences (VVGS) from the human-adapted Mycobacterium tuberculosis complex (MTBC) lineages have enhanced our understanding of the global population structure, phylogeography and evolutionary history of these pathogens. In contrast, little corresponding data exists for M. bovis, the most important agent of tuberculosis in livestock. Using whole-genome sequences of globally distributed M. bovis isolates, we inferred the genetic relationships among different M. bovis genotypes distributed around the world. The most likely origin of M. bovis is East Africa according to our inferences. While some M. bovis groups remained restricted to East and West Africa, others have subsequently dispersed to different parts of the world driven by cattle movements.

Published

2019

22. Whole genome sequencing of Mycobacterium tuberculosis: current standards and open issues

Author

Jennifer L. Guthrie, Sebastien Gagneux, Tim H. Heupink, Timothy M Walker, Annelies Van Rie, Philip Ashton, Maha R. Farhat, Daniela Brites, Galo A. Goig, Lennert Verboven, Dick van Soolingen, Christian Utpatel, Elisa Tagliani, Robin M. Warren, Qian Gao, Viola Dreyer, Philip Supply, Thomas Kohl, Fabrizio Menardo, Yanlin Zhao, Anzaan Dippenaar, Leen Rigouts, Andrea M. Cabibbe, Kris Laukens, Qingyun Liu, Marco Schito, Matteo Zignol, Margaretha de Vos, Iñaki Comas, Matthew Ezewudo, Stefan Niemann, Chloé Loiseau, Timothy C. Rodwell, Anita Suresh, Boatema Ofori-Anyinam, Daniela Maria Cirillo, Yang Zhou, Jennifer L. Gardy, Bouke C. de Jong, Conor J. Meehan, Paolo Miotto, Institute of Tropical Medicine [Antwerp] (ITM), Instituto de biomedicina [Valencia] (IBV), Consejo Superior de Investigaciones Científicas [Madrid] (CSIC), Forschungszentrum Borstel - Research Center Borstel, German Center for Infection Research - Partner Site Hamburg-Lübeck-Borstel-Riems, German Centre for Infection Research (DZIF), Universiteit Antwerpen [Antwerpen], Stellenbosch University, Critical Path Institute [Tucson, AZ], Harvard Medical School [Boston] (HMS), Massachusetts General Hospital [Boston], University of British Columbia (UBC), IRCCS San Raffaele Scientific Institute [Milan, Italie], Center for Global Health Security and Diplomacy [Ottawa] (CGHSD), Food and Drugs Authority [Accra, Ghana] (FDA Ghana), Centre d’Infection et d’Immunité de Lille - INSERM U 1019 - UMR 9017 - UMR 8204 (CIIL), Centre National de la Recherche Scientifique (CNRS)-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille)-Université de Lille-Institut National de la Santé et de la Recherche Médicale (INSERM)-Institut Pasteur de Lille, Réseau International des Instituts Pasteur (RIIP)-Réseau International des Instituts Pasteur (RIIP), Foundation for Innovative New Diagnostics (FIND), National Institute for Public Health and the Environment [Bilthoven] (RIVM), Chinese Center for Disease Control and Prevention, University of Oxford [Oxford], Swiss Tropical and Public Health Institute [Basel], University of Basel (Unibas), Fudan University [Shanghai], John Radcliffe Hospital [Oxford University Hospital], Organisation Mondiale de la Santé / World Health Organization Office (OMS / WHO), C.J.M., B.O.-A., L.R. and B.C.d.J. are supported by a European Research Council grant (INTERRUPTB, no. 311725). I.C. and G.A.G. are supported by a European Research Council grant (TB-ACCELERATE, no. 638553). T.C.R. receives salary support from the not-for-profit organization Foundation for Innovative New Diagnostics (the terms of this arrangement have been reviewed and approved by the University of California, San Diego). T.M.W. is an NIHR Academic Clinical Lecturer. J.L.G. and J.G. receive funding from the University of British Columbia, Vancouver, Canada. T.A.K., C.U., V.D. and S.N. receive funding from the German Center for Infection Research (DZIF) and are funded by the Deutsche Forschungsgemeinschaft (German Research Foundation) under Germany’s Excellence Strategy (EXC 22167–390884018). L.V., T.H.H. and A.V.R. are funded by FWO Odysseus G0F8316N. M.R.F. is supported by the US National Institutes of Health BD2K K01 (MRF ES026835). P.S. is supported by the Agence Nationale de la Recherche (ANR-16-CE35-0009)., ANR-16-CE35-0009,TBemerg,Naissance d'un tueur: facteurs génétiques et adaptations métaboliques impliquées dans l'émergence des bacilles tuberculeux épidémiques(2016), European Project: 311725,EC:FP7:ERC,ERC-2012-StG_20111109,INTERRUPTB(2013), European Project: 638553,H2020,ERC-2014-STG,TB-ACCELERATE(2015), Universiteit Antwerpen = University of Antwerpen [Antwerpen], Institut Pasteur de Lille, Réseau International des Instituts Pasteur (RIIP)-Réseau International des Instituts Pasteur (RIIP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Lille-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille)-Centre National de la Recherche Scientifique (CNRS), and University of Oxford

Subjects

Tuberculosis, Best practice, Sequencing data, Harmonization, Biology, Microbiology, Mycobacterium tuberculosis, 03 medical and health sciences, Public health surveillance, [SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], Drug Resistance, Bacterial, medicine, Humans, Phylogeny, Whole genome sequencing, Computer. Automation, 0303 health sciences, Molecular Epidemiology, General Immunology and Microbiology, Whole Genome Sequencing, 030306 microbiology, Computational Biology, medicine.disease, biology.organism_classification, Data science, 3. Good health, Infectious Diseases, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, Molecular Diagnostic Techniques, Practice Guidelines as Topic, Human medicine

Abstract

International audience; Whole genome sequencing (WGS) of Mycobacterium tuberculosis has rapidly progressed from a research tool to a clinical application for the diagnosis and management of tuberculosis and in public health surveillance. This development has been facilitated by drastic drops in cost, advances in technology and concerted efforts to translate sequencing data into actionable information. There is, however, a risk that, in the absence of a consensus and international standards, the widespread use of WGS technology may result in data and processes that lack harmonization, comparability and validation. In this Review, we outline the current landscape of WGS pipelines and applications, and set out best practices for M. tuberculosis WGS, including standards for bioinformatics pipelines, curated repositories of resistance-causing variants, phylogenetic analyses, quality control and standardized reporting.

Published

2019

23. The Evolution of Fluoroquinolone-Resistance in Mycobacterium tuberculosis is Modulated by the Genetic Background

Author

Rhastin A D Castro, Julia Feldmann, Lujeko Kamwela, Andrej Trauner, Sonia Borrell, Sebastien Gagneux, Miriam Reinhard, Chloé Loiseau, and Amanda Ross

Subjects

Genetics, 0303 health sciences, Mutation, Tuberculosis, Lineage (genetic), 030306 microbiology, medicine.drug_class, Antibiotics, In vitro toxicology, Biology, medicine.disease_cause, medicine.disease, biology.organism_classification, 3. Good health, Bacterial genetics, Mycobacterium tuberculosis, 03 medical and health sciences, Genetic variation, medicine, 030304 developmental biology

Abstract

Fluoroquinolones (FQ) form the backbone in experimental treatment regimens against drug-susceptible tuberculosis. However, little is known on whether the genetic variation present in natural populations ofMycobacterium tuberculosis(Mtb) affects the evolution of FQ-resistance (FQ-R). To investigate this question, we used a set ofMtbstrains that included nine genetically distinct drug-susceptible clinical isolates, and measured their frequency of resistance to the FQ ofloxacin (OFX)in vitro. We found that theMtbgenetic background led to differences in the frequency of OFX-resistance (OFX-R) that spanned two orders of magnitude and substantially modulated the observed mutational profiles for OFX-R. Furtherin vitroassays showed that the genetic background also influenced the minimum inhibitory concentration and the fitness effect conferred by a given OFX-R mutation. To test the clinical relevance of ourin vitrowork, we surveyed the mutational profile for FQ-R in publicly available genomic sequences from clinicalMtbisolates, and found substantialMtblineage-dependent variability. Comparison of the clinical and thein vitromutational profiles for FQ-R showed that 45% and 19% of the variability in the clinical frequency of FQ-RgyrAmutations in Lineage 2 and Lineage 4 strains, respectively, can be attributed to howMtbevolves FQ-Rin vitro. As theMtbgenetic background strongly influenced the evolution of FQ-Rin vitro, we conclude that the genetic background ofMtbalso impacts the evolution of FQ-R in the clinic.SignificanceNewer generations of fluoroquinolones form the backbone in many experimental treatment regimens againstM. tuberculosis(Mtb). While the genetic variation in natural populations ofMtbcan influence resistance evolution to multiple different antibiotics, it is unclear whether it modulates fluoroquinolone-resistance evolution as well. Using a combination ofin vitroassays coupled with genomic analysis of clinical isolates, we provide the first evidence illustrating theMtbgenetic background’s substantial role in fluoroquinolone-resistance evolution, and highlight the importance of bacterial genetics when studying the prevalence of fluoroquinolone-resistance inMtb. Our work may provide insights into how to maximize the timespan in which fluoroquinolones remain effective in clinical settings, whether as part of current standardized regimens, or in new regimens againstMtb.

Published

2019

24. Transition bias influences the evolution of antibiotic resistance in Mycobacterium tuberculosis

Author

Joshua L. Payne, Alex R. Hall, Sonia Borrell, Sebastian M. Gygli, Fabrizio Menardo, Chloé Loiseau, Sebastien Gagneux, and Andrej Trauner

Subjects

Human pathogen, medicine.disease_cause, Database and Informatics Methods, 0302 clinical medicine, Mathematical and Statistical Techniques, Short Reports, Antibiotics, Medicine and Health Sciences, Biology (General), Phylogeny, Genetics, 0303 health sciences, Mutation, Transition (genetics), biology, Antimicrobials, Mathematical Models, Nucleotides, Drugs, Genomics, Genomic Databases, 3. Good health, Actinobacteria, QH301-705.5, Research and Analysis Methods, Microbiology, DNA sequencing, Mycobacterium tuberculosis, Evolution, Molecular, 03 medical and health sciences, Antibiotic resistance, Bacterial Proteins, Microbial Control, Drug Resistance, Bacterial, medicine, Point Mutation, Amino Acid Sequence, Gene, 030304 developmental biology, Pharmacology, Bacteria, Organisms, Biology and Life Sciences, Computational Biology, Promoter, biology.organism_classification, Genome Analysis, Biological Databases, Antibiotic Resistance, Mutation Databases, Antimicrobial Resistance, 030217 neurology & neurosurgery

Abstract

Transition bias, an overabundance of transitions relative to transversions, has been widely reported among studies of the rates and spectra of spontaneous mutations. However, demonstrating the role of transition bias in adaptive evolution remains challenging. In particular, it is unclear whether such biases direct the evolution of bacterial pathogens adapting to treatment. We addressed this challenge by analyzing adaptive antibiotic-resistance mutations in the major human pathogen Mycobacterium tuberculosis (MTB). We found strong evidence for transition bias in two independently curated data sets comprising 152 and 208 antibiotic-resistance mutations. This was true at the level of mutational paths (distinct adaptive DNA sequence changes) and events (individual instances of the adaptive DNA sequence changes) and across different genes and gene promoters conferring resistance to a diversity of antibiotics. It was also true for mutations that do not code for amino acid changes (in gene promoters and the 16S ribosomal RNA gene rrs) and for mutations that are synonymous to each other and are therefore likely to have similar fitness effects, suggesting that transition bias can be caused by a bias in mutation supply. These results point to a central role for transition bias in determining which mutations drive adaptive antibiotic resistance evolution in a key pathogen., Some types of mutations occur more frequently than expected. This study shows that such bias —an excess of transitions over transversions—influences the evolution of antibiotic resistance in a key global pathogen, Mycobacterium tuberculosis.

Published

2019

25. Whole genome sequencing for drug resistance profile prediction in Mycobacterium tuberculosis

Author

Matthias Egger, Chloé Loiseau, Sonia Borrell, Sebastien Gagneux, Marie Ballif, Erik C. Böttger, Anchalee Avihingsanon, Marcel Yotebieng, Nicolas Blöchliger, Claudia Ritter, Jimena Collantes Loo, Rico Hömke, Peter Sander, Sebastian M. Gygli, Peter M. Keller, Joachim Gnokoro, Miriam Reinhard, University of Zurich, and Gagneux, Sebastien

Subjects

Drug, Tuberculosis, media_common.quotation_subject, 610 Medicine & health, Drug resistance, purl.org/pe-repo/ocde/ford#3.03.08 [https], Biology, Genome, Agar dilution, Mycobacterium tuberculosis, 03 medical and health sciences, 360 Social problems & social services, drug resistance level prediction, medicine, 2736 Pharmacology (medical), purl.org/pe-repo/ocde/ford#3.01.05 [https], Pharmacology (medical), quantitative phenotypic drug susceptibility testing, Gene, Ethambutol, 030304 developmental biology, media_common, Pharmacology, Genetics, Whole genome sequencing, 0303 health sciences, drug resistance, 030306 microbiology, 10179 Institute of Medical Microbiology, 2725 Infectious Diseases, medicine.disease, biology.organism_classification, Phenotype, 3. Good health, Infectious Diseases, 3004 Pharmacology, whole-genome sequencing, 570 Life sciences, biology, medicine.drug

Abstract

Whole genome sequencing allows rapid detection of drug-resistantM. tuberculosisisolates. However, high-quality data linking quantitative phenotypic drug susceptibility testing (DST) and genomic data have thus far been lacking.We determined drug resistance profiles of 176 genetically diverse clinicalM. tuberculosisisolates from Democratic Republic of the Congo, Ivory Coast, Peru, Thailand and Switzerland by quantitative phenotypic DST for 11 antituberculous drugs using the BD BACTEC MGIT 960 system and 7H10 agar dilution to generate a cross-validated phenotypic DST readout. We compared phenotypic drug susceptibility results with predicted drug resistance profiles inferred by whole genome sequencing.Both phenotypic DST methods identically classified the strains into resistant/susceptible in 73-99% of the cases, depending on the drug. Changes in minimal inhibitory concentrations were readily explained by mutations identified by whole genome sequencing. Using the whole genome sequences we were able to predict quantitative drug resistance levels where wild type and mutant MIC distributions did not overlap. The utility of genome sequences to predict quantitative levels of drug resistance was partially limited due to incompletely understood mechanisms influencing the expression of phenotypic drug resistance. The overall sensitivity and specificity of whole genome-based DST were 86.8% and 94.5%, respectively.Despite some limitations, whole genome sequencing has high predictive power to infer resistance profiles without the need for time-consuming phenotypic methods.One sentence summaryWhole genome sequencing of clinicalM. tuberculosisisolates accurately predicts drug resistance profiles and may replace culture-based drug susceptibility testing in the future.

Published

2019

26. Revised Interpretation of the Hain Lifescience GenoType MTBC To Differentiate

Author

Chloé, Loiseau, Daniela, Brites, Irmgard, Moser, Francesc, Coll, Christine, Pourcel, Suelee, Robbe-Austerman, Vincent, Escuyer, Kimberlee A, Musser, Sharon J, Peacock, Silke, Feuerriegel, Thomas A, Kohl, Stefan, Niemann, Sebastien, Gagneux, and Claudio U, Köser

Subjects

Genotyping Techniques, Drug Resistance, Bacterial, Humans, Tuberculosis, Mycobacterium tuberculosis, Epidemiology and Surveillance

Abstract

Using 894 phylogenetically diverse genomes of the Mycobacterium tuberculosis complex (MTBC), we simulated in silico the ability of the Hain Lifescience GenoType MTBC assay to differentiate the causative agents of tuberculosis. Here, we propose a revised interpretation of this assay to reflect its strengths (e.g., it can distinguish some strains of Mycobacterium canettii and variants of Mycobacterium bovis that are not intrinsically resistant to pyrazinamide) and limitations (e.g., Mycobacterium orygis cannot be differentiated from Mycobacterium africanum).

Published

2019

27. Reference set of Mycobacterium tuberculosis clinical strains: A tool for research and product development

Author

Sebastien Gagneux, Sonia Borrell, Dorothy Yeboah-Manu, Julia Feldmann, Bouke C. de Jong, Chloé Loiseau, Midori Kato-Maeda, Mireia Coscolla, Andrej Trauner, Leen Rigouts, Christian Beisel, Daniela Brites, Miriam Reinhard, and Stefan Niemann

Subjects

Bacterial Diseases, Research Facilities, Extensively Drug-Resistant Tuberculosis, Lineage (evolution), Disease, Animal Phylogenetics, Medicine and Health Sciences, Phylogeny, Data Management, 0303 health sciences, Geography, Phylogenetic tree, Strain (biology), Genomics, 3. Good health, Actinobacteria, Phylogenetics, Phylogeography, Infectious Diseases, Biogeography, Mycobacterium tuberculosis complex, Medicine, Research Laboratories, Research Article, Computer and Information Sciences, Tuberculosis, Tuberculosi, Science, Biology, Research and Analysis Methods, Mycobacterium tuberculosis, 03 medical and health sciences, Genomic Medicine, Genetics, medicine, Humans, Evolutionary Systematics, Taxonomy, 030304 developmental biology, Evolutionary Biology, Population Biology, Bacteria, 030306 microbiology, Ecology and Environmental Sciences, Organisms, Biology and Life Sciences, Genetic Variation, Tropical Diseases, biology.organism_classification, medicine.disease, Genòmica, Phylogenetic diversity, Evolutionary biology, Earth Sciences, Zoology, Population Genetics

Abstract

TheMycobacterium tuberculosiscomplex (MTBC) causes tuberculosis (TB) in humans and various other mammals. The human-adapted members of the MTBC comprise seven phylogenetic lineages that differ in their geographical distribution. There is growing evidence that this phylogenetic diversity modulates the outcome of TB infection and disease. For decades, TB research and development has focused on the two canonical MTBC reference strains H37Rv and Erdman, both of which belong to Lineage 4. Relying on only a few laboratory-adapted strains can be misleading as study results might not be directly transferrable to clinical settings where patients are infected with a diverse array of strains, including drug-resistant variants. Here, we argue for the need to expand TB research and development by incorporating the phylogenetic diversity of the MTBC. To facilitate such work, we have assembled a group of 20 genetically well-characterized clinical strains representing the seven known human-adapted MTBC lineages. With the “MTBC clinical strains reference set” we aim to provide a standardized resource for the TB community. We hope it will enable more direct comparisons between studies that explore the physiology of MTBC beyond the lab strains used thus far. We anticipate that detailed phenotypic analyses of this reference strain set will increase our understanding of TB biology and assist in the development of new control tools that are universally effective.

Published

2019

28. Revised interpretation of the Hain Lifescience GenoType MTBC to differentiate $Mycobacterium\ canettii$ and members of the $Mycobacterium\ tuberculosis$ Complex

Author

Stefan Niemann, Sebastien Gagneux, Chloé Loiseau, Claudio U. Köser, Silke Feuerriegel, Christine Pourcel, Suelee Robbe-Austerman, Irmgard Moser, Vincent E. Escuyer, Thomas Kohl, Kimberlee A. Musser, Daniela Brites, Sharon J. Peacock, Francesc Coll, Swiss Tropical and Public Health Institute [Basel], University of Basel (Unibas), Friedrich-Loeffler-Institut (FLI), Faculty of Infectious and Tropical Diseases, London School of Hygiene and Tropical Medicine (LSHTM), Institut de Biologie Intégrative de la Cellule (I2BC), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), United States Department of Agriculture (USDA), Wadsworth Center, New York State Department of Health [Albany], University of Cambridge [UK] (CAM), German Center for Infection Research - Partner Site Hamburg-Lübeck-Borstel-Riems, German Centre for Infection Research (DZIF), and Department of Genetics [Cambridge]

Subjects

Tuberculosis, pyrazinamide, intrinsic antibiotic resistance, [SDV]Life Sciences [q-bio], Mycobacterium tuberculosis, 03 medical and health sciences, Genotype, medicine, Pharmacology (medical), Genotyping, 030304 developmental biology, Pharmacology, Genetics, 0303 health sciences, Mycobacterium bovis, biology, 030306 microbiology, orygis, assay, medicine.disease, biology.organism_classification, 3. Good health, Infectious Diseases, Mycobacterium tuberculosis complex, genotyping, polymorphisms, Mycobacterium africanum, Mycobacterium

Abstract

Using 894 phylogenetically diverse genomes of the Mycobacterium tuberculosis complex (MTBC), we simulated in silico the ability of the Hain Lifescience GenoType MTBC assay to differentiate the causative agents of tuberculosis. Here, we propose a revised interpretation of this assay to reflect its strengths (e.g., it can distinguish some strains of Mycobacterium canettii and variants of Mycobacterium bovis that are not intrinsically resistant to pyrazinamide) and limitations (e.g., Mycobacterium orygis cannot be differentiated from Mycobacterium africanum ).

Published

2019

29. Red squirrels in the British Isles are infected with leprosy bacilli

Author

Chloé Loiseau, Karen Stevenson, Jérémie Piton, Fergal McDermott, Jorge Del-Pozo, Darren J. Shaw, Victor R. Simpson, Joyce McLuckie, Stephen V. Gordon, Janne M. Schoening, Jesús Salvador Velarde-Félix, Andrej Benjak, Lucio Vera-Cabrera, Anna Meredith, Colin Lawton, Stewart T. Cole, Philippe Busso, and Charlotte Avanzi

Subjects

0301 basic medicine, medieval, Bacilli, zoonotic leprosy, 030231 tropical medicine, united-states, Zoology, medicine.disease_cause, leprae, Serology, Mycobacterium, 03 medical and health sciences, 0302 clinical medicine, Protein Domains, Leprosy, medicine, Animals, Humans, mycobacterium-lepromatosis, Mycobacterium leprae, Mexico, Phylogeny, Sciurus, Disease Reservoirs, Mycobacterium lepromatosis, Multidisciplinary, Polymorphism, Genetic, biology, Sciuridae, Genomics, biology.organism_classification, medicine.disease, Toll-Like Receptor 1, United Kingdom, 3. Good health, 030104 developmental biology

Abstract

British squirrels infected with leprosy With the exception of armadillos in the Americas, leprosy infections are considered almost exclusively restricted to humans. Avanzi et al. examined warty growths on the faces and extremities of red squirrels in the British Isles and found that two species of leprosy-causing organisms were to blame (see the Perspective by Stinear and Brosch). Mycobacterium leprae in the southern population of Brownsea Island squirrels originated from a medieval human strain. M. lepromatosis was found in red squirrels from elsewhere in the United Kingdom and Ireland. Human leprosy is proving hard to eradicate, despite available drugs. Perhaps other wildlife species are also reservoirs for this stubborn disease. Science , this issue p. 744 ; see also p. 702

Published

2016

30. Whole-Genome Sequencing for Drug Resistance Profile Prediction in

Author

Sebastian M, Gygli, Peter M, Keller, Marie, Ballif, Nicolas, Blöchliger, Rico, Hömke, Miriam, Reinhard, Chloé, Loiseau, Claudia, Ritter, Peter, Sander, Sonia, Borrell, Jimena, Collantes Loo, Anchalee, Avihingsanon, Joachim, Gnokoro, Marcel, Yotebieng, Matthias, Egger, Sebastien, Gagneux, and Erik C, Böttger

Subjects

Genotype, Whole Genome Sequencing, Antitubercular Agents, Microbial Sensitivity Tests, Mycobacterium tuberculosis, Thailand, Editorial Commentary, Phenotype, Drug Resistance, Multiple, Bacterial, Mutation, Peru, Tuberculosis, Multidrug-Resistant, Democratic Republic of the Congo, Humans, Ethambutol, Genome, Bacterial, Switzerland

Abstract

Whole-genome sequencing allows rapid detection of drug-resistant

Published

2018

31. A New Phylogenetic Framework for the Animal-adaptedMycobacterium tuberculosisComplex

Author

Christian Beisel, Maria Beatrice Boniotti, Robin M. Warren, Mireia Coscolla, Sebastien Gagneux, Sven D.C. Parsons, Fabrizio Menardo, Chloé Loiseau, Marcel A. Behr, Sonia Borrell, Daniela Brites, Anzaan Dippenaar, Janet A. M. Fyfe, Swiss National Science Foundation, and European Research Council

Subjects

0301 basic medicine, Microbiology (medical), Host–pathogen interactions, Lineage (evolution), Population, lcsh:QR1-502, specificity, host range, Host tropism, Microbiology, Genetic diversity, lcsh:Microbiology, 03 medical and health sciences, Phylogenomics, education, Clade, 030304 developmental biology, Whole-genome sequencing, 0303 health sciences, education.field_of_study, biology, Phylogenetic tree, 030306 microbiology, genetic diversity, biology.organism_classification, 3. Good health, 030104 developmental biology, host–pathogen interactions, whole-genome sequencing, Mycobacterium tuberculosis complex, Evolutionary biology, Host range, Specificity, Mycobacterium africanum

Abstract

Tuberculosis (TB) affects humans and other animals and is caused by bacteria from the Mycobacterium tuberculosis complex (MTBC). Previous studies have shown that there are at least nine members of the MTBC infecting animals other than humans; these have also been referred to as ecotypes. However, the ecology and the evolution of these animal-adapted MTBC ecotypes are poorly understood. Here we screened 12,886 publicly available MTBC genomes and newly sequenced 17 animal-adapted MTBC strains, gathering a total of 529 genomes of animal-adapted MTBC strains. Phylogenomic and comparative analyses confirm that the animal-adapted MTBC members are paraphyletic with some members more closely related to the human-adapted Mycobacterium africanum Lineage 6 than to other animal-adapted strains. Furthermore, we identified four main animal-adapted MTBC clades that might correspond to four main host shifts; two of these clades are hypothesized to reflect independent cattle domestication events. Contrary to what would be expected from an obligate pathogen, MTBC nucleotide diversity was not positively correlated with host phylogenetic distances, suggesting that host tropism in the animal-adapted MTBC seems to be driven by contact rates and demographic aspects of the host population rather by than host relatedness. By combining phylogenomics with ecological data, we propose an evolutionary scenario in which the ancestor of Lineage 6 and all animal-adapted MTBC ecotypes was a generalist pathogen that subsequently adapted to different host species. This study provides a new phylogenetic framework to better understand the evolution of the different ecotypes of the MTBC and guide future work aimed at elucidating the molecular mechanisms underlying host range., This work was supported by the Swiss National Science Foundation (Grants 310030_166687, IZRJZ3_164171, IZLSZ3_170834, and CRSII5_177163), the European Research Council (309540-EVODRTB) and SystemsX.ch.

Published

2018

32. Treemmer: a tool to reduce large phylogenetic datasets with minimal loss of diversity

Author

Chloé Loiseau, Sebastien Gagneux, Sonia Borrell, Mireia Coscolla, Andrej Trauner, Liliana K. Rutaihwa, Fabrizio Menardo, Sebastian M. Gygli, Daniela Brites, and Christian Beisel

Subjects

0301 basic medicine, Computer science, 030106 microbiology, Information Storage and Retrieval, Representative sample, lcsh:Computer applications to medicine. Medical informatics, computer.software_genre, Biochemistry, Large phylogenetic trees, Redundancy reduction, Size reduction, Sampling bias, Clone elimination, Biogeography, Tuberculosis, Influenza, 03 medical and health sciences, 0302 clinical medicine, Redundancy (information theory), Structural Biology, Databases, Genetic, Redundancy (engineering), Humans, lcsh:QH301-705.5, Molecular Biology, Phylogeny, 030304 developmental biology, 0303 health sciences, Phylogenetic tree, Applied Mathematics, Computational Biology, Sampling (statistics), Mycobacterium tuberculosis, Computer Science Applications, 030104 developmental biology, lcsh:Biology (General), Influenza A virus, 030220 oncology & carcinogenesis, lcsh:R858-859.7, Data mining, computer, Algorithms, Software

Abstract

Background Large sequence datasets are difficult to visualize and handle. Additionally, they often do not represent a random subset of the natural diversity, but the result of uncoordinated and convenience sampling. Consequently, they can suffer from redundancy and sampling biases. Results Here we present Treemmer, a simple tool to evaluate the redundancy of phylogenetic trees and reduce their complexity by eliminating leaves that contribute the least to the tree diversity. Conclusions Treemmer can reduce the size of datasets with different phylogenetic structures and levels of redundancy while maintaining a sub-sample that is representative of the original diversity. Additionally, it is possible to fine-tune the behavior of Treemmer including any kind of meta-information, making Treemmer particularly useful for empirical studies., BMC Bioinformatics, 19, ISSN:1471-2105

Published

2018

33. Phylogenomics and antimicrobial resistance of the leprosy bacillus Mycobacterium leprae

Author

Masako Namisato, Gerson Oliveira Penna, Gisela Bretzel, Marco Andrey Cipriani Frade, Yuji Miyamoto, Patrícia Sammarco Rosa, Pushpendra Singh, Abdul Samad Al‐Kubati, Mariane Martins de Araújo Stefani, Masanori Kai, Fatoumata Sakho, Abdul Rahim Al-Samie, Moises Batista da Silva, Samira Bührer-Sékula, Amanda Nogueira Brum Fontes, Christian Johnson, Samba O. Sow, Masanori Matsuoka, Moussa Gado, Chloé Loiseau, Ida Maria Foschiani Dias Baptista, Andrej Benjak, José Augusto da Costa Nery, Claudio Guedes Salgado, Mamoudou Kodio, Selfu Girma, Philip Noel Suffys, Andréanne Lupien, Yasin Al-Qubati, Fred Bernardes Filho, Abdoulaye Fomba, Ousmane Konaté, Philippe Busso, Milton Ozório Moraes, Charlotte Avanzi, Lucio Vera-Cabrera, Raquel Carvalho Bouth, Euzenir Nunes Sarno, Stewart T. Cole, Kidist Bobosha, Abraham Aseffa, John S. Spencer, and Josafá Gonçalves Barreto

Subjects

0301 basic medicine, DNA, Bacterial, Science, 030106 microbiology, Nonsense mutation, General Physics and Astronomy, Drug resistance, Microbial Sensitivity Tests, GENOMAS, Genome, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Antibiotic resistance, Anti-Infective Agents, Phylogenomics, Drug Resistance, Bacterial, medicine, Humans, lcsh:Science, Mycobacterium leprae, Gene, Phylogeny, Genetics, Multidisciplinary, biology, General Chemistry, biology.organism_classification, medicine.disease, 3. Good health, 030104 developmental biology, Codon, Nonsense, lcsh:Q, Leprosy, Genome, Bacterial

Abstract

Leprosy is a chronic human disease caused by the yet-uncultured pathogen Mycobacterium leprae. Although readily curable with multidrug therapy (MDT), over 200,000 new cases are still reported annually. Here, we obtain M. leprae genome sequences from DNA extracted directly from patients’ skin biopsies using a customized protocol. Comparative and phylogenetic analysis of 154 genomes from 25 countries provides insight into evolution and antimicrobial resistance, uncovering lineages and phylogeographic trends, with the most ancestral strains linked to the Far East. In addition to known MDT-resistance mutations, we detect other mutations associated with antibiotic resistance, and retrace a potential stepwise emergence of extensive drug resistance in the pre-MDT era. Some of the previously undescribed mutations occur in genes that are apparently subject to positive selection, and two of these (ribD, fadD9) are restricted to drug-resistant strains. Finally, nonsense mutations in the nth excision repair gene are associated with greater sequence diversity and drug resistance., Leprosy is caused by the yet-uncultured pathogen Mycobacterium leprae. Here, Benjak et al. obtain M. leprae genome sequences from DNA extracted from patients' skin biopsies and, by analysing 154 genomes from 25 countries, provide insight into the pathogen’s evolution and antimicrobial resistance.

Published

2018

34. Transmission of Drug-Resistant Leprosy in Guinea-Conakry Detected Using Molecular Epidemiological Approaches: Table 1

Author

Abdoulaye Fomba, Andrej Benjak, Mamadou Kodio, Roch Christian Johnson, Chloé Loiseau, André Lamou, Tiguidanké Drame, Idrissa Camara, Glodia Doumbia, Stewart T. Cole, Fatoumata Sakho, Philippe Busso, Charlotte Avanzi, Gouressy Sock, and Samba O. Sow

Subjects

0301 basic medicine, Microbiology (medical), medicine.medical_specialty, biology, business.industry, Transmission (medicine), Drug resistance, Drug susceptibility, Guinea conakry, biology.organism_classification, Disease cluster, medicine.disease, Virology, 03 medical and health sciences, 030104 developmental biology, Infectious Diseases, Epidemiology, Immunology, Medicine, Leprosy, business, Mycobacterium leprae

Abstract

Molecular drug susceptibility testing was performed on skin biopsies from 24 leprosy patients from Guinea-Conakry for the first time. We identified primary drug resistance in 4 cases and a dapsone-resistant cluster caused by the same strain. Primary transmission of drug-resistant Mycobacterium leprae, including a rifampicin-resistant strain, is reported.

Published

2016

35. Tuberculosis in Swiss captive Asian elephants: microevolution of Mycobacterium tuberculosis characterized by multilocus variable-number tandem-repeat analysis and whole-genome sequencing

Author

Mireia Coscolla, David Stucki, Maja Ruetten, Ute Friedel, Chloé Loiseau, Julia Feldmann, Sebastien Gagneux, Hanspeter W. Steinmetz, Giovanni Ghielmetti, University of Zurich, and Ghielmetti, Giovanni

Subjects

0301 basic medicine, Tuberculosis, 030106 microbiology, Elephants, lcsh:Medicine, 10184 Institute of Veterinary Pathology, Minisatellite Repeats, Multiple Loci VNTR Analysis, Article, Disease Outbreaks, Mycobacterium tuberculosis, 03 medical and health sciences, Tuberculosis diagnosis, medicine, Animals, lcsh:Science, 10082 Institute of Food Safety and Hygiene, Whole genome sequencing, 1000 Multidisciplinary, Multidisciplinary, biology, Whole Genome Sequencing, Transmission (medicine), Diagnostic Tests, Routine, Captive elephants, lcsh:R, biology.organism_classification, medicine.disease, Virology, 3. Good health, Variable number tandem repeat, 030104 developmental biology, 570 Life sciences, lcsh:Q, Switzerland, Multilocus Sequence Typing

Abstract

Zoonotic tuberculosis is a risk for human health, especially when animals are in close contact with humans. Mycobacterium tuberculosis was cultured from several organs, including lung tissue and gastric mucosa, of three captive elephants euthanized in a Swiss zoo. The elephants presented weight loss, weakness and exercise intolerance. Molecular characterization of the M. tuberculosis isolates by spoligotyping revealed an identical profile, suggesting a single source of infection. Multilocus variable-number of tandem-repeat analysis (MLVA) elucidated two divergent populations of bacteria and mixed infection in one elephant, suggesting either different transmission chains or prolonged infection over time. A total of eight M. tuberculosis isolates were subjected to whole-genome sequence (WGS) analysis, confirming a single source of infection and indicating the route of transmission between the three animals. Our findings also show that the methods currently used for epidemiological investigations of M. tuberculosis infections should be carefully applied on isolates from elephants. Moreover the importance of multiple sampling and analysis of within-host mycobacterial clonal populations for investigations of transmission is demonstrated.

Published

2017

36. Comparative genomics ofMycobacterium africanumLineage 5 and Lineage 6 from Ghana suggests different ecological niches

Author

Akosua Baddoo, Mireia Coscolla, Bouke C. de Jong, Conor J. Meehan, Gloria Akosua Ansa, Thomas Kohl, Simon R. Harris, Audrey Forson, Daniela Brites, Stefan Niemann, Isaac Darko Otchere, Stephen Osei-Wusu, Dorothy Yeboah-Manu, Chloé Loiseau, Sebastien Gagneux, Clement Laryea, Patrick Beckert, Leonor Sánchez-Busó, Abdallah Iddrisu Yahayah, Martin Antonio, Adwoa Asante-Poku, Julian Parkhill, Florian Gehre, Sonia Borrell, Sanoussi N'dira, Prince Asare, Christian Beisel, and Samuel Yaw Aboagye

Subjects

Comparative genomics, Genetics, Ecological niche, 0303 health sciences, Lineage (genetic), 030306 microbiology, Genomics, Biology, biology.organism_classification, Genome, 3. Good health, 03 medical and health sciences, Negative selection, Mycobacterium africanum, Selection (genetic algorithm), 030304 developmental biology

Abstract

Mycobacterium africanum(Maf) causes up to half of human tuberculosis in West Africa, but little is known on this pathogen. We compared the genomes of 253Mafclinical isolates from Ghana, including both L5 and L6. We found that the genomic diversity of L6 was higher than in L5, and the selection pressures differed between both groups. Regulatory proteins appeared to evolve neutrally in L5 but under purifying selection in L6. Conversely, human T cell epitopes were under purifying selection in L5, but under positive selection in L6. Although only 10% of the T cell epitopes were variable, mutations were mostly lineage-specific. Our findings indicate thatMafL5 and L6 are genomically distinct, possibly reflecting different ecological niches.

Published

2017

37. The Genome of the Toluene-Degrading Pseudomonas veronii Strain 1YdBTEX2 and Its Differential Gene Expression in Contaminated Sand

Author

Dejan Roggero, Mathieu Seppey, Damien Fiorucci, Claire Bertelli, Gustavo A. Ruiz Buendía, Cedric Schneider, Chloé Loiseau, Jan Roelof van der Meer, Oliver M. Selmoni, Alexander Goesmann, Andrea Komljenovic, Olivier Emery, Esteban Alfonso, Gilbert Greub, Angelique Escoriza, Burkhard Linke, Pauline Berra, Fatma Ben Jeddou, Keith Harshman, Marc Robinson-Rechavi, Loïc Pillard, Angela Etienne, Evgeniya Trofimenco, Fabien Delapierre, Manupriyam Dubey, Francisca H. I. D. Segers, Athimed El Taher, Madeleine Sulfiotti, Vladimir Sentchilo, Marian Morales, Grégory Resch, Trestan Pillonel, Nadezda Kryuchkova-Mostacci, Roxane Moritz, Audrey Bourdilloud, and Harshman, K.

Subjects

0301 basic medicine, lcsh:Medicine, Gene Expression, BTEX, Biochemistry, chemistry.chemical_compound, Database and Informatics Methods, Mobile Genetic Elements, Soil Pollutants, Dehydration, Gene Expression Profiling, Microarray Analysis, Micrococcaceae/genetics, Micrococcaceae/metabolism, Pseudomonas/genetics, Pseudomonas/growth & development, Pseudomonas/metabolism, Sphingomonas/genetics, Sphingomonas/metabolism, Water Pollutants/metabolism, lcsh:Science, Multidisciplinary, biology, Chromosome Biology, Pseudomonas, Genomics, Genomic Databases, Pseudomonas putida, Nucleic acids, Chemistry, Biodegradation, Environmental, Physical Sciences, Research Article, Plasmids, Bioaugmentation, Forms of DNA, 030106 microbiology, Pseudomonas veronii, Pseudomonas fluorescens, Research and Analysis Methods, Chromosomes, Microbiology, 03 medical and health sciences, Genetic Elements, Aromatic Hydrocarbons, Genetics, lcsh:R, Chemical Compounds, Biology and Life Sciences, Chromosome 1, Computational Biology, Chromosome 2, Gene Expression Regulation, Bacterial, Cell Biology, DNA, biology.organism_classification, Chromosome Pairs, Genome Analysis, Genomic Libraries, Toluene, Hydrocarbons, 030104 developmental biology, Biological Databases, chemistry, lcsh:Q, Bacteria, Genome, Bacterial

Abstract

The natural restoration of soils polluted by aromatic hydrocarbons such as benzene, toluene, ethylbenzene and m- and p-xylene (BTEX) may be accelerated by inoculation of specific biodegraders (bioaugmentation). Bioaugmentation mainly involves introducing bacteria that deploy their metabolic properties and adaptation potential to survive and propagate in the contaminated environment by degrading the pollutant. In order to better understand the adaptive response of cells during a transition to contaminated material, we analyzed here the genome and short-term (1 h) changes in genome-wide gene expression of the BTEX-degrading bacterium Pseudomonas veronii 1YdBTEX2 in non-sterile soil and liquid medium, both in presence or absence of toluene. We obtained a gapless genome sequence of P. veronii 1YdBTEX2 covering three individual replicons with a total size of 8 Mb, two of which are largely unrelated to current known bacterial replicons. One-hour exposure to toluene, both in soil and liquid, triggered massive transcription (up to 208-fold induction) of multiple gene clusters, such as toluene degradation pathway(s), chemotaxis and toluene efflux pumps. This clearly underlines their key role in the adaptive response to toluene. In comparison to liquid medium, cells in soil drastically changed expression of genes involved in membrane functioning (e.g., lipid composition, lipid metabolism, cell fatty acid synthesis), osmotic stress response (e.g., polyamine or trehalose synthesis, uptake of potassium) and putrescine metabolism, highlighting the immediate response mechanisms of P. veronii 1YdBTEX2 for successful establishment in polluted soil.

Published

2016

38. Transmission of Drug-Resistant Leprosy in Guinea-Conakry Detected Using Molecular Epidemiological Approaches

Author

Charlotte, Avanzi, Philippe, Busso, Andrej, Benjak, Chloé, Loiseau, Abdoulaye, Fomba, Glodia, Doumbia, Idrissa, Camara, André, Lamou, Gouressy, Sock, Tiguidanké, Drame, Mamadou, Kodio, Fatoumata, Sakho, Samba O, Sow, Stewart T, Cole, and Roch Christian, Johnson

Subjects

DNA, Bacterial, Male, Biopsy, Antitubercular Agents, Drug Resistance, Microbial, Sequence Analysis, DNA, Mycobacterium leprae, Leprosy, Humans, Female, Guinea, Rifampin, Antibiotics, Antitubercular, Dapsone, Genome, Bacterial, Skin

Abstract

Molecular drug susceptibility testing was performed on skin biopsies from 24 leprosy patients from Guinea-Conakry for the first time. We identified primary drug resistance in 4 cases and a dapsone-resistant cluster caused by the same strain. Primary transmission of drug-resistant Mycobacterium leprae, including a rifampicin-resistant strain, is reported.

Published

2016

39. Oral Phage Therapy of Acute Bacterial Diarrhea With Two Coliphage Preparations: A Randomized Trial in Children From Bangladesh

Author

Shamima Sultana, Sayeeda Huq, Shawna McCallin, Deborah Moine, Shafiqul Alam Sarker, Gilles Bourdin, Firdausi Qadri, Chloé Loiseau, Ying Deng, Harald Brüssow, Bernard Berger, Tara Neville, Mahmuda Akter, Catherine Ngom-Bru, Patrick Descombes, Kaisar Talukdar, Gloria Reuteler, Sahar El Aidy, Michèle Delley, Mohamed Kassam, and Florence Charton

Subjects

0301 basic medicine, Male, viruses, medicine.medical_treatment, lcsh:Medicine, Administration, Oral, medicine.disease_cause, Enteropathogenic Escherichia coli, EPEC, enteropathogenic E. coli, ETEC, enterotoxigenic E. coli, Bacteriophages, Child, RCT, randomized controlled trial, Pathogen, Children, Escherichia coli Infections, lcsh:R5-920, Bangladesh, biology, Streptococcus, General Medicine, Diarrhea, ORS, oral rehydration solution, qPCR, quantitative polymerase chain reaction, Female, medicine.symptom, lcsh:Medicine (General), Research Paper, Phage therapy, Adolescent, Cfu, colony forming unit, EAEC, enteroaggregative E. coli, pfu, plaque forming unit, Coliphages, General Biochemistry, Genetics and Molecular Biology, Microbiology, T, T4 phage cocktail from NRC, 03 medical and health sciences, Antibiotic resistance, medicine, PT, phage therapy, Escherichia coli, Humans, Coliphage, Phage Therapy, lcsh:R, biology.organism_classification, Virology, 030104 developmental biology, Bifidobacterium, Bacterial virus, M, ColiProteus phage cocktail from Microgen, P, placebo

Abstract

Background Antibiotic resistance is rising in important bacterial pathogens. Phage therapy (PT), the use of bacterial viruses infecting the pathogen in a species-specific way, is a potential alternative. Method T4-like coliphages or a commercial Russian coliphage product or placebo was orally given over 4 days to Bangladeshi children hospitalized with acute bacterial diarrhea. Safety of oral phage was assessed clinically and by functional tests; coliphage and Escherichia coli titers and enteropathogens were determined in stool and quantitative diarrhea parameters (stool output, stool frequency) were measured. Stool microbiota was studied by 16S rRNA gene sequencing; the genomes of four fecal Streptococcus isolates were sequenced. Findings No adverse events attributable to oral phage application were observed (primary safety outcome). Fecal coliphage was increased in treated over control children, but the titers did not show substantial intestinal phage replication (secondary microbiology outcome). 60% of the children suffered from a microbiologically proven E. coli diarrhea; the most frequent diagnosis was ETEC infections. Bacterial co-pathogens were also detected. Half of the patients contained phage-susceptible E. coli colonies in the stool. E. coli represented less than 5% of fecal bacteria. Stool ETEC titers showed only a short-lived peak and were otherwise close to the replication threshold determined for T4 phage in vitro. An interim analysis after the enrollment of 120 patients showed no amelioration in quantitative diarrhea parameter by PT over standard care (tertiary clinical outcome). Stool microbiota was characterized by an overgrowth with Streptococcus belonging to the Streptococcus gallolyticus and Streptococcus salivarius species groups, their abundance correlated with quantitative diarrhea outcome, but genome sequencing did not identify virulence genes. Interpretation Oral coliphages showed a safe gut transit in children, but failed to achieve intestinal amplification and to improve diarrhea outcome, possibly due to insufficient phage coverage and too low E. coli pathogen titers requiring higher oral phage doses. More knowledge is needed on in vivo phage–bacterium interaction and the role of E. coli in childhood diarrhea for successful PT. Funding The study was supported by a grant from Nestlé Nutrition and Nestlé Health Science. The trial was registered with Identifier NCT00937274 at ClinicalTrials.gov., Highlights • Coliphages given orally to children with bacterial diarrhea appeared in the stool, but did not improve clinical outcome. • In microbiologically diagnosed E. coli diarrhea, pathogen titers were close to the replication threshold of coliphages. • Acute bacterial diarrhea displayed a marked dysbiosis with fecal streptococci that stabilized with recovery from diarrhea. Antibiotic resistance of bacterial infections reached alarming levels. Phage therapy is a potential alternative antimicrobial. We demonstrated that two different oral phage preparations did not improve acute bacterial diarrhea in children from Bangladesh. We observed fecal excretion of the oral phage, but no major phage amplification in the gut. E. coli pathogen levels were low and the fecal microbiota showed a transient overgrowth with streptococci. Future phage trials should first verify the titer and association of the targeted pathogen with the disease.

Published

2015

40. Local adaptation in populations of Mycobacterium tuberculosis endemic to the Indian Ocean Rim [version 2; peer review: 3 approved]

Author

Fabrizio Menardo, Liliana K. Rutaihwa, Michaela Zwyer, Sonia Borrell, Iñaki Comas, Emilyn Costa Conceição, Mireia Coscolla, Helen Cox, Moses Joloba, Horng-Yunn Dou, Julia Feldmann, Lukas Fenner, Janet Fyfe, Qian Gao, Darío García de Viedma, Alberto L. Garcia-Basteiro, Sebastian M. Gygli, Jerry Hella, Hellen Hiza, Levan Jugheli, Lujeko Kamwela, Midori Kato-Maeda, Qingyun Liu, Serej D. Ley, Chloe Loiseau, Surakameth Mahasirimongkol, Bijaya Malla, Prasit Palittapongarnpim, Niaina Rakotosamimanana, Voahangy Rasolofo, Miriam Reinhard, Klaus Reither, Mohamed Sasamalo, Rafael Silva Duarte, Christophe Sola, Philip Suffys, Karla Valeria Batista Lima, Dorothy Yeboah-Manu, Christian Beisel, Daniela Brites, and Sebastien Gagneux

Subjects

Medicine, Science

Abstract

Background: Lineage 1 (L1) and 3 (L3) are two lineages of the Mycobacterium tuberculosis complex (MTBC) causing tuberculosis (TB) in humans. L1 and L3 are prevalent around the rim of the Indian Ocean, the region that accounts for most of the world’s new TB cases. Despite their relevance for this region, L1 and L3 remain understudied. Methods: We analyzed 2,938 L1 and 2,030 L3 whole genome sequences originating from 69 countries. We reconstructed the evolutionary history of these two lineages and identified genes under positive selection. Results: We found a strongly asymmetric pattern of migration from South Asia toward neighboring regions, highlighting the historical role of South Asia in the dispersion of L1 and L3. Moreover, we found that several genes were under positive selection, including genes involved in virulence and resistance to antibiotics. For L1 we identified signatures of local adaptation at the esxH locus, a gene coding for a secreted effector that targets the human endosomal sorting complex, and is included in several vaccine candidates. Conclusions: Our study highlights the importance of genetic diversity in the MTBC, and sheds new light on two of the most important MTBC lineages affecting humans.

Published

2021

41. Local adaptation in populations of Mycobacterium tuberculosis endemic to the Indian Ocean Rim [version 1; peer review: 2 approved]

Author

Fabrizio Menardo, Liliana K. Rutaihwa, Michaela Zwyer, Sonia Borrell, Iñaki Comas, Emilyn Costa Conceição, Mireia Coscolla, Helen Cox, Moses Joloba, Horng-Yunn Dou, Julia Feldmann, Lukas Fenner, Janet Fyfe, Qian Gao, Darío García de Viedma, Alberto L. Garcia-Basteiro, Sebastian M. Gygli, Jerry Hella, Hellen Hiza, Levan Jugheli, Lujeko Kamwela, Midori Kato-Maeda, Qingyun Liu, Serej D. Ley, Chloe Loiseau, Surakameth Mahasirimongkol, Bijaya Malla, Prasit Palittapongarnpim, Niaina Rakotosamimanana, Voahangy Rasolofo, Miriam Reinhard, Klaus Reither, Mohamed Sasamalo, Rafael Silva Duarte, Christophe Sola, Philip Suffys, Karla Valeria Batista Lima, Dorothy Yeboah-Manu, Christian Beisel, Daniela Brites, and Sebastien Gagneux

Subjects

Medicine, Science

Abstract

Background: Lineage 1 (L1) and 3 (L3) are two lineages of the Mycobacterium tuberculosis complex (MTBC) causing tuberculosis (TB) in humans. L1 and L3 are prevalent around the rim of the Indian Ocean, the region that accounts for most of the world’s new TB cases. Despite their relevance for this region, L1 and L3 remain understudied. Methods: We analyzed 2,938 L1 and 2,030 L3 whole genome sequences originating from 69 countries. We reconstructed the evolutionary history of these two lineages and identified genes under positive selection. Results: We found a strongly asymmetric pattern of migration from South Asia toward neighboring regions, highlighting the historical role of South Asia in the dispersion of L1 and L3. Moreover, we found that several genes were under positive selection, including genes involved in virulence and resistance to antibiotics . For L1 we identified signatures of local adaptation at the esxH locus, a gene coding for a secreted effector that targets the human endosomal sorting complex, and is included in several vaccine candidates. Conclusions: Our study highlights the importance of genetic diversity in the MTBC, and sheds new light on two of the most important MTBC lineages affecting humans.

Published

2021

42. Reference set of Mycobacterium tuberculosis clinical strains: A tool for research and product development.

Author

Sònia Borrell, Andrej Trauner, Daniela Brites, Leen Rigouts, Chloe Loiseau, Mireia Coscolla, Stefan Niemann, Bouke De Jong, Dorothy Yeboah-Manu, Midori Kato-Maeda, Julia Feldmann, Miriam Reinhard, Christian Beisel, and Sebastien Gagneux

Subjects

Medicine, Science

Abstract

The Mycobacterium tuberculosis complex (MTBC) causes tuberculosis (TB) in humans and various other mammals. The human-adapted members of the MTBC comprise seven phylogenetic lineages that differ in their geographical distribution. There is growing evidence that this phylogeographic diversity modulates the outcome of TB infection and disease. For decades, TB research and development has focused on the two canonical MTBC laboratory strains H37Rv and Erdman, both of which belong to Lineage 4. Relying on only a few laboratory-adapted strains can be misleading as study results might not be directly transferrable to clinical settings where patients are infected with a diverse array of strains, including drug-resistant variants. Here, we argue for the need to expand TB research and development by incorporating the phylogenetic diversity of the MTBC. To facilitate such work, we have assembled a group of 20 genetically well-characterized clinical strains representing the seven known human-adapted MTBC lineages. With the "MTBC clinical strains reference set" we aim to provide a standardized resource for the TB community. We hope it will enable more direct comparisons between studies that explore the physiology of MTBC beyond the laboratory strains used thus far. We anticipate that detailed phenotypic analyses of this reference strain set will increase our understanding of TB biology and assist in the development of new control tools that are broadly effective.

Published

2019

43. Oral Phage Therapy of Acute Bacterial Diarrhea With Two Coliphage Preparations: A Randomized Trial in Children From Bangladesh

Author

Shafiqul Alam Sarker, Shamima Sultana, Gloria Reuteler, Deborah Moine, Patrick Descombes, Florence Charton, Gilles Bourdin, Shawna McCallin, Catherine Ngom-Bru, Tara Neville, Mahmuda Akter, Sayeeda Huq, Firdausi Qadri, Kaisar Talukdar, Mohamed Kassam, Michèle Delley, Chloe Loiseau, Ying Deng, Sahar El Aidy, Bernard Berger, and Harald Brüssow

Subjects

Bacteriophages, Diarrhea, Escherichia coli, Streptococcus, Bifidobacterium, Children, Bangladesh, Medicine, Medicine (General), R5-920

Abstract

Background: Antibiotic resistance is rising in important bacterial pathogens. Phage therapy (PT), the use of bacterial viruses infecting the pathogen in a species-specific way, is a potential alternative. Method: T4-like coliphages or a commercial Russian coliphage product or placebo was orally given over 4 days to Bangladeshi children hospitalized with acute bacterial diarrhea. Safety of oral phage was assessed clinically and by functional tests; coliphage and Escherichia coli titers and enteropathogens were determined in stool and quantitative diarrhea parameters (stool output, stool frequency) were measured. Stool microbiota was studied by 16S rRNA gene sequencing; the genomes of four fecal Streptococcus isolates were sequenced. Findings: No adverse events attributable to oral phage application were observed (primary safety outcome). Fecal coliphage was increased in treated over control children, but the titers did not show substantial intestinal phage replication (secondary microbiology outcome). 60% of the children suffered from a microbiologically proven E. coli diarrhea; the most frequent diagnosis was ETEC infections. Bacterial co-pathogens were also detected. Half of the patients contained phage-susceptible E. coli colonies in the stool. E. coli represented less than 5% of fecal bacteria. Stool ETEC titers showed only a short-lived peak and were otherwise close to the replication threshold determined for T4 phage in vitro. An interim analysis after the enrollment of 120 patients showed no amelioration in quantitative diarrhea parameter by PT over standard care (tertiary clinical outcome). Stool microbiota was characterized by an overgrowth with Streptococcus belonging to the Streptococcus gallolyticus and Streptococcus salivarius species groups, their abundance correlated with quantitative diarrhea outcome, but genome sequencing did not identify virulence genes. Interpretation: Oral coliphages showed a safe gut transit in children, but failed to achieve intestinal amplification and to improve diarrhea outcome, possibly due to insufficient phage coverage and too low E. coli pathogen titers requiring higher oral phage doses. More knowledge is needed on in vivo phage–bacterium interaction and the role of E. coli in childhood diarrhea for successful PT. Funding: The study was supported by a grant from Nestlé Nutrition and Nestlé Health Science. The trial was registered with Identifier NCT00937274 at ClinicalTrials.gov.

Published

2016

44. Prisons as ecological drivers of fitness-compensated multidrug-resistant Mycobacterium tuberculosis

Author

Chloé Loiseau, Sebastien Gagneux, Christian Beisel, Zaza Avaliani, Nestani Tukvadze, Miriam Reinhard, Sonia Borrell, Andrej Trauner, Natia Adamia, Levan Jugheli, Klaus Reither, Sebastian M. Gygli, Amanda Ross, Nino Maghradze, and Rusudan Aspindzelashvili

Subjects

0301 basic medicine, Tuberculosis, Population, Antitubercular Agents, General Biochemistry, Genetics and Molecular Biology, Article, law.invention, 03 medical and health sciences, 0302 clinical medicine, law, Drug Resistance, Multiple, Bacterial, High transmission, Tuberculosis, Multidrug-Resistant, medicine, Humans, Multidrug-Resistant Mycobacterium tuberculosis, Experimental work, education, education.field_of_study, Ecology, business.industry, Prisoners, Mycobacterium tuberculosis, General Medicine, medicine.disease, 030104 developmental biology, Transmission (mechanics), Prisons, 030220 oncology & carcinogenesis, Mutation, business

Abstract

Multidrug-resistant tuberculosis (MDR-TB) accounts for one third of the annual deaths due to antimicrobial resistance(1). Drug resistance-conferring mutations frequently cause fitness costs in bacteria(2–5). Experimental work indicates that these drug resistance-related fitness costs might be mitigated by compensatory mutations(6–10). However, the clinical relevance of compensatory evolution remains poorly understood. Here we show that, in the country of Georgia, during a 6-year nationwide study, 63% of MDR-TB was due to patient-to-patient transmission. Compensatory mutations and patient incarceration were independently associated with transmission. Furthermore, compensatory mutations were overrepresented among isolates from incarcerated individuals that also frequently spilled over into the non-incarcerated population. As a result, up to 31% of MDR-TB in Georgia was directly or indirectly linked to prisons. We conclude that prisons fuel the epidemic of MDR-TB in Georgia by acting as ecological drivers of fitness-compensated strains with high transmission potential.

45. Mortality from drug-resistant tuberculosis in high-burden countries comparing routine drug susceptibility testing with whole-genome sequencing: a multicentre cohort study

Author

Jimena Collantes, Veronika Skrivankova, Olivier Marcy, Sebastien Gagneux, Matthias Egger, Miriam Reinhard, Robert J. Wilkinson, E. Jane Carter, Peter Sander, Marie Ballif, Anchalee Avihingsanon, Lukas Fenner, Marcel Yotebieng, Martina L. Reichmuth, Rico Hömke, Robin Huebner, Alash'le Abimiku, Helen Cox, Kathrin Zürcher, Erik C. Böttger, Chloé Loiseau, Sonia Borrell, University of Zurich, Ballif, M, and Wellcome Trust

Subjects

Male, Medicine (General), Antitubercular Agents, HIV Infections, Drug resistance, 2726 Microbiology (medical), drug susceptibility, Cohort Studies, Tuberculosis, Multidrug-Resistant, 610 Medicine & health, biology, 10179 Institute of Medical Microbiology, 2404 Microbiology, QR1-502, Infectious Diseases, whole-genome sequencing, high-burden countries, Female, MYCOBACTERIUM-TUBERCULOSIS, medicine.symptom, Life Sciences & Biomedicine, 360 Social problems & social services, Cohort study, AFRICA, Adult, Microbiology (medical), medicine.medical_specialty, Tuberculosis, Concordance, Microbial Sensitivity Tests, Microbiology, Mycobacterium tuberculosis, R5-920, Virology, Internal medicine, medicine, Humans, Mortality, Tuberculosis, Pulmonary, History of tuberculosis, Science & Technology, business.industry, drug-resistant tuberculosis, 2725 Infectious Diseases, Odds ratio, biology.organism_classification, medicine.disease, 2406 Virology, 570 Life sciences, Sputum, business

Abstract

Summary Background Drug resistance threatens global tuberculosis control. We aimed to examine mortality in patients with tuberculosis from high-burden countries, according to concordance or discordance of results from drug susceptibility testing done locally and whole-genome sequencing (WGS). Methods In this multicentre cohort study, we collected pulmonary Mycobacterium tuberculosis isolates and clinical data from individuals with tuberculosis from antiretroviral therapy programmes and tuberculosis clinics in Cote d'Ivoire, Democratic Republic of the Congo, Kenya, Nigeria, Peru, South Africa, and Thailand, stratified by HIV status and drug resistance. Sites tested drug susceptibility using routinely available methods. WGS was done on Illumina HiSeq 2500 in the USA and Switzerland, and TBprofiler was used to analyse the genomes. We included individuals aged 16 years or older with pulmonary tuberculosis (bacteriologically confirmed or clinically diagnosed). We analysed mortality in multivariable logistic regression models adjusted for sex, age, HIV status, history of tuberculosis, and sputum positivity. Findings Between Sept 1, 2014, and July 4, 2016, of 634 patients included in our previous analysis, we included 582 patients with tuberculosis (median age 33 years [IQR 27–43], 225 [39%] women, and 247 [42%] HIV-positive). Based on WGS, 339 (58%) isolates were pan-susceptible, 35 (6%) monoresistant, 146 (25%) multidrug-resistant, and 24 (4%) pre-extensively drug-resistant (pre-XDR) or XDR. The analysis of mortality was based on 530 patients; 63 (12%) died and 77 (15%) patients received inappropriate treatment. Mortality ranged from 6% (18 of 310) in patients with pan-susceptible tuberculosis to 39% (nine of 23) in patients with pre-XDR or XDR tuberculosis. The adjusted odds ratio for mortality was 4·92 (95% CI 2·47–9·78) among undertreated patients, compared with appropriately treated patients. Interpretation In seven countries with a high burden of tuberculosis, we observed discrepancies between drug resistance patterns obtained locally and WGS. The underdiagnosis of drug resistance resulted in inappropriate treatment and higher mortality. WGS can provide accurate and detailed drug resistance information required to improve the outcomes of drug-resistant tuberculosis in high-burden settings. Our results support WHO's call for point-of-care tests based on WGS. Funding National Institutes of Allergy and Infectious Diseases, Swiss National Science Foundation, and Swiss National Center for Mycobacteria.