Your search keyword '"Miriam Reinhard"' showing total 41 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. Back-to-Africa introductions of Mycobacterium tuberculosis as the main cause of tuberculosis in Dar es Salaam, Tanzania.

Author

Michaela Zwyer, Liliana K Rutaihwa, Etthel Windels, Jerry Hella, Fabrizio Menardo, Mohamed Sasamalo, Gregor Sommer, Lena Schmülling, Sonia Borrell, Miriam Reinhard, Anna Dötsch, Hellen Hiza, Christoph Stritt, George Sikalengo, Lukas Fenner, Bouke C De Jong, Midori Kato-Maeda, Levan Jugheli, Joel D Ernst, Stefan Niemann, Leila Jeljeli, Marie Ballif, Matthias Egger, Niaina Rakotosamimanana, Dorothy Yeboah-Manu, Prince Asare, Bijaya Malla, Horng Yunn Dou, Nicolas Zetola, Robert J Wilkinson, Helen Cox, E Jane Carter, Joachim Gnokoro, Marcel Yotebieng, Eduardo Gotuzzo, Alash'le Abimiku, Anchalee Avihingsanon, Zhi Ming Xu, Jacques Fellay, Damien Portevin, Klaus Reither, Tanja Stadler, Sebastien Gagneux, and Daniela Brites

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

In settings with high tuberculosis (TB) endemicity, distinct genotypes of the Mycobacterium tuberculosis complex (MTBC) often differ in prevalence. However, the factors leading to these differences remain poorly understood. Here we studied the MTBC population in Dar es Salaam, Tanzania over a six-year period, using 1,082 unique patient-derived MTBC whole-genome sequences (WGS) and associated clinical data. We show that the TB epidemic in Dar es Salaam is dominated by multiple MTBC genotypes introduced to Tanzania from different parts of the world during the last 300 years. The most common MTBC genotypes deriving from these introductions exhibited differences in transmission rates and in the duration of the infectious period, but little differences in overall fitness, as measured by the effective reproductive number. Moreover, measures of disease severity and bacterial load indicated no differences in virulence between these genotypes during active TB. Instead, the combination of an early introduction and a high transmission rate accounted for the high prevalence of L3.1.1, the most dominant MTBC genotype in this setting. Yet, a longer co-existence with the host population did not always result in a higher transmission rate, suggesting that distinct life-history traits have evolved in the different MTBC genotypes. Taken together, our results point to bacterial factors as important determinants of the TB epidemic in Dar es Salaam.

Published

2023

3. 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

4. Using population-specific add-on polymorphisms to improve genotype imputation in underrepresented populations.

Author

Zhi Ming Xu, Sina Rüeger, Michaela Zwyer, Daniela Brites, Hellen Hiza, Miriam Reinhard, Liliana Rutaihwa, Sonia Borrell, Faima Isihaka, Hosiana Temba, Thomas Maroa, Rastard Naftari, Jerry Hella, Mohamed Sasamalo, Klaus Reither, Damien Portevin, Sebastien Gagneux, and Jacques Fellay

Subjects

Biology (General), QH301-705.5

Abstract

Genome-wide association studies rely on the statistical inference of untyped variants, called imputation, to increase the coverage of genotyping arrays. However, the results are often suboptimal in populations underrepresented in existing reference panels and array designs, since the selected single nucleotide polymorphisms (SNPs) may fail to capture population-specific haplotype structures, hence the full extent of common genetic variation. Here, we propose to sequence the full genomes of a small subset of an underrepresented study cohort to inform the selection of population-specific add-on tag SNPs and to generate an internal population-specific imputation reference panel, such that the remaining array-genotyped cohort could be more accurately imputed. Using a Tanzania-based cohort as a proof-of-concept, we demonstrate the validity of our approach by showing improvements in imputation accuracy after the addition of our designed add-on tags to the base H3Africa array.

Published

2022

5. A new nomenclature for the livestock-associated Mycobacterium tuberculosis complex based on phylogenomics [version 2; peer review: 2 approved]

Author

Anna Dötsch, Dick Van Soolingen, Miriam Reinhard, Michaela Zwyer, Giovanni Ghielmetti, Cengiz Çavusoglu, Erika Scaltriti, Sebastien Gagneux, Maria Lodovica Pacciarini, and Daniela Brites

Subjects

zoonotic tuberculosis, genetic diversity, mycobacterium tuberculosis complex, phylogenetics, whole-genome sequencing, eng, Science, Social Sciences

Abstract

Background The bacteria that compose the Mycobacterium tuberculosis complex (MTBC) cause tuberculosis (TB) in humans and in different animals, including livestock. Much progress has been made in understanding the population structure of the human-adapted members of the MTBC by combining phylogenetics with genomics. Accompanying the discovery of new genetic diversity, a body of operational nomenclature has evolved to assist comparative and molecular epidemiological studies of human TB. By contrast, for the livestock-associated MTBC members, Mycobacterium bovis, M. caprae and M. orygis, there has been a lack of comprehensive nomenclature to accommodate new genetic diversity uncovered by emerging phylogenomic studies. We propose to fill this gap by putting forward a new nomenclature covering the main phylogenetic groups within M. bovis, M. caprae and M. orygis. Methods We gathered a total of 8,736 whole-genome sequences (WGS) from public sources and 39 newly sequenced strains, and selected a subset of 829 WGS, representative of the worldwide diversity of M. bovis, M. caprae and M. orygis. We used phylogenetics and genetic diversity patterns inferred from WGS to define groups. Results We propose to divide M. bovis, M. caprae and M. orygis in three main phylogenetic lineages, which we named La1, La2 and La3, respectively. Within La1, we identified several monophyletic groups, which we propose to classify into eight sublineages (La1.1-La1.8). These sublineages differed in geographic distribution, with some being geographically restricted and others globally widespread, suggesting different expansion abilities. To ease molecular characterization of these MTBC groups by the community, we provide phylogenetically informed, single nucleotide polymorphisms that can be used as barcodes for genotyping. These markers were implemented in KvarQ and TB-Profiler, which are platform-independent, open-source tools. Conclusions Our results contribute to an improved classification of the genetic diversity within the livestock-associated MTBC, which will benefit future molecular epidemiological and evolutionary studies.

Published

2021

6. Potential contribution of HIV during first-line tuberculosis treatment to subsequent rifampicin-monoresistant tuberculosis and acquired tuberculosis drug resistance in South Africa: a retrospective molecular epidemiology study

Author

Helen Cox, ProfPhD, Zubeida Salaam-Dreyer, PhD, Galo A Goig, PhD, Mark P Nicol, ProfPhD, Fabrizio Menardo, PhD, Anzaan Dippenaar, PhD, Erika Mohr-Holland, MPH, Johnny Daniels, BA, Patrick G T Cudahy, PhD, Sonia Borrell, PhD, Miriam Reinhard, MD, Anna Doetsch, MSc, Christian Beisel, PhD, Anja Reuter, MD, Jennifer Furin, MD, Sebastien Gagneux, ProfPhD, and Robin M Warren, ProfPhD

Subjects

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

Abstract

Summary: Background: South Africa has a high burden of rifampicin-resistant tuberculosis (including multidrug-resistant [MDR] tuberculosis), with increasing rifampicin-monoresistant (RMR) tuberculosis over time. Resistance acquisition during first-line tuberculosis treatment could be a key contributor to this burden, and HIV might increase the risk of acquiring rifampicin resistance. We assessed whether HIV during previous treatment was associated with RMR tuberculosis and resistance acquisition among a retrospective cohort of patients with MDR or rifampicin-resistant tuberculosis. Methods: In this retrospective cohort study, we included all patients routinely diagnosed with MDR or rifampicin-resistant tuberculosis in Khayelitsha, Cape Town, South Africa, between Jan 1, 2008, and Dec 31, 2017. Patient-level data were obtained from a prospective database, complemented by data on previous tuberculosis treatment and HIV from a provincial health data exchange. Stored MDR or rifampicin-resistant tuberculosis isolates from patients underwent whole-genome sequencing (WGS). WGS data were used to infer resistance acquisition versus transmission, by identifying genomically unique isolates (single nucleotide polymorphism threshold of five). Logistic regression analyses were used to assess factors associated with RMR tuberculosis and genomic uniqueness. Findings: The cohort included 2041 patients diagnosed with MDR or rifampicin-resistant tuberculosis between Jan 1, 2008, and Dec 31, 2017; of those, 463 (22·7%) with RMR tuberculosis and 1354 (66·3%) with previous tuberculosis treatment. In previously treated patients, HIV positivity during previous tuberculosis treatment versus HIV negativity (adjusted odds ratio [OR] 2·07, 95% CI 1·35–3·18), and three or more previous tuberculosis treatment episodes versus one (1·96, 1·21–3·17) were associated with RMR tuberculosis. WGS data showing MDR or rifampicin-resistant tuberculosis were available for 1169 patients; 360 (30·8%) isolates were identified as unique. In previously treated patients, RMR tuberculosis versus MDR tuberculosis (adjusted OR 4·96, 3·40–7·23), HIV positivity during previous tuberculosis treatment (1·71, 1·03–2·84), and diagnosis in 2013–17 (1·42, 1·02–1·99) versus 2008–12, were associated with uniqueness. In previously treated patients with RMR tuberculosis, HIV positivity during previous treatment (adjusted OR 5·13, 1·61–16·32) was associated with uniqueness as was female sex (2·50 [1·18–5·26]). Interpretation: These data suggest that HIV contributes to rifampicin-resistance acquisition during first-line tuberculosis treatment and that this might be driving increasing RMR tuberculosis over time. Large-scale prospective cohort studies are required to further quantify this risk. Funding: Swiss National Science Foundation, South African National Research Foundation, and Wellcome Trust.

Published

2021

7. 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

8. 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

9. 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

10. 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

11. Molecular characterization of bovine tuberculosis strains in two slaughterhouses in Morocco

Author

Hind Yahyaoui-Azami, Hamid Aboukhassib, Mohammed Bouslikhane, Jaouad Berrada, Soukaina Rami, Miriam Reinhard, Sebastien Gagneux, Julia Feldmann, Sonia Borrell, and Jakob Zinsstag

Subjects

Mycobacterium bovis, Bovine tuberculosis, Morocco, Cattle, Slaughterhouse, Spoligotype, Veterinary medicine, SF600-1100

Abstract

Abstract Background Bovine tuberculosis (BTB) is caused by Mycobacterium bovis, which belongs to the Mycobacterium tuberculosis complex. Mycobacterium bovis have been described to be responsible of most cases of bovine tuberculosis. Although M. tuberculosis, M. africanum and non-complex mycobacteria were isolated from cattle. In Morocco, so far, no molecular studies were conducted to characterize the strains responsible of BTB. The present study aims to characterize M. bovis in Morocco. The present study was conducted in slaughterhouses in Rabat and El Jadida. Samples were collected from 327 slaughtered animals with visible lesions suggesting BTB. Results A total of 225 isolates yielded cultures, 95% (n = 215) of them were acid-fast (AF). Sixty eight per cent of the AF positive samples were confirmed as tuberculous mycobacteria (n = 147), 99% of these (n = 146) having RD9 and among the latter, 98% (n = 143) positive while 2% (n = 3) negative for RD4 A total of 134 samples were analyzed by spoligotyping of which 14 were in cluster and with 41 different spoligotypes, ten of them were new patterns (23%). The most prevalent spoligotypes were SB0121, SB0265, and SB0120, and were already identified in many other countries, such as Algeria, Spain, Tunisia, the United States and Argentina. Conclusion The shared borders between Algeria and Morocco, in addition to the previous importation of cattle from Europe and the US could explain the similarities found in M. bovis spoligotypes. On the other hand, the desert of Morocco could be considered as an efficient barrier preventing the introduction of BTB to Morocco from West Central and East Africa. Our findings suggest a low level endemic transmission of BTB similar to other African countries. However, more research is needed for further knowledge about the transmission patterns of BTB in Morocco.

Published

2017

12. 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

13. Insights into the genetic diversity of Mycobacterium tuberculosis in Tanzania.

Author

Liliana K Rutaihwa, Mohamed Sasamalo, Aladino Jaleco, Jerry Hella, Ally Kingazi, Lujeko Kamwela, Amri Kingalu, Bryceson Malewo, Raymond Shirima, Anna Doetsch, Julia Feldmann, Miriam Reinhard, Sonia Borrell, Daniela Brites, Klaus Reither, Basra Doulla, Lukas Fenner, and Sebastien Gagneux

Subjects

Medicine, Science

Abstract

BackgroundHuman tuberculosis (TB) is caused by seven phylogenetic lineages of the Mycobacterium tuberculosis complex (MTBC), Lineage 1-7. Recent advances in rapid genotyping of MTBC based on single nucleotide polymorphisms (SNP), allow for phylogenetically robust strain classification, paving the way for defining genotype-phenotype relationships in clinical settings. Such studies have revealed that, in addition to host and environmental factors, strain variation in the MTBC influences the outcome of TB infection and disease. In Tanzania, such molecular epidemiological studies of TB however are scarce in spite of a high TB burden.Methods and findingsHere we used SNP-typing to characterize a nationwide collection of 2,039 MTBC clinical isolates representative of 1.6% of all new and retreatment TB cases notified in Tanzania during 2012 and 2013. Four lineages, namely Lineage 1-4 were identified within the study population. The distribution and frequency of these lineages varied across regions but overall, Lineage 4 was the most frequent (n = 866, 42.5%), followed by Lineage 3 (n = 681, 33.4%) and 1 (n = 336, 16.5%), with Lineage 2 being the least frequent (n = 92, 4.5%). We found Lineage 2 to be independently associated with female sex (adjusted odds ratio [aOR] 2.14; 95% confidence interval [95% CI] 1.31 - 3.50, p = 0.002) and retreatment cases (aOR 1.67; 95% CI 0.95 - 2.84, p = 0. 065) in the study population. We found no associations between MTBC lineage and patient age or HIV status. Our sublineage typing based on spacer oligotyping on a subset of Lineage 1, 3 and 4 strains revealed the presence of mainly EAI, CAS and LAM families. Finally, we detected low levels of multidrug resistant isolates among a subset of 144 retreatment cases.ConclusionsThis study provides novel insights into the MTBC lineages and the possible influence of pathogen-related factors on the TB epidemic in Tanzania.

Published

2019

14. Discovery and Characterization of Mycobacterium basiliense sp. nov., a Nontuberculous Mycobacterium Isolated From Human Lungs

Author

Helena M. B. Seth-Smith, Frank Imkamp, Florian Tagini, Aline Cuénod, Rico Hömke, Kathleen Jahn, Anne Tschacher, Peter Grendelmeier, Veronika Bättig, Stefan Erb, Miriam Reinhard, Gottfried Rütimann, Sonia Borrell, Sebastien Gagneux, Carlo Casanova, Sara Droz, Michael Osthoff, Michael Tamm, Ulrich Nübel, Gilbert Greub, Peter M. Keller, and Adrian Egli

Subjects

nontuberculous mycobacteria, novel species, Mycobacterium basiliense, virulence, pathogen, Microbiology, QR1-502

Abstract

Bacteria belonging to the genus Mycobacterium are predominantly responsible for pulmonary diseases; most notably Mycobacterium tuberculosis causes granulomatous pulmonary infections. Here we describe a novel slow growing mycobacterial species isolated from respiratory samples from five patients, four with underlying pulmonary disease. The isolates were characterized by biochemical and molecular techniques, including whole genome sequencing. Biochemical characteristics generally match those of M. marinum and M. ulcerans; however, the most striking difference of the new species is its ability to grow at 37°C. The new species was found to grow in human macrophages, but not amoebae, suggesting a pathogenic rather than an environmental lifestyle. Phylogenetic analysis reveals a deep-rooting relationship to M. marinum and M. ulcerans. A complete genome sequence was obtained through combining short and long-read sequencing, providing a genome of 5.6 Mb. The genome appears to be highly intact, syntenic with that of M. marinum, with very few insertion sequences. A vast array of virulence factors includes 283 PE/PPE surface-associated proteins, making up 10% of the coding capacity, and 22 non-ribosomal peptide synthase clusters. A comparison of six clinical isolates from the five patients shows that they differ by up to two single nucleotide polymorphisms, suggesting a common source of infection. Our findings are in accordance with the recognition of a new taxonomic entity. We propose the name M. basiliense, as all isolates were found in patients from the Basel area of Switzerland.

Published

2019

15. Local adaptation in populations of Mycobacterium tuberculosis endemic to the Indian Ocean Rim [version 1; 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

Research Article, Articles, Mycobacterium tuberculosis, adaptation, coevolution

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

16. Genome-to-genome analysis reveals associations between human and mycobacterial genetic variation in tuberculosis patients from Tanzania

Author

Zhi Ming Xu, Michaela Zwyer, Daniela Brites, Hellen Hiza, Mohamed Sasamalo, Miriam Reinhard, Anna Doetsch, Sonia Borrell, Olivier Naret, Sina Rüeger, Dylan Lawless, Faima Isihaka, Hosiana Temba, Thomas Maroa, Rastard Naftari, Christian Beisel, Jerry Hella, Klaus Reither, Damien Portevin, Sebastien Gagneux, and Jacques Fellay

Abstract

The risk and prognosis of tuberculosis (TB) are affected by both human and bacterial genetic factors. To identify interacting human and bacterial genetic loci, we leveraged paired human andMycobacterium tuberculosis(M.tb) genomic data from 1000 Tanzanian TB patients. Through a genome-to-genome approach, we identified two pairs of human andM.tbgenetic variants that are significantly associated. One of the human genetic variants maps to the intron ofPRDM15, a gene involved in apoptosis regulation. The other human variant maps to an intergenic region close toTIMM21andFBXO15. In addition, we observed that a group of linkedM.tbepitope variants were significantly associated with HLA-DRB1 variation. This suggests that even though epitope variation is rare inM.tbin general, specific epitopes might still be under immune selective pressure. Overall, our study pinpoints sites of genomic conflicts between humans andM.tb, suggesting bacterial escape from host selection pressure.

Published

2023

17. Stickstoff-Deposition in Schweizer Wälder und Nitrataustrag aus Waldböden

Author

Peter Waldner, Sabine Braun, Ivano Brunner, Beat Rihm, Miriam Reinhard, Noureddine Hajjar, Katrin Meusburger, Maria Schmitt, and Anne Thimonier

Abstract

Die atmosphärische Stickstoff-Deposition hat bis Mitte der 1990er-Jahre zugenommen und ist seither rückläufig. Eine genauere Betrachtung zeigt, dass der Verlauf regional unterschiedlich ist je nach orografischer Lage und Nähe zu Ammoniak-Quellen. Die Nitratauswaschung aus den Waldböden ist ein Indikator für die Sättigung des Waldbodens mit Stickstoff und zeigt das Risiko einer Versauerung des Waldbodens an. Dazu kommt, dass zu viel Nitrat im Grund- und Trinkwasser für Mensch und Tier eine gesundheitliche Bedrohung darstellt.

Published

2022

18. Back-to-Africa introductions of Mycobacterium tuberculosis as the main cause of tuberculosis in Dar es Salaam, Tanzania

Author

Michaela Zwyer, Liliana K. Rutaihwa, Etthel Windels, Jerry Hella, Fabrizio Menardo, Mohamed Sasamalo, Sonia Borrell, Miriam Reinhard, Anna Dötsch, Hellen Hiza, Christoph Stritt, George Sikalengo, Lukas Fenner, Bouke C. De Jong, Midori Kato-Maeda, Levan Jugheli, Joel D. Ernst, Stefan Niemann, Leila Jeljeli, Marie Ballif, Matthias Egger, Niaina Rakotosamimanana, Dorothy Yeboah-Manu, Prince Asare, Bijaya Malla, Horng Yunn Dou, Nicolas Zetola, Robert J. Wilkinson, Helen Cox, E Jane Carter, Joachim Gnokoro, Marcel Yotebieng, Eduardo Gotuzzo, Alash’le Abimiku, Avihingsanon Anchalee, Zhi Ming Xu, Jacques Fellay, Damien Portevin, Klaus Reither, Tanja Stadler, Sebastien Gagneux, and Daniela Brites

Abstract

In settings with high tuberculosis (TB) endemicity, various genotypes of the Mycobacterium tuberculosis complex (MTBC) often differ in prevalence. However, the factors leading to these differences remain poorly understood. Here we studied the MTBC population in Dar es Salaam, Tanzania over a six-year period, using 1,082 unique patient-derived MTBC whole-genome sequences (WGS) and associated clinical data. We show that the TB epidemic in Dar es Salaam is dominated by multiple genotypes introduced to Tanzania from different parts of the world during the last 300 years. The most common MTBC genotypes deriving from these introductions exhibited differences in transmission rates and in the duration of the infectious period, but little differences in overall fitness, as measured by the effective reproductive number. Moreover, measures of disease severity and bacterial load indicated no differences in virulence between these genotypes during active TB. Instead, the combination of an early introduction and a high transmission rate accounted for the high prevalence of L3.1.1, the most dominant MTBC genotype in our setting. Yet, a longer co-existence with the host population did not always result in a higher transmission rate, suggesting that distinct life-history traits have evolved in the different MTBC genotypes. Taken together, our results point to bacterial factors as important determinants of the TB epidemic in Dar es Salaam.Author summaryTuberculosis (TB) is the deadliest human infectious disease caused by one single agent, Mycobacterium tuberculosis (Mtb). The origins of Mtb have been traced to East Africa millennia ago, where it likely became adapted to infect and transmit in humans. Here we show that in Dar es Salaam, Tanzania, an East African setting with a very high burden of TB, infections are caused by distinct Mtb genotypes introduced in recent evolutionary times from different parts of the world. These genotypes differed in traits important to Mtb transmission in the Dar es Salaam host population; while some Mtb genotypes transmitted more efficiently during a certain period of time, others elicited that patients would be infectious for longer periods. These traits evolved independently in the different Mtb genotypes and could not be explained by the time of co-existence between the host population and the pathogen. This suggests that bacterial factors are important determinants of the TB epidemic. More generally, we demonstrate that distinct pathogenic life history characteristics can co-exist in one host population.

Published

2022

19. 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

20. Whole-Genome Sequencing Has the Potential To Improve Treatment for Rifampicin-Resistant Tuberculosis in High-Burden Settings: a Retrospective Cohort Study

Author

Helen Cox, Galo A. Goig, Zubeida Salaam-Dreyer, Anzaan Dippenaar, Anja Reuter, Erika Mohr-Holland, Johnny Daniels, Patrick G. T. Cudahy, Mark P. Nicol, Sonia Borrell, Miriam Reinhard, Anna Doetsch, Christian Beisel, Sebastien Gagneux, Robin M. Warren, and Jennifer Furin

Subjects

Microbiology (medical), drug resistance, treatment, Antitubercular Agents, Microbial Sensitivity Tests, Mycobacterium tuberculosis, tuberculosis, whole-genome sequencing, Cohort Studies, South Africa, Tuberculosis, Multidrug-Resistant, Humans, Rifampin, Biology, Retrospective Studies

Abstract

Treatment of multidrug-resistant or rifampicin-resistant tuberculosis (MDR/RR-TB), although improved in recent years with shorter, more tolerable regimens, remains largely standardized and based on limited drug susceptibility testing (DST). More individualized treatment with expanded DST access is likely to improve patient outcomes. To assess the potential of TB drug resistance prediction based on whole-genome sequencing (WGS) to provide more effective treatment regimens, we applied current South African treatment recommendations to a retrospective cohort of MDR/RR-TB patients from Khayelitsha, Cape Town. Routine DST and clinical data were used to retrospectively categorize patients into a recommended regimen, either a standardized short regimen or a longer individualized regimen. Potential regimen changes were then described with the addition of WGS-derived DST. WGS data were available for 1274 MDR/RR-TB patient treatment episodes across 2008 to 2017. Among 834 patients initially eligible for the shorter regimen, 385 (46%) may have benefited from reduced drug dosage or removing ineffective drugs when WGS data were considered. A further 187 (22%) patients may have benefited from more effective adjusted regimens. Among 440 patients initially eligible for a longer individualized regimen, 153 (35%) could have been switched to the short regimen. Overall, 305 (24%) patients had MDR/RR-TB with second-line TB drug resistance, where the availability of WGS-derived DST would have allowed more effective treatment individualization. These data suggest considerable benefits could accrue from routine access to WGS-derived resistance prediction. Advances in culture-free sequencing and expansion of the reference resistance mutation catalogue will increase the utility of WGS resistance prediction., Journal of Clinical Microbiology, 60 (3), ISSN:0095-1137, ISSN:1098-660X

Published

2022

21. Potential contribution of HIV during first-line tuberculosis treatment to subsequent rifampicin-monoresistant tuberculosis and acquired tuberculosis drug resistance in South Africa: a retrospective molecular epidemiology study

Author

Johnny Daniels, Sebastien Gagneux, Jennifer Furin, Fabrizio Menardo, Christian Beisel, Mark P. Nicol, Anzaan Dippenaar, Galo A Goig, Anja Reuter, Sonia Borrell, Anna Doetsch, Erika Mohr-Holland, Patrick G T Cudahy, Miriam Reinhard, Robin M. Warren, Zubeida Salaam-Dreyer, and Helen Cox

Subjects

Microbiology (medical), medicine.medical_specialty, Medicine (General), Tuberculosis, HIV Positivity, Drug Resistance, HIV Infections, Drug resistance, Microbiology, South Africa, R5-920, Virology, Internal medicine, Tuberculosis, Multidrug-Resistant, Medicine, Humans, Prospective cohort study, Biology, Retrospective Studies, Molecular Epidemiology, business.industry, Retrospective cohort study, Odds ratio, Mycobacterium tuberculosis, Articles, medicine.disease, QR1-502, Infectious Diseases, Cohort, Female, Human medicine, Rifampin, business, Rifampicin, medicine.drug

Abstract

Summary Background South Africa has a high burden of rifampicin-resistant tuberculosis (including multidrug-resistant [MDR] tuberculosis), with increasing rifampicin-monoresistant (RMR) tuberculosis over time. Resistance acquisition during first-line tuberculosis treatment could be a key contributor to this burden, and HIV might increase the risk of acquiring rifampicin resistance. We assessed whether HIV during previous treatment was associated with RMR tuberculosis and resistance acquisition among a retrospective cohort of patients with MDR or rifampicin-resistant tuberculosis. Methods In this retrospective cohort study, we included all patients routinely diagnosed with MDR or rifampicin-resistant tuberculosis in Khayelitsha, Cape Town, South Africa, between Jan 1, 2008, and Dec 31, 2017. Patient-level data were obtained from a prospective database, complemented by data on previous tuberculosis treatment and HIV from a provincial health data exchange. Stored MDR or rifampicin-resistant tuberculosis isolates from patients underwent whole-genome sequencing (WGS). WGS data were used to infer resistance acquisition versus transmission, by identifying genomically unique isolates (single nucleotide polymorphism threshold of five). Logistic regression analyses were used to assess factors associated with RMR tuberculosis and genomic uniqueness. Findings The cohort included 2041 patients diagnosed with MDR or rifampicin-resistant tuberculosis between Jan 1, 2008, and Dec 31, 2017; of those, 463 (22·7%) with RMR tuberculosis and 1354 (66·3%) with previous tuberculosis treatment. In previously treated patients, HIV positivity during previous tuberculosis treatment versus HIV negativity (adjusted odds ratio [OR] 2·07, 95% CI 1·35–3·18), and three or more previous tuberculosis treatment episodes versus one (1·96, 1·21–3·17) were associated with RMR tuberculosis. WGS data showing MDR or rifampicin-resistant tuberculosis were available for 1169 patients; 360 (30·8%) isolates were identified as unique. In previously treated patients, RMR tuberculosis versus MDR tuberculosis (adjusted OR 4·96, 3·40–7·23), HIV positivity during previous tuberculosis treatment (1·71, 1·03–2·84), and diagnosis in 2013–17 (1·42, 1·02–1·99) versus 2008–12, were associated with uniqueness. In previously treated patients with RMR tuberculosis, HIV positivity during previous treatment (adjusted OR 5·13, 1·61–16·32) was associated with uniqueness as was female sex (2·50 [1·18–5·26]). Interpretation These data suggest that HIV contributes to rifampicin-resistance acquisition during first-line tuberculosis treatment and that this might be driving increasing RMR tuberculosis over time. Large-scale prospective cohort studies are required to further quantify this risk. Funding Swiss National Science Foundation, South African National Research Foundation, and Wellcome Trust.

Published

2021

22. Rifampicin mono-resistant tuberculosis is not the same as multidrug-resistant tuberculosis: a descriptive study from Khayelitsha, South Africa

Author

Sebastien Gagneux, Miriam Reinhard, Fabrizio Menardo, Helen Cox, Elizabeth M. Streicher, Mark P. Nicol, Anna Doetsch, Patrick G T Cudahy, Anzaan Dippenaar, Johnny Daniels, Zubeida Salaam-Dreyer, Robin M. Warren, Erika Mohr-Holland, Frederick A. Sirgel, and Sonia Borrell

Subjects

Mutation, Tuberculosis, business.industry, Odds ratio, Drug susceptibility, rpoB, medicine.disease, medicine.disease_cause, Virology, Resistant tuberculosis, Multiple drug resistance, medicine, business, Rifampicin, medicine.drug

Abstract

Rifampicin mono-resistant TB (RMR-TB) constitutes 38% of all rifampicin-resistant TB (RR-TB) in South Africa and is increasing. We aimed to compare RMR-TB with multidrug-resistant TB (MDR-TB) within a high TB, RR-TB and HIV burden setting. Patient-level clinical data and stored RR-TB isolates from 2008-2017 with available whole genome sequencing (WGS) data were used to describe risk factors associated with RMR-TB and to compare rifampicin-resistance (RR) conferring mutations between RMR-TB and MDR-TB. A subset of isolates with particular RR-conferring mutations were subjected to semi-quantitative rifampicin phenotypic drug susceptibility testing. Among 2,041 routinely diagnosed RR-TB patients, 463 (22.7%) had RMR-TB. HIV-positive individuals (adjusted Odds Ratio 1.4, 95% CI 1.1-1.9) and diagnosis between 2013-2017 versus 2008-2012 (aOR 1.3, 1.1-1.7) were associated with RMR-TB. Among 1,119 (54.8%) patients with available WGS data showing RR-TB, significant differences in the distribution of rpoB RR-conferring mutations between RMR-TB and MDR-TB isolates were observed. Mutations associated with high-level RR were more commonly found among MDR-TB isolates (811/889, 90.2% versus 162/230, 70.4% among RMR-TB, prpoB L430P mutation, conferring low-level RR, was identified in 32/230 (13.9%) RMR-TB versus 10/889 (1.1%) in MDR-TB (prpoB L430P mutation, 7 were phenotypically susceptible using the critical concentration of 0.5 µg/ml (range 0.125-1 µg/ml). The majority (215/230, 93.5%) of RMR-TB isolates showed susceptibility to all other TB drugs, highlighting the potential benefits of WGS for simplified treatment. These data suggest that the evolution of RMR-TB differs from MDR-TB with a potential contribution from HIV infection.

Published

2021

23. 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

24. Using population-specific add-on polymorphisms to improve genotype imputation in underrepresented populations

Author

Isihaka F, Sonia Borrell, Gagneux S, Hellen Hiza, Temba H, Klaus Reither, Sina Rüeger, Z. M. Xu, Jerry Hella, Mohamed Sasamalo, Jacques Fellay, Thomas Maroa, Miriam Reinhard, Damien Portevin, Daniela Brites, Naftari R, and Michaela Zwyer

Subjects

Genetic variation, Haplotype, Cohort, Single-nucleotide polymorphism, Computational biology, Biology, Genotyping, Selection (genetic algorithm), Imputation (genetics), Genetic association

Abstract

Genome-wide association studies rely on the statistical inference of untyped variants, called imputation, to increase the coverage of genotyping arrays. However, the results are often suboptimal in populations underrepresented in existing reference panels and array designs, since the selected single nucleotide polymorphisms (SNPs) may fail to capture population-specific haplotype structures, hence the full extent of common genetic variation. Here, we propose to sequence the full genome of a small subset of an underrepresented study cohort to inform the selection of population-specific add-on SNPs, such that the remaining array-genotyped cohort could be more accurately imputed. Using a Tanzania-based cohort as a proof-of-concept, we demonstrate the validity of our approach by showing improvements in imputation accuracy after the addition of our designed addon SNPs to the base H3Africa array.

Published

2021

25. 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

26. Rifampicin-monoresistant tuberculosis is not the same as multidrug-resistant tuberculosis : a descriptive study from Khayelitsha, South Africa

Author

Sebastien Gagneux, Helen Cox, Anzaan Dippenaar, Sonia Borrell, Frederick A. Sirgel, Zubeida Salaam-Dreyer, Mark P. Nicol, Erika Mohr-Holland, Elizabeth M. Streicher, Robin M. Warren, Anna Doetsch, Patrick G T Cudahy, Miriam Reinhard, Fabrizio Menardo, and Johnny Daniels

Subjects

medicine.medical_specialty, Tuberculosis, Antitubercular Agents, HIV Infections, MDR-TB, Microbial Sensitivity Tests, Drug resistance, Epidemiology and Surveillance, Mycobacterium tuberculosis, South Africa, Internal medicine, Tuberculosis, Multidrug-Resistant, Isoniazid, medicine, Humans, Pharmacology (medical), Biology, Pharmacology, drug resistance, human immunodeficiency virus, biology, business.industry, Pharmacology. Therapy, rifampin-monoresistant TB, Odds ratio, Editor's Pick, biology.organism_classification, rpoB, medicine.disease, multidrug-resistant TB, Multiple drug resistance, Infectious Diseases, tuberculosis, whole-genome sequencing, Mutation, drug resistance evolution, Rifampin, business, Rifampicin, medicine.drug

Abstract

Rifampin monoresistance (RMR; rifampin resistance and isoniazid susceptibility) accounts for 38% of all rifampin-resistant tuberculosis (RR-TB) in South Africa and is increasing. We aimed to compare RMR-TB with multidrug-resistant TB (MDR-TB) in a setting with high TB, RR-TB, and HIV burdens. Patient-level clinical data and stored RR Mycobacterium tuberculosis isolates from 2008 to 2017 with available whole-genome sequencing (WGS) data were used to describe risk factors associated with RMR-TB and to compare RR-conferring mutations between RMR-TB and MDR-TB. A subset of isolates with particular RR-conferring mutations were subjected to semiquantitative rifampin phenotypic drug susceptibility testing. Among 2,041 routinely diagnosed RR-TB patients, 463 (22.7%) had RMR-TB. HIV-positive individuals (adjusted odds ratio [aOR], 1.4; 95% confidence interval [CI], 1.1 to 1.9) and diagnosis between 2013 and 2017 versus between 2008 and 2012 (aOR, 1.3; 95% CI, 1.1 to 1.7) were associated with RMR-TB. Among 1,119 (54.8%) patients with available WGS data showing RR-TB, significant differences in the distribution of rpoB RR-conferring mutations between RMR and MDR isolates were observed. Mutations associated with high-level RR were more commonly found among MDR isolates (811/889 [90.2%] versus 162/230 [70.4%] among RMR isolates; P < 0.0001). In particular, the rpoB L430P mutation, conferring low-level RR, was identified in 32/230 (13.9%) RMR isolates versus 10/889 (1.1%) in MDR isolates (P < 0.0001). Among 10 isolates with an rpoB L430P mutation, 7 were phenotypically susceptible using the critical concentration of 0.5 mu g/ml (range, 0.125 to 1 mu g/ml). The majority (215/230 [93.5%]) of RMR isolates showed susceptibility to all other TB drugs, highlighting the potential benefits of WGS for simplified treatment. These data suggest that the evolution of RMR-TB differs from MDR-TB with a potential contribution from HIV infection.

Published

2021

27. 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

28. 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

29. 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

30. A new nomenclature for the livestock-associated Mycobacterium tuberculosis complex based on phylogenomics

Author

Maria Lodovica Pacciarini, Anna Dötsch, Michaela Zwyer, Miriam Reinhard, Daniela Brites, Giovanni Ghielmetti, Cengiz Cavusoglu, Sebastien Gagneux, Dick van Soolingen, Erika Scaltriti, University of Zurich, and Brites, Daniela

Subjects

610 Medicine & health, Genomics, Biology, mycobacterium tuberculosis complex, 03 medical and health sciences, Phylogenetics, Phylogenomics, Genotyping, 10082 Institute of Food Safety and Hygiene, 030304 developmental biology, 1000 Multidisciplinary, 0303 health sciences, Genetic diversity, Mycobacterium bovis, Phylogenetic tree, 030306 microbiology, General Medicine, Articles, genetic diversity, biology.organism_classification, 3. Good health, phylogenetics, Mycobacterium tuberculosis complex, whole-genome sequencing, Evolutionary biology, zoonotic tuberculosis, 570 Life sciences, biology, Research Article

Abstract

Background The bacteria that compose the Mycobacterium tuberculosis complex (MTBC) cause tuberculosis (TB) in humans and in different animals, including livestock. Much progress has been made in understanding the population structure of the human-adapted members of the MTBC by combining phylogenetics with genomics. Accompanying the discovery of new genetic diversity, a body of operational nomenclature has evolved to assist comparative and molecular epidemiological studies of human TB. By contrast, for the livestock-associated MTBC members, Mycobacterium bovis, M. caprae and M. orygis, there has been a lack of comprehensive nomenclature to accommodate new genetic diversity uncovered by emerging phylogenomic studies. We propose to fill this gap by putting forward a new nomenclature covering the main phylogenetic groups within M. bovis, M. caprae and M. orygis. Methods We gathered a total of 8,747 whole-genome sequences (WGS) from public sources and 39 newly sequenced strains, and selected a subset of 839 WGS, representative of the worldwide diversity of M. bovis, M. caprae and M. orygis. We used phylogenetics and genetic diversity patterns inferred from WGS to define groups. Results We propose to divide M. bovis, M. caprae and M. orygis, in three main phylogenetic lineages, which we named La1, La2 and La3, respectively. Within La1, we identified several monophyletic groups, which we propose to classify into eight sublineages (La1.1-La1.8). These differed in geographic distribution, with some being geographically restricted and others globally widespread, suggesting different expansion abilities. To ease molecular characterization of these MTBC groups by the community, we provide phylogenetically informed, single nucleotide polymorphisms that can be used as barcodes for genotyping. These makers were implemented in a new test suit in KvarQ, a platform-independent, open-source tool. Conclusions Our results contribute to an improved classification of the genetic diversity within the livestock-associated MTBC, which will benefit future molecular epidemiological and evolutionary studies.

Published

2021

31. 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

32. 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

33. Drug susceptibility testing and mortality in patients treated for tuberculosis in high-burden countries: a multicentre cohort study

Author

Kathrin Zürcher, Marie Ballif, Lukas Fenner, Sonia Borrell, Peter M Keller, Joachim Gnokoro, Olivier Marcy, Marcel Yotebieng, Lameck Diero, E Jane Carter, Neesha Rockwood, Robert J Wilkinson, Helen Cox, Nicholas Ezati, Alash'le G Abimiku, Jimena Collantes, Anchalee Avihingsanon, Kamon Kawkitinarong, Miriam Reinhard, Rico Hömke, Robin Huebner, Sebastien Gagneux, Erik C Böttger, Matthias Egger, Frédérique Chammartin, Erik C. Boettger, Peter Keller, Alash'le Abimiku, Landry Wenzi, Martine Tabala, Robin Warren, Elizabeth Streicher, Robert J. Wilkinson, E. Jane Carter, Carlos Zamudio, Annette Sohn, Tor Petersen, Naruporn Kasipong, Kouassi N'Guessan, Bordeaux population health (BPH), Université de Bordeaux (UB)-Institut de Santé Publique, d'Épidémiologie et de Développement (ISPED)-Institut National de la Santé et de la Recherche Médicale (INSERM), University of Zurich, and Wellcome Trust

Subjects

Male, capreomycin, antibiotic resistance, 0302 clinical medicine, 1108 Medical Microbiology, amikacin, Peru, antibiotic agent, sputum cytodiagnosis, Aged, 80 and over, OUTCOMES, RESISTANT TUBERCULOSIS, 10179 Institute of Medical Microbiology, adult, cohort analysis, 3. Good health, priority journal, Cohort study, International epidemiology Databases to Evaluate AIDS (IeDEA) consortium, ieDEA, AFRICA, medicine.medical_specialty, Tuberculosis, 030106 microbiology, Immunology, Nigeria, Microbial Sensitivity Tests, HIV-INFECTED PATIENTS, purl.org/pe-repo/ocde/ford#3.03.08 [https], Sensitivity and Specificity, Microbiology, Article, Mycobacterium tuberculosis, 03 medical and health sciences, Drug Resistance, Bacterial, Humans, INTERNATIONAL EPIDEMIOLOGIC DATABASES, human, Diagnostic Errors, Ethambutol, Aged, RIFAMPIN, Science & Technology, bacterium isolate, medicine.disease, Survival Analysis, major clinical study, mortality, antibiotic sensitivity, Democratic Republic Congo, 570 Life sciences, biology, 0301 basic medicine, kanamycin, ethambutol, Drug resistance, rifampicin, Cohort Studies, South Africa, STARTING ANTIRETROVIRAL THERAPY, 030212 general & internal medicine, Human Biology & Physiology, EVALUATE AIDS IEDEA, Middle Aged, Thailand, Infectious Diseases, female, tuberculosis, Female, moxifloxacin, Life Sciences & Biomedicine, medicine.drug, Adult, Model organisms, isoniazid, pyrazinamide, Adolescent, streptomycin, Antibiotic sensitivity, 610 Medicine & health, Infectious Disease, PROFILE, IDLIC, Young Adult, male, Internal medicine, medicine, MANAGEMENT, controlled study, nonhuman, business.industry, FOS: Clinical medicine, 1103 Clinical Sciences, 2725 Infectious Diseases, Pyrazinamide, biology.organism_classification, bacterial strain, Kenya, [SDV.SPEE]Life Sciences [q-bio]/Santé publique et épidémiologie, business, Rifampicin

Abstract

Summary Background Drug resistance is a challenge for the global control of tuberculosis. We examined mortality in patients with tuberculosis from high-burden countries, according to concordance or discordance of results from drug susceptibility testing done locally and in a reference laboratory. Methods This multicentre cohort study was done in Cote d'Ivoire, Democratic Republic of the Congo, Kenya, Nigeria, South Africa, Peru, and Thailand. We collected Mycobacterium tuberculosis isolates and clinical data from adult patients aged 16 years or older. Patients were stratified by HIV status and tuberculosis drug resistance. Molecular or phenotypic drug susceptibility testing was done locally and at the Swiss National Center for Mycobacteria, Zurich, Switzerland. We examined mortality during treatment according to drug susceptibility test results and treatment adequacy in multivariable logistic regression models adjusting for sex, age, sputum microscopy, and HIV status. Findings We obtained M tuberculosis isolates from 871 patients diagnosed between 2013 and 2016. After exclusion of 237 patients, 634 patients with tuberculosis were included in this analysis; the median age was 33·2 years (IQR 26·9–42·5), 239 (38%) were women, 272 (43%) were HIV-positive, and 69 (11%) patients died. Based on the reference laboratory drug susceptibility test, 394 (62%) strains were pan-susceptible, 45 (7%) monoresistant, 163 (26%) multidrug-resistant (MDR), and 30 (5%) had pre-extensively or extensively drug resistant (pre-XDR or XDR) tuberculosis. Results of reference and local laboratories were concordant for 513 (81%) of 634 patients and discordant for 121 (19%) of 634. Overall, sensitivity to detect any resistance was 90·8% (95% CI 86·5–94·2) and specificity 84·3% (80·3–87·7). Mortality ranged from 6% (20 of 336) in patients with pan-susceptible tuberculosis treated according to WHO guidelines to 57% (eight of 14) in patients with resistant strains who were under-treated. In logistic regression models, compared with concordant drug susceptibility test results, the adjusted odds ratio of death was 7·33 (95% CI 2·70–19·95) for patients with discordant results potentially leading to under-treatment. Interpretation Inaccurate drug susceptibility testing by comparison with a reference standard leads to under-treatment of drug-resistant tuberculosis and increased mortality. Rapid molecular drug susceptibility test of first-line and second-line drugs at diagnosis is required to improve outcomes in patients with MDR tuberculosis and pre-XDR or XDR tuberculosis. Funding National Institutes of Allergy and Infectious Diseases, Swiss National Science Foundation, Swiss National Center for Mycobacteria.

Published

2019

34. 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

35. 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

36. Insights into the genetic diversity ofMycobacterium tuberculosisin Tanzania

Author

Doulla B, Mohamed Sasamalo, Lujeko Kamwela, Lukas Fenner, Gagneux S, Miriam Reinhard, Hella J, Shirima R, Jaleco A, Malewo B, Kingazi A, Sonia Borrell, Liliana K. Rutaihwa, Doetsch A, Klaus Reither, Feldmann J, and Kingalu A

Subjects

Genetic diversity, Tanzania, biology, Evolutionary biology, biology.organism_classification

Abstract

BackgroundHuman tuberculosis (TB) is caused by seven phylogenetic lineages of theMycobacterium tuberculosiscomplex (MTBC), Lineage 1–7. Recent advances in rapid genotyping of MTBC based on single nucleotide polymorphisms (SNP), allow for rapid and phylogenetically robust strain classification, paving the way for defining genotype-phenotype relationships in clinical settings. Such studies have revealed that, in addition to host and environmental factors, different strains of the MTBC influence the outcome of TB infection and disease. In Tanzania, such molecular epidemiological studies of TB however are scarce in spite of a high TB burden.Methods and FindingsHere we used a SNP-typing method to genotype a nationwide collection of 2,039 MTBC clinical isolates obtained from new and retreatment TB cases diagnosed in 2012 and 2013. Four lineages, namely Lineage 1–4 were identified. The distribution and frequency of these lineages varied across the regions but overall, Lineage 4 was the most frequent (n=866, 42.5%), followed by Lineage 3 (n=681, 33.4%) and 1 (n=336, 16.5%), with Lineage 2 being the least frequent (n=92, 4.5%). A total of 64 (3.1%) isolates could not be assigned to any lineage. We found Lineage 2 to be associated with female sex (adjusted odds ratio [aOR] 2.25; 95% confidence interval [95% CI] 1.38 – 3.70, pConclusionsThis study provides novel insights into the influence of pathogen-related factors on the TB epidemic in Tanzania.

Published

2018

37. Drug susceptibility testing and mortality in patients treated for tuberculosis in high-burden countries

Author

Matthias Egger, Sebastien Gagneux, Marie Ballif, Helen Cox, Alash le G. Abimiku, Olivier Marcy, Nicholas Ezati, Kathrin Zuercher, Kamon Kawkitinarong, Anchalee Avihingsanon, Neesha Rockwood, Lameck Diero, Robert J. Wilkinson, Sonia Borrell, Robin Huebner, Erik C. Boettger, Joachim Gnokoro, Lukas Fenner, Peter M. Keller, Marcel Yotebieng, E. Jane Carter, Jimena Collantes, Miriam Reinhard, and Rico Hoemke

Subjects

0303 health sciences, medicine.medical_specialty, Tuberculosis, biology, 030306 microbiology, business.industry, Drug resistance, Odds ratio, medicine.disease, biology.organism_classification, Logistic regression, 3. Good health, Mycobacterium tuberculosis, 03 medical and health sciences, 0302 clinical medicine, Relative risk, Internal medicine, Epidemiology, medicine, Sputum, 030212 general & internal medicine, medicine.symptom, business

Abstract

BackgroundDrug resistance and HIV co-infection are challenges for the global control of tuberculosis.MethodsWe collected Mycobacterium tuberculosis isolates from adult patients in Côte d’Ivoire, Democratic Republic of the Congo, Kenya, Nigeria, South Africa, Peru, and Thailand, stratified by HIV status and tuberculosis drug resistance. Molecular or phenotypic drug susceptibility testing (DST) was done locally and at the Swiss tuberculosis reference laboratory. We examined mortality during treatment according to DST results and treatment adequacy in logistic regression models adjusting for sex, age, sputum microscopy and HIV status.Findings634 tuberculosis patients were included; median age was 33.2 years, 239 (37.7%) were female, 272 (42.9%) HIV-positive and 69 (10.9%) patients died. Based on the reference laboratory DST, 394 (62.2%) strains were pan-susceptible, 45 (7.1%) mono-resistant, 163 (25.7%) multidrug-resistant (MDR-TB), and 30 (4.7%) had pre-extensive or extensive drug resistance (pre-XDR/XDR-TB). Results of reference and local laboratories were discordant in 121 (19.1%) cases, corresponding to a sensitivity of 84.3% and a specificity of 90.8%. In patients with drug-resistant tuberculosis, discordant results were associated with increased mortality (risk ratio 1.81; 95% CI 1.07-3.07). In logistic regression, compared to adequately treated patients with pan-susceptible strains, the adjusted odds ratio for death was 4.23 (95% CI 2.16-8.29) for adequately treated patients with drug-resistant strains and 21.54 (95% CI 3.36-138.1) for inadequately treated patients with drug-resistant strains. HIV status was not associated with mortality.InterpretationUsing a reference laboratory standard, inaccurate DST leading to inappropriate treatment of drug-resistant tuberculosis, but not HIV infection, contributed to mortality.

Published

2018

38. Drug Susceptibility Testing and Mortality in Patients Treated for Tuberculosis in High-Burden Countries

Author

Robin Huebner, Peter M. Keller, Marcel Yotebieng, Robert J. Wilkinson, Rico Hömke, Matthias Egger, E. Jane Carter, Jimena Collantes, Lukas Fenner, Marie Ballif, Olivier Marcy, Sebastien Gagneux, Nicholas Ezati, Kathrin Zürcher, Sonia Borrell, Erik C. Böttger, Lameck Diero, Anchalee Avihingsanon, Alash'le Abimiku, Helen Cox, Kamon Kawkitinarong, Joachim Gnokoro, Neesha Rockwood, and Miriam Reinhard

Subjects

medicine.medical_specialty, Tuberculosis, biology, business.industry, Odds ratio, Drug resistance, medicine.disease, biology.organism_classification, Logistic regression, Mycobacterium tuberculosis, Informed consent, Internal medicine, Relative risk, medicine, Sputum, medicine.symptom, business

Abstract

Background: Drug resistance and HIV co-infection are challenges for the global control of tuberculosis. Methods: We collected Mycobacterium tuberculosis isolates from adult patients in Cote d'Ivoire, Democratic Republic of the Congo, Kenya, Nigeria, South Africa, Peru, and Thailand, stratified by HIV status and tuberculosis drug resistance. Molecular or phenotypic drug susceptibility testing (DST) was done locally and at the Swiss tuberculosis reference laboratory. We examined mortality during treatment according to DST results and treatment adequacy in logistic regression models adjusting for sex, age, sputum microscopy and HIV status. Findings: 634 tuberculosis patients were included; median age was 33.2 years, 239 (37.7%) were female, 272 (42.9%) HIV-positive and 69 (10.9%) patients died. Based on the reference laboratory DST, 394 (62.2%) strains were pan-susceptible, 45 (7.1%) mono-resistant, 163 (25.7%) multidrug-resistant (MDR-TB), and 30 (4.7%) had pre-extensive or extensive drug resistance (pre-XDR/XDR-TB). Results of reference and local laboratories were discordant in 121 (19.1%) cases, corresponding to a sensitivity of 84.3% and a specificity of 90.8%. In patients with drug-resistant tuberculosis, discordant results were associated with increased mortality (risk ratio 1.81; 95% CI 1.07-3.07). In logistic regression, compared to adequately treated patients with pan-susceptible strains, the adjusted odds ratio for death was 4.23 (95% CI 2.16-8.29) for adequately treated patients with drug-resistant strains and 21.54 (95% CI 3.36-138.1) for inadequately treated patients with drug-resistant strains. HIV status was not associated with mortality. Interpretation: Using a reference laboratory standard, inaccurate DST leading to inappropriate treatment of drug-resistant tuberculosis, but not HIV infection, contributed to mortality. Funding Statement: This research was supported by the Swiss National Science Foundation (grant numbers 153442, 310030_166687 and 174281), the National Institutes of Allergy and Infectious Diseases (NIAID) under award numbers U01 AI096299, U01 AI069919, U01 AI069924, U01 AI069911, U01 AI069907, U01 AI096186, and U01 AI069923, and Swiss National Center for Mycobacteria, University of Zurich, Switzerland. Declaration of Interests: AA has received honoraria fees from Jensen-Cilag, Gilead and Bristol-Myers Squibb. All other authors have no conflicts of interest to declare. Ethics Approval Statement:Local institutional review boards or ethics committees approved the study at all participating sites. Informed consent was obtained where requested per local regulations. The study was also approved by the Cantonal Ethics Committee in Bern, Switzerland.

Published

2018

39. Molecular characterization of bovine tuberculosis strains in two slaughterhouses in Morocco

Author

Sebastien Gagneux, Soukaina Rami, Jakob Zinsstag, Sonia Borrell, Jaouad Berrada, Julia Feldmann, Miriam Reinhard, Hind Yahyaoui-Azami, Mohammed Bouslikhane, and Hamid Aboukhassib

Subjects

0301 basic medicine, Veterinary medicine, Tuberculosis, 030106 microbiology, Disease cluster, Bovine tuberculosis, 03 medical and health sciences, medicine, East africa, Animals, 2. Zero hunger, Mycobacterium bovis, lcsh:Veterinary medicine, General Veterinary, biology, Spoligotype, Mycobacterium tuberculosis, General Medicine, biology.organism_classification, medicine.disease, 3. Good health, Molecular Typing, Morocco, Slaughterhouse, PCR, Mycobacterium tuberculosis complex, lcsh:SF600-1100, Cattle, Tuberculosis, Bovine, Abattoirs, Research Article

Abstract

Background Bovine tuberculosis (BTB) is caused by Mycobacterium bovis, which belongs to the Mycobacterium tuberculosis complex. Mycobacterium bovis have been described to be responsible of most cases of bovine tuberculosis. Although M. tuberculosis, M. africanum and non-complex mycobacteria were isolated from cattle. In Morocco, so far, no molecular studies were conducted to characterize the strains responsible of BTB. The present study aims to characterize M. bovis in Morocco. The present study was conducted in slaughterhouses in Rabat and El Jadida. Samples were collected from 327 slaughtered animals with visible lesions suggesting BTB. Results A total of 225 isolates yielded cultures, 95% (n = 215) of them were acid-fast (AF). Sixty eight per cent of the AF positive samples were confirmed as tuberculous mycobacteria (n = 147), 99% of these (n = 146) having RD9 and among the latter, 98% (n = 143) positive while 2% (n = 3) negative for RD4 A total of 134 samples were analyzed by spoligotyping of which 14 were in cluster and with 41 different spoligotypes, ten of them were new patterns (23%). The most prevalent spoligotypes were SB0121, SB0265, and SB0120, and were already identified in many other countries, such as Algeria, Spain, Tunisia, the United States and Argentina. Conclusion The shared borders between Algeria and Morocco, in addition to the previous importation of cattle from Europe and the US could explain the similarities found in M. bovis spoligotypes. On the other hand, the desert of Morocco could be considered as an efficient barrier preventing the introduction of BTB to Morocco from West Central and East Africa. Our findings suggest a low level endemic transmission of BTB similar to other African countries. However, more research is needed for further knowledge about the transmission patterns of BTB in Morocco.

Published

2017

40. Uwe Johnsons Jonas zum Beispiel. Ein Beispiel für das Verhältnis von Beispiel, Lektüre und Sinn

Author

Miriam Reinhard

Published

2011

41. 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.