Your search keyword '"Ivan, Barilar"' showing total 23 results

1. Tuberculosis Variant with Rifampin Resistance Undetectable by Xpert MTB/RIF, Botswana

Author

Chawangwa Modongo, Ivan Barilar, Qiao Wang, Tuduetso Molefi, Topo Makhondo, Stefan Niemann, and Sanghyuk S. Shin

Subjects

multidrug-resistant tuberculosis, tuberculosis and other mycobacteria, pre–XDR TB, antimicrobial resistance, whole-genome sequencing, molecular diagnostics, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

GeneXpert MTB/RIF, a tool widely used for diagnosing tuberculosis, has limitations for detecting rifampin resistance in certain variants. We report transmission of a pre–extensively drug-resistant variant in Botswana that went undetected by GeneXpert. The public health impact of misdiagnosis emphasizes the need for comprehensive molecular testing to identify resistance and guide treatment.

Published

2023

2. Molecular determinants of multidrug-resistant tuberculosis in Sierra Leone

Author

Harriet N. A. Blankson, Rashidatu Fouad Kamara, Ivan Barilar, Sönke Andres, Ousman S. Conteh, Tobias Dallenga, Lynda Foray, Florian Maurer, Katharina Kranzer, Christian Utpatel, and Stefan Niemann

Subjects

multidrug resistance, Mycobacterium tuberculosis, Sierra Leone, tuberculosis, Microbiology, QR1-502

Abstract

ABSTRACTMultidrug-resistant tuberculosis (MDR-TB) management has become a serious global health challenge. Understanding its epidemic determinants on the regional level is crucial for developing effective control measures. We used whole genome sequencing data of 238 of Mycobacterium tuberculosis complex (MTBC) strains to determine drug resistance profiles, phylogeny, and transmission dynamics of MDR/rifampicin-resistant (RR) MTBC strains from Sierra Leone. Forty-two strains were classified as RR, 196 as MDR, 5 were resistant to bedaquiline (BDQ) and clofazimine (CFZ), but none was found to be resistant to fluoroquinolones. Sixty-one (26%) strains were resistant to all first-line drugs, three of which had additional resistance to BDQ/CFZ. The strains were classified into six major MTBC lineages (L), with strains of L4 being the most prevalent, 62% (n = 147), followed by L6 (Mycobacterium africanum) strains, (21%, n = 50). The overall clustering rate (using ≤d12 single-nucleotide polymorphism threshold) was 44%, stratified into 31 clusters ranging from 2 to 16 strains. The largest cluster (n = 16) was formed by sublineage 2.2.1 Beijing Ancestral 3 strains, which developed MDR several times. Meanwhile, 10 of the L6 strains had a primary MDR transmission. We observed a high diversity of drug resistance mutations, including borderline resistance mutations to isoniazid and rifampicin, and mutations were not detected by commercial assays. In conclusion, one in five strains investigated was resistant to all first-line drugs, three of which had evidence of BDQ/CFZ resistance. Implementation of interventions such as rapid diagnostics that prevent further resistance development and stop MDR-TB transmission chains in the country is urgently needed.IMPORTANCEA substantial proportion of MDR-TB strains in Sierra Leone were resistant against all first line drugs; however this makes the all-oral-six-month BPaLM regimen or other 6-9 months all oral regimens still viable, mainly because there was no FQ resistance.Resistance to BDQ was detected, as well as RR, due to mutations outside of the hotspot region. While the prevalence of those resistances was low, it is still cause for concern and needs to be closely monitored.

Published

2024

3. Use of High-Resolution Geospatial and Genomic Data to Characterize Recent Tuberculosis Transmission, Botswana

Author

Chelsea R. Baker, Ivan Barilar, Leonardo S. de Araujo, Anne W. Rimoin, Daniel M. Parker, Rosanna Boyd, James L. Tobias, Patrick K. Moonan, Eleanor S. Click, Alyssa Finlay, John E. Oeltmann, Vladimir N. Minin, Chawangwa Modongo, Nicola M. Zetola, Stefan Niemann, and Sanghyuk S. Shin

Subjects

tuberculosis and other mycobacteria, bacteria, respiratory infections, whole-genome sequencing, spatial analysis, geographic heterogeneity, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Combining genomic and geospatial data can be useful for understanding Mycobacterium tuberculosis transmission in high-burden tuberculosis (TB) settings. We performed whole-genome sequencing on M. tuberculosis DNA extracted from sputum cultures from a population-based TB study conducted in Gaborone, Botswana, during 2012–2016. We determined spatial distribution of cases on the basis of shared genotypes among isolates. We considered clusters of isolates with ≤5 single-nucleotide polymorphisms identified by whole-genome sequencing to indicate recent transmission and clusters of ≥10 persons to be outbreaks. We obtained both molecular and geospatial data for 946/1,449 (65%) participants with culture-confirmed TB; 62 persons belonged to 5 outbreaks of 10–19 persons each. We detected geospatial clustering in just 2 of those 5 outbreaks, suggesting heterogeneous spatial patterns. Our findings indicate that targeted interventions applied in smaller geographic areas of high-burden TB identified using integrated genomic and geospatial data might help interrupt TB transmission during outbreaks.

Published

2023

4. Limited Nosocomial Transmission of Drug-Resistant Tuberculosis, Moldova

Author

Ecaterina Noroc, Dumitru Chesov, Matthias Merker, Matthias I. Gröschel, Ivan Barilar, Viola Dreyer, Nelly Ciobanu, Maja Reimann, Valeriu Crudu, and Christoph Lange

Subjects

tuberculosis and other mycobacteria, multidrug-resistant tuberculosis, rifampin-resistant tuberculosis, TB, Moldova, WGS, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Applying whole-genome-sequencing, we aimed to detect transmission events of multidrug-resistant/rifampin-resistant strains of Mycobacterium tuberculosis complex at a tuberculosis hospital in Chisinau, Moldova. We recorded ward, room, and bed information for each patient and monitored in-hospital transfers over 1 year. Detailed molecular and patient surveillance revealed only 2 nosocomial transmission events.

Published

2023

5. In vitro activity of new combinations of β-lactam and β-lactamase inhibitors against the Mycobacterium tuberculosis complex

Author

Elin Economou Lundeberg, Viktoria Andersson, Maria Wijkander, Ramona Groenheit, Mikael Mansjö, Jim Werngren, Teresa Cortes, Ivan Barilar, Stefan Niemann, Matthias Merker, Claudio U. Köser, and Lina Davies Forsman

Subjects

β-lactams, β-lactamases, tebipenem, meropenem, clavulanic acid, minimum inhibitory concentrations, Microbiology, QR1-502

Abstract

ABSTRACT As meropenem-clavulanic acid is recommended for the treatment of drug-resistant tuberculosis, the repurposing of new carbapenem combinations may provide new treatment options, including oral alternatives. Therefore, we studied the in vitro activities of meropenem-vaborbactam, meropenem-clavulanic acid, and tebipenem-clavulanic acid. One hundred nine Mycobacterium tuberculosis complex (MTBC) clinical isolates were tested, of which 69 were pan-susceptible and the remaining pyrazinamide- or multidrug-resistant. Broth microdilution MICs were determined using the EUCAST reference method. Meropenem and tebipenem were tested individually and in combination with vaborbactam 8 mg/L and clavulanic-acid 2 and 4 mg/L, respectively. Whole-genome sequencing was performed to explore resistance mechanisms. Clavulanic acid lowered the modal tebipenem MIC approximately 16-fold (from 16 to 1 mg/L). The modal meropenem MIC was reduced twofold by vaborbactam compared with an approximately eightfold decrease by clavulanic acid. The only previously described high-confidence carbapenem resistance mutation, crfA T62A, was shared by a subgroup of lineage 4.3.4.1 isolates and did not correlate with elevated MICs. The presence of a β-lactamase inhibitor reduced the MTBC MICs of tebipenem and meropenem. The resulting MIC distribution was lowest for the orally available drugs tebipenem-clavulanic acid. Whether this in vitro activity translates to similar or greater clinical efficacy of tebipenem-clavulanic acid compared with the currently WHO-endorsed meropenem-clavulanic acid requires clinical studies. IMPORTANCE Repurposing of already approved antibiotics, such as β-lactams in combination with β-lactamase inhibitors, may provide new treatment alternatives for drug-resistant tuberculosis. Meropenem-clavulanic acid was more active in vitro compared to meropenem-vaborbactam. Notably, tebipenem-clavulanic acid showed even better activity, raising the potential of an all-oral treatment option. Clinical data are needed to investigate whether the better in vitro activity of tebipenem-clavulanic acid correlates with greater clinical efficacy compared with the currently WHO-endorsed meropenem-clavulanic acid.

Published

2023

6. High fluoroquinolone resistance proportions among multidrug-resistant tuberculosis driven by dominant L2 Mycobacterium tuberculosis clones in the Mumbai Metropolitan Region

Author

Viola Dreyer, Ayan Mandal, Prachi Dev, Matthias Merker, Ivan Barilar, Christian Utpatel, Kayzad Nilgiriwala, Camilla Rodrigues, Derrick W. Crook, the CRyPTIC Consortium, Jean-Philippe Rasigade, Thierry Wirth, Nerges Mistry, and Stefan Niemann

Subjects

Tuberculosis, Resistant TB, Multidrug-resistant TB, Fluoroquinolone resistance, India, Pre-XDR/XDR-TB, Pre-XDR/XDR-TB transmission, Medicine, Genetics, QH426-470

Abstract

Abstract Background Multidrug-resistant (MDR) Mycobacterium tuberculosis complex (MTBC) strains are a serious health problem in India, also contributing to one-fourth of the global MDR tuberculosis (TB) burden. About 36% of the MDR MTBC strains are reported fluoroquinolone (FQ) resistant leading to high pre-extensively drug-resistant (pre-XDR) and XDR-TB (further resistance against bedaquiline and/or linezolid) rates. Still, factors driving the MDR/pre-XDR epidemic in India are not well defined. Methods In a retrospective study, we analyzed 1852 consecutive MTBC strains obtained from patients from a tertiary care hospital laboratory in Mumbai by whole genome sequencing (WGS). Univariate and multivariate statistics was used to investigate factors associated with pre-XDR. Core genome multi locus sequence typing, time scaled haplotypic density (THD) method and homoplasy analysis were used to analyze epidemiological success, and positive selection in different strain groups, respectively. Results In total, 1016 MTBC strains were MDR, out of which 703 (69.2%) were pre-XDR and 45 (4.4%) were XDR. Cluster rates were high among MDR (57.8%) and pre-XDR/XDR (79%) strains with three dominant L2 (Beijing) strain clusters (Cl 1–3) representing half of the pre-XDR and 40% of the XDR-TB cases. L2 strains were associated with pre-XDR/XDR-TB (P

Published

2022

7. Transmission Dynamics of a Mycobacterium tuberculosis Complex Outbreak in an Indigenous Population in the Colombian Amazon Region

Author

Francy J. Pérez-Llanos, Viola Dreyer, Ivan Barilar, Christian Utpatel, Thomas A. Kohl, Martha Isabel Murcia, Susanne Homolka, Matthias Merker, and Stefan Niemann

Subjects

Whole-genome sequencing, Colombia, tuberculosis, Microbiology, QR1-502

Abstract

ABSTRACT Whole genome sequencing (WGS) has become the main tool for studying the transmission of Mycobacterium tuberculosis complex (MTBC) strains; however, the clonal expansion of one strain often limits its application in local MTBC outbreaks. The use of an alternative reference genome and the inclusion of repetitive regions in the analysis could potentially increase the resolution, but the added value has not yet been defined. Here, we leveraged short and long WGS read data of a previously reported MTBC outbreak in the Colombian Amazon Region to analyze possible transmission chains among 74 patients in the indigenous setting of Puerto Nariño (March to October 2016). In total, 90.5% (67/74) of the patients were infected with one distinct MTBC strain belonging to lineage 4.3.3. Employing a reference genome from an outbreak strain and highly confident single nucleotide polymorphisms (SNPs) in repetitive genomic regions, e.g., the proline-glutamic acid/proline-proline-glutamic-acid (PE/PPE) gene family, increased the phylogenetic resolution compared to a classical H37Rv reference mapping approach. Specifically, the number of differentiating SNPs increased from 890 to 1,094, which resulted in a more granular transmission network as judged by an increasing number of individual nodes in a maximum parsimony tree, i.e., 5 versus 9 nodes. We also found in 29.9% (20/67) of the outbreak isolates, heterogenous alleles at phylogenetically informative sites, suggesting that these patients are infected with more than one clone. In conclusion, customized SNP calling thresholds and employment of a local reference genome for a mapping approach can improve the phylogenetic resolution in highly clonal MTBC populations and help elucidate within-host MTBC diversity. IMPORTANCE The Colombian Amazon around Puerto Nariño has a high tuberculosis burden with a prevalence of 1,267/100,000 people in 2016. Recently, an outbreak of Mycobacterium tuberculosis complex (MTBC) bacteria among the indigenous populations was identified with classical MTBC genotyping methods. Here, we employed a whole-genome sequencing-based outbreak investigation in order to improve the phylogenetic resolution and gain new insights into the transmission dynamics in this remote Colombian Amazon Region. The inclusion of well-supported single nucleotide polymorphisms in repetitive regions and a de novo-assembled local reference genome provided a more granular picture of the circulating outbreak strain and revealed new transmission chains. Multiple patients from different settlements were possibly infected with at least two different clones in this high-incidence setting. Thus, our results have the potential to improve molecular surveillance studies in other high-burden settings, especially regions with few clonal multidrug-resistant (MDR) MTBC lineages/clades.

Published

2023

8. Using genetic data to identify transmission risk factors: Statistical assessment and application to tuberculosis transmission.

Author

Isaac H Goldstein, Damon Bayer, Ivan Barilar, Balladiah Kizito, Ogopotse Matsiri, Chawangwa Modongo, Nicola M Zetola, Stefan Niemann, Volodymyr M Minin, and Sanghyuk S Shin

Subjects

Biology (General), QH301-705.5

Abstract

Identifying host factors that influence infectious disease transmission is an important step toward developing interventions to reduce disease incidence. Recent advances in methods for reconstructing infectious disease transmission events using pathogen genomic and epidemiological data open the door for investigation of host factors that affect onward transmission. While most transmission reconstruction methods are designed to work with densely sampled outbreaks, these methods are making their way into surveillance studies, where the fraction of sampled cases with sequenced pathogens could be relatively low. Surveillance studies that use transmission event reconstruction then use the reconstructed events as response variables (i.e., infection source status of each sampled case) and use host characteristics as predictors (e.g., presence of HIV infection) in regression models. We use simulations to study estimation of the effect of a host factor on probability of being an infection source via this multi-step inferential procedure. Using TransPhylo-a widely-used method for Bayesian estimation of infectious disease transmission events-and logistic regression, we find that low sensitivity of identifying infection sources leads to dilution of the signal, biasing logistic regression coefficients toward zero. We show that increasing the proportion of sampled cases improves sensitivity and some, but not all properties of the logistic regression inference. Application of these approaches to real world data from a population-based TB study in Botswana fails to detect an association between HIV infection and probability of being a TB infection source. We conclude that application of a pipeline, where one first uses TransPhylo and sparsely sampled surveillance data to infer transmission events and then estimates effects of host characteristics on probabilities of these events, should be accompanied by a realistic simulation study to better understand biases stemming from imprecise transmission event inference.

Published

2022

9. The phylogenetic landscape and nosocomial spread of the multidrug-resistant opportunist Stenotrophomonas maltophilia

Author

Matthias I. Gröschel, Conor J. Meehan, Ivan Barilar, Margo Diricks, Aitor Gonzaga, Matthias Steglich, Oscar Conchillo-Solé, Isabell-Christin Scherer, Uwe Mamat, Christian F. Luz, Katrien De Bruyne, Christian Utpatel, Daniel Yero, Isidre Gibert, Xavier Daura, Stefanie Kampmeier, Nurdyana Abdul Rahman, Michael Kresken, Tjip S. van der Werf, Ifey Alio, Wolfgang R. Streit, Kai Zhou, Thomas Schwartz, John W. A. Rossen, Maha R. Farhat, Ulrich E. Schaible, Ulrich Nübel, Jan Rupp, Joerg Steinmann, Stefan Niemann, and Thomas A. Kohl

Subjects

Science

Abstract

Multidrug resistance of the opportunistic pathogen Stenotrophomonas maltophilia is an increasing problem. Here, analyzing strains from 22 countries, the authors show that the S. maltophilia complex is divided into 23 monophyletic lineages and find evidence for intra-hospital transmission.

Published

2020

10. Multidrug- and Extensively Drug-Resistant Mycobacterium tuberculosis Beijing Clades, Ukraine, 2015

Author

Matthias Merker, Elena Nikolaevskaya, Thomas A. Kohl, Barbara Molina-Moya, Olha Pavlovska, Patrik Brännberg, Andrii Dudnyk, Valentyna Stokich, Ivan Barilar, Iryna Marynova, Tetiana Filipova, Cristina Prat, Anders Sjöstedt, Jose Dominguez, Olena Rzhepishevska, and Stefan Niemann

Subjects

Mycobacterium tuberculosis, tuberculosis, drug resistance, whole-genome sequencing, contact tracing, MDR TB, Medicine, Infectious and parasitic diseases, RC109-216

Abstract

Multidrug-resistant (MDR) and extensively drug-resistant (XDR) tuberculosis (TB) is an emerging threat to TB control in Ukraine, a country with the third highest XDR TB burden globally. We used whole-genome sequencing of a convenience sample to identify bacterial genetic and patient-related factors associated with MDR/XDR TB in this country. MDR/XDR TB was associated with 3 distinct Mycobacterium tuberculosis complex lineage 2 (Beijing) clades, Europe/Russia W148 outbreak, Central Asia outbreak, and Ukraine outbreak, which comprised 68.9% of all MDR/XDR TB strains from southern Ukraine. MDR/XDR TB was also associated with previous treatment for TB and urban residence. The circulation of Beijing outbreak strains harboring broad drug resistance, coupled with constraints in drug supply and limited availability of phenotypic drug susceptibility testing, needs to be considered when new TB management strategies are implemented in Ukraine.

Published

2020

11. Phylogenetically informative mutations in genes implicated in antibiotic resistance in Mycobacterium tuberculosis complex

Author

Matthias Merker, Thomas A. Kohl, Ivan Barilar, Sönke Andres, Philip W. Fowler, Erja Chryssanthou, Kristian Ängeby, Pontus Jureen, Danesh Moradigaravand, Julian Parkhill, Sharon J. Peacock, Thomas Schön, Florian P. Maurer, Timothy Walker, Claudio Köser, and Stefan Niemann

Subjects

Mycobacterium tuberculosis, Drug resistance, Benign mutations, Intrinsic resistance, Medicine, Genetics, QH426-470

Abstract

Abstract Background A comprehensive understanding of the pre-existing genetic variation in genes associated with antibiotic resistance in the Mycobacterium tuberculosis complex (MTBC) is needed to accurately interpret whole-genome sequencing data for genotypic drug susceptibility testing (DST). Methods We investigated mutations in 92 genes implicated in resistance to 21 anti-tuberculosis drugs using the genomes of 405 phylogenetically diverse MTBC strains. The role of phylogenetically informative mutations was assessed by routine phenotypic DST data for the first-line drugs isoniazid, rifampicin, ethambutol, and pyrazinamide from a separate collection of over 7000 clinical strains. Selected mutations/strains were further investigated by minimum inhibitory concentration (MIC) testing. Results Out of 547 phylogenetically informative mutations identified, 138 were classified as not correlating with resistance to first-line drugs. MIC testing did not reveal a discernible impact of a Rv1979c deletion shared by M. africanum lineage 5 strains on resistance to clofazimine. Finally, we found molecular evidence that some MTBC subgroups may be hyper-susceptible to bedaquiline and clofazimine by different loss-of-function mutations affecting a drug efflux pump subunit (MmpL5). Conclusions Our findings underline that the genetic diversity in MTBC has to be studied more systematically to inform the design of clinical trials and to define sound epidemiologic cut-off values (ECOFFs) for new and repurposed anti-tuberculosis drugs. In that regard, our comprehensive variant catalogue provides a solid basis for the interpretation of mutations in genotypic as well as in phenotypic DST assays.

Published

2020

12. The 2021 WHO catalogue of Mycobacterium tuberculosis complex mutations associated with drug resistance: a genotypic analysis

Author

Timothy M Walker, DPhil, Paolo Miotto, PhD, Claudio U Köser, PhD, Philip W Fowler, PhD, Jeff Knaggs, BSc, Zamin Iqbal, DPhil, Martin Hunt, PhD, Leonid Chindelevitch, PhD, Maha R Farhat, MD, Daniela Maria Cirillo, PhD, Iñaki Comas, PhD, James Posey, PhD, Shaheed V Omar, PhD, Timothy EA Peto, ProfFRCP, Anita Suresh, MSc, Swapna Uplekar, PhD, Sacha Laurent, PhD, Rebecca E Colman, PhD, Carl-Michael Nathanson, PhD, Matteo Zignol, MD, Ann Sarah Walker, ProfPhD, Derrick W Crook, ProfFRCPath, Nazir Ismail, FRCPath [SA], Timothy C Rodwell, ProfMD, A Sarah Walker, Adrie J C Steyn, Ajit Lalvani, Alain Baulard, Alan Christoffels, Alberto Mendoza-Ticona, Alberto Trovato, Alena Skrahina, Alexander S Lachapelle, Alice Brankin, Amy Piatek, Ana Gibertoni Cruz, Anastasia Koch, Andrea Maurizio Cabibbe, Andrea Spitaleri, Angela P Brandao, Angkana Chaiprasert, Anita Suresh, Anna Barbova, Annelies Van Rie, Arash Ghodousi, Arnold Bainomugisa, Ayan Mandal, Aysha Roohi, Babak Javid, Baoli Zhu, Brice Letcher, Camilla Rodrigues, Camus Nimmo, Carl-Michael NATHANSON, Carla Duncan, Christopher Coulter, Christian Utpatel, Chunfa Liu, Clara Grazian, Clare Kong, Claudio U Köser, Daniel J Wilson, Daniela Maria Cirillo, Daniela Matias, Danielle Jorgensen, Danila Zimenkov, Darren Chetty, David AJ Moore, David A Clifton, Derrick W Crook, Dick van Soolingen, Dongxin Liu, Donna Kohlerschmidt, Draurio Barreira, Dumisani Ngcamu, Elias David Santos Lazaro, Ellis Kelly, Emanuele Borroni, Emma Roycroft, Emmanuel Andre, Erik C Böttger, Esther Robinson, Fabrizio Menardo, Flavia F Mendes, Frances B Jamieson, Francesc Coll, George Fu Gao, George W Kasule, Gian Maria Rossolini, Gillian Rodger, E Grace Smith, Graeme Meintjes, Guy Thwaites, Harald Hoffmann, Heidi Albert, Helen Cox, Ian F Laurenson, Iñaki Comas, Irena Arandjelovic, Ivan Barilar, Jaime Robledo, James Millard, James Johnston, Jamie Posey, Jason R Andrews, Jeff Knaggs, Jennifer Gardy, Jennifer Guthrie, Jill Taylor, Jim Werngren, John Metcalfe, Jorge Coronel, Joseph Shea, Joshua Carter, Juliana MW Pinhata, Julianne V Kus, Katharina Todt, Kathryn Holt, Kayzad S Nilgiriwala, Kelen T Ghisi, Kerri M Malone, Kiatichai Faksri, Kimberlee A Musser, Lavania Joseph, Leen Rigouts, Leonid Chindelevitch, Lisa Jarrett, Louis Grandjean, Lucilaine Ferrazoli, Mabel Rodrigues, Maha Farhat, Marco Schito, Margaret M Fitzgibbon, Marguerite Massinga Loembé, Maria Wijkander, Marie Ballif, Marie-Sylvianne Rabodoarivelo, Marina Mihalic, Mark WILCOX, Martin Hunt, Matteo ZIGNOL, Matthias Merker, Matthias Egger, Max O'Donnell, Maxine Caws, Mei-Hua Wu, Michael G Whitfield, Michael Inouye, Mikael Mansjö, Minh Ha Dang Thi, Moses Joloba, SM Mostofa Kamal, Nana Okozi, Nazir ISMAIL, Nerges Mistry, Nhung N Hoang, Niaina Rakotosamimanana, Nicholas I Paton, Paola M V Rancoita, Paolo Miotto, Pascal Lapierre, Patricia J Hall, Patrick Tang, Pauline Claxton, Penelope Wintringer, Peter M Keller, Phan Vuong Khac Thai, Philip W Fowler, Philip Supply, Prapaporn Srilohasin, Prapat Suriyaphol, Priti Rathod, Priti Kambli, Ramona Groenheit, Rebecca E Colman, Rick Twee-Hee Ong, Robin M Warren, Robert J Wilkinson, Roland Diel, Rosangela S Oliveira, Rukhsar Khot, Ruwen Jou, Sabira Tahseen, Sacha Laurent, Saheer Gharbia, Samaneh Kouchaki, Sanchi Shah, Sara Plesnik, Sarah G Earle, Sarah Dunstan, Sarah J Hoosdally, Satoshi Mitarai, Sebastien Gagneux, Shaheed V Omar, Shen-Yuan Yao, Simon Grandjean Lapierre, Simone Battaglia, Stefan Niemann, Sushil Pandey, Swapna Uplekar, Tanya A Halse, Ted Cohen, Teresa Cortes, Therdsak Prammananan, Thomas A Kohl, Nguyen T T Thuong, Tik Ying Teo, Timothy E A Peto, Timothy C Rodwell, Timothy William, Timothy M Walker, Thomas R Rogers, Utkarsha Surve, Vanessa Mathys, Victoria Furió, Victoria Cook, Srinivasan Vijay, Vincent Escuyer, Viola Dreyer, Vitali Sintchenko, Vonthanak Saphonn, Walter Solano, Wan-Hsuan Lin, Wayne van Gemert, Wencong He, Yang Yang, Yanlin Zhao, Youwen Qin, Yu-Xin Xiao, Zahra Hasan, Zamin Iqbal, and Zully M Puyen

Subjects

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

Abstract

Summary: Background: Molecular diagnostics are considered the most promising route to achievement of rapid, universal drug susceptibility testing for Mycobacterium tuberculosis complex (MTBC). We aimed to generate a WHO-endorsed catalogue of mutations to serve as a global standard for interpreting molecular information for drug resistance prediction. Methods: In this systematic analysis, we used a candidate gene approach to identify mutations associated with resistance or consistent with susceptibility for 13 WHO-endorsed antituberculosis drugs. We collected existing worldwide MTBC whole-genome sequencing data and phenotypic data from academic groups and consortia, reference laboratories, public health organisations, and published literature. We categorised phenotypes as follows: methods and critical concentrations currently endorsed by WHO (category 1); critical concentrations previously endorsed by WHO for those methods (category 2); methods or critical concentrations not currently endorsed by WHO (category 3). For each mutation, we used a contingency table of binary phenotypes and presence or absence of the mutation to compute positive predictive value, and we used Fisher's exact tests to generate odds ratios and Benjamini-Hochberg corrected p values. Mutations were graded as associated with resistance if present in at least five isolates, if the odds ratio was more than 1 with a statistically significant corrected p value, and if the lower bound of the 95% CI on the positive predictive value for phenotypic resistance was greater than 25%. A series of expert rules were applied for final confidence grading of each mutation. Findings: We analysed 41 137 MTBC isolates with phenotypic and whole-genome sequencing data from 45 countries. 38 215 MTBC isolates passed quality control steps and were included in the final analysis. 15 667 associations were computed for 13 211 unique mutations linked to one or more drugs. 1149 (7·3%) of 15 667 mutations were classified as associated with phenotypic resistance and 107 (0·7%) were deemed consistent with susceptibility. For rifampicin, isoniazid, ethambutol, fluoroquinolones, and streptomycin, the mutations' pooled sensitivity was more than 80%. Specificity was over 95% for all drugs except ethionamide (91·4%), moxifloxacin (91·6%) and ethambutol (93·3%). Only two resistance mutations were identified for bedaquiline, delamanid, clofazimine, and linezolid as prevalence of phenotypic resistance was low for these drugs. Interpretation: We present the first WHO-endorsed catalogue of molecular targets for MTBC drug susceptibility testing, which is intended to provide a global standard for resistance interpretation. The existence of this catalogue should encourage the implementation of molecular diagnostics by national tuberculosis programmes. Funding: Unitaid, Wellcome Trust, UK Medical Research Council, and Bill and Melinda Gates Foundation.

Published

2022

13. Toll-like receptor 4 deficiency or inhibition does not modulate survival and neurofunctional outcome in a murine model of cardiac arrest and resuscitation.

Author

Stefan Bergt, Andrea Grub, Melanie Mueller, Rika Bajorat, Ivan Barilar, Brigitte Vollmar, Jan Patrick Roesner, and Nana-Maria Wagner

Subjects

Medicine, Science

Abstract

BackgroundPatients experiencing cardiac arrest (CA) and cardiopulmonary resuscitation (CPR) often die or suffer from severe neurological impairment. Post resuscitation syndrome is characterized by a systemic inflammatory response. Toll-like receptor 4 (TLR4) is a major mediator of inflammation and TLR4 has been implicated in the pathogenesis of post-resuscitation encephalopathy. The aim of this study was to evaluate whether TLR4 deficiency or inhibition can modulate survival and neurofunctional outcome after CA/CPR.MethodsFollowing intubation and central venous cannulation, CA was induced in wild type (C57Bl/6J, n = 38), TLR4 deficient (TLR4-/-, n = 37) and TLR4 antibody treated mice (5mg/kg MTS510, n = 15) by high potassium. After 10min, CPR was performed using a modified sewing machine until return of spontaneous circulation (ROSC). Cytokines and cerebral TNFalpha levels were measured 8h after CA/CPR. Survival, early neurological recovery, locomotion, spatial learning and memory were assessed over a period of 28 days.ResultsFollowing CA/CPR, all mice exhibited ROSC and 31.5% of wild type mice survived until day 28. Compared to wild type mice, neither TLR4-/- nor MTS510 treated wild type mice had statistically significant altered survival following CA/CPR (51.3 and 26.7%, P = 0.104 and P = 0.423 vs. WT, respectively). Antibody-treated but not TLR4-/- mice had higher IL-1β and IL-6 levels and TLR4-/- mice had higher IL-10 and cerebral TNFalpha levels. No differences existed between mice of all groups in early neurological recovery, locomotion, spatial learning ability or remembrance.ConclusionTherapeutic strategies targeting TLR4 may not be suitable for the reduction of mortality or neurofunctional impairment after CA/CPR.

Published

2019

14. The phylogenetic landscape and nosocomial spread of the multidrug-resistant opportunist Stenotrophomonas maltophilia

Author

Ifey Alio, Christian Utpatel, Michael Kresken, Ulrich E. Schaible, Ivan Barilar, Katrien De Bruyne, Aitor Gonzaga, Ulrich Nübel, Stefanie Kampmeier, Wolfgang R. Streit, Christian F. Luz, Kai Zhou, Nurdyana Binte Abdul Rahman, Thomas Kohl, Isidre Gibert, Matthias I. Gröschel, Thomas Schwartz, Conor J. Meehan, Matthias Steglich, Daniel Yero, Tjip S. van der Werf, Joerg Steinmann, John W. A. Rossen, Uwe Mamat, Oscar Conchillo-Solé, Stefan Niemann, Xavier Daura, Margo Diricks, Isabell-Christin Scherer, Maha R. Farhat, Jan Rupp, and Microbes in Health and Disease (MHD)

Subjects

0301 basic medicine, Epidemiology, Stenotrophomonas maltophilia, Lineage (evolution), Medizin, General Physics and Astronomy, PROTEIN, ANNOTATION, DISEASE, Monophyly, Drug Resistance, Multiple, Bacterial, polycyclic compounds, Cluster Analysis, TOOL, SEQUENCE TYPING SCHEME, lcsh:Science, Phylogeny, TREE, Genetics, Cross Infection, Multidisciplinary, Geography, Virulence, biology, Phylogenetic tree, Transmission (medicine), Anti-Bacterial Agents, INFECTIONS, Pathogens, Life sciences, congenital, hereditary, and neonatal diseases and abnormalities, Science, 030106 microbiology, Opportunistic Infections, Article, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, ddc:570, Humans, Alleles, Outbreak, Bacteriology, General Chemistry, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, bacterial infections and mycoses, Multiple drug resistance, 030104 developmental biology, bacteria, lcsh:Q, Gram-Negative Bacterial Infections, Genome, Bacterial

Abstract

Recent studies portend a rising global spread and adaptation of human- or healthcare-associated pathogens. Here, we analyse an international collection of the emerging, multidrug-resistant, opportunistic pathogen Stenotrophomonas maltophilia from 22 countries to infer population structure and clonality at a global level. We show that the S. maltophilia complex is divided into 23 monophyletic lineages, most of which harbour strains of all degrees of human virulence. Lineage Sm6 comprises the highest rate of human-associated strains, linked to key virulence and resistance genes. Transmission analysis identifies potential outbreak events of genetically closely related strains isolated within days or weeks in the same hospitals., Multidrug resistance of the opportunistic pathogen Stenotrophomonas maltophilia is an increasing problem. Here, analyzing strains from 22 countries, the authors show that the S. maltophilia complex is divided into 23 monophyletic lineages and find evidence for intra-hospital transmission.

Published

2020

15. Investigating resistance in clinical Mycobacterium tuberculosis complex isolates with genomic and phenotypic antimicrobial susceptibility testing: a multicentre observational study

Author

Iris Finci, Audrey Albertini, Matthias Merker, Sönke Andres, Nino Bablishvili, Ivan Barilar, Tatiana Cáceres, Valeriu Crudu, Eduardo Gotuzzo, Nchimunya Hapeela, Harald Hoffmann, Christine Hoogland, Thomas A Kohl, Katharina Kranzer, Anna Mantsoki, Florian P Maurer, Mark P Nicol, Ecaterina Noroc, Sara Plesnik, Timothy Rodwell, Morten Ruhwald, Theresa Savidge, Max Salfinger, Elizabeth Streicher, Nestani Tukvadze, Robin Warren, Widaad Zemanay, Anna Zurek, Stefan Niemann, and Claudia M Denkinger

Subjects

Microbiology (medical), antimicrobial susceptibility testing, Antitubercular Agents, Genomics, Mycobacterium tuberculosis, Microbiology, Phenotype, Infectious Diseases, Virology, Tuberculosis, Multidrug-Resistant, Humans, Tuberculosis, multicentre observational study, Prospective Studies, Rifampin

Abstract

Whole-genome sequencing (WGS) of Mycobacterium tuberculosis complex has become an important tool in diagnosis and management of drug-resistant tuberculosis. However, data correlating resistance genotype with quantitative phenotypic antimicrobial susceptibility testing (AST) are scarce.In a prospective multicentre observational study, 900 clinical M tuberculosis complex isolates were collected from adults with drug-resistant tuberculosis in five high-endemic tuberculosis settings around the world (Georgia, Moldova, Peru, South Africa, and Viet Nam) between Dec 5, 2014, and Dec 12, 2017. Minimum inhibitory concentrations (MICs) and resulting binary phenotypic AST results for up to nine antituberculosis drugs were determined and correlated with resistance-conferring mutations identified by WGS.Considering WHO-endorsed critical concentrations as reference, WGS had high accuracy for prediction of resistance to isoniazid (sensitivity 98·8% [95% CI 98·5-99·0]; specificity 96·6% [95% CI 95·2-97·9]), levofloxacin (sensitivity 94·8% [93·3-97·6]; specificity 97·1% [96·7-97·6]), kanamycin (sensitivity 96·1% [95·4-96·8]; specificity 95·0% [94·4-95·7]), amikacin (sensitivity 97·2% [96·4-98·1]; specificity 98·6% [98·3-98·9]), and capreomycin (sensitivity 93·1% [90·0-96·3]; specificity 98·3% [98·0-98·7]). For rifampicin, pyrazinamide, and ethambutol, the specificity of resistance prediction was suboptimal (64·0% [61·0-67·1], 83·8% [81·0-86·5], and 40·1% [37·4-42·9], respectively). Specificity for rifampicin increased to 83·9% when borderline mutations with MICs overlapping with the critical concentration were excluded. Consequently, we highlighted mutations in M tuberculosis complex isolates that are often falsely identified as susceptible by phenotypic AST, and we identified potential novel resistance-conferring mutations.The combined analysis of mutations and quantitative phenotypes shows the potential of WGS to produce a refined interpretation of resistance, which is needed for individualised therapy, and eventually could allow differential drug dosing. However, variability of MIC data for some M tuberculosis complex isolates carrying identical mutations also reveals limitations of our understanding of the genotype and phenotype relationships (eg, including epistasis and strain genetic background).BillMelinda Gates Foundation, German Centre for Infection Research, German Research Foundation, Excellence Cluster Precision Medicine of Inflammation (EXC 2167), and Leibniz ScienceCampus EvoLUNG.

Published

2022

16. Origin and Global Expansion of Mycobacterium tuberculosis Complex Lineage 3

Author

Yassir A. Shuaib, Christian Utpatel, Thomas A. Kohl, Ivan Barilar, Margo Diricks, Nadia Ashraf, Lothar H. Wieler, Glennah Kerubo, Eyob A. Mesfin, Awa Ba Diallo, Sahal Al-Hajoj, Perpetua Ndung’u, Margaret M. Fitzgibbon, Farzam Vaziri, Vitali Sintchenko, Elena Martinez, Sofia O. Viegas, Yang Zhou, Aya Azmy, Khaled Al-Amry, Sylvain Godreuil, Mandira Varma-Basil, Anshika Narang, Solomon Ali, Patrick Beckert, Viola Dreyer, Mwila Kabwe, Matthew Bates, Michael Hoelscher, Andrea Rachow, Andrea Gori, Emmanuel M. Tekwu, Larissa K. Sidze, Assam A. Jean-Paul, Veronique P. Beng, Francine Ntoumi, Matthias Frank, Aissatou Gaye Diallo, Souleymane Mboup, Belay Tessema, Dereje Beyene, Sadiq N. Khan, Roland Diel, Philip Supply, Florian P. Maurer, Harald Hoffmann, Stefan Niemann, Matthias Merker, Maladies infectieuses et vecteurs : écologie, génétique, évolution et contrôle (MIVEGEC), Centre National de la Recherche Scientifique (CNRS)-Institut de Recherche pour le Développement (IRD [France-Sud])-Université de Montpellier (UM), Centre d’Infection et d’Immunité de Lille - INSERM U 1019 - UMR 9017 - UMR 8204 (CIIL), Institut Pasteur de Lille, Réseau International des Instituts Pasteur (RIIP)-Réseau International des Instituts Pasteur (RIIP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Lille-Centre Hospitalier Régional Universitaire [Lille] (CHRU Lille)-Centre National de la Recherche Scientifique (CNRS), and Supply, Philip

Subjects

Mycobacterium tuberculosis, MTBC, Lineage 3, back to Africa, [SDV.GEN.GPO]Life Sciences [q-bio]/Genetics/Populations and Evolution [q-bio.PE], [SDV.GEN.GPO] Life Sciences [q-bio]/Genetics/Populations and Evolution [q-bio.PE], Genetics, [SDV.MP.BAC] Life Sciences [q-bio]/Microbiology and Parasitology/Bacteriology, [SDV.MP.BAC]Life Sciences [q-bio]/Microbiology and Parasitology/Bacteriology, Genetics (clinical), Uncategorized

Abstract

International audience; Mycobacterium tuberculosis complex (MTBC) Lineage 3 (L3) strains are abundant in world regions with the highest tuberculosis burden. To investigate the population structure and the global diversity of this major lineage, we analyzed a dataset comprising 2682 L3 strains from 38 countries over 5 continents, by employing 24-loci mycobacterial interspersed repetitive unit-variable number of tandem repeats genotyping (MIRU-VNTR) and drug susceptibility testing. We further combined whole-genome sequencing (WGS) and phylogeographic analysis for 373 strains representing the global L3 genetic diversity. Ancestral state reconstruction confirmed that the origin of L3 strains is located in Southern Asia and further revealed multiple independent introduction events into North-East and East Africa. This study provides a systematic understanding of the global diversity of L3 strains and reports phylogenetic variations that could inform clinical trials which evaluate the effectivity of new drugs/regimens or vaccine candidates.

Published

2022

17. Emergence of bedaquiline resistance in a high tuberculosis burden country

Author

Christian Utpatel, Florian P. Maurer, Maja Reimann, Sönke Andres, Ivan Barilar, Stefan Niemann, Matthias Merker, Valeriu Crudu, Christoph Lange, Jan Heyckendorf, Ana Donica, Dumitru Chesov, and Elena Chesov

Subjects

Pulmonary and Respiratory Medicine, Drug, medicine.medical_specialty, Tuberculosis, media_common.quotation_subject, Antitubercular Agents, Disease, Drug resistance, Pharmacology and Toxicology, Microbiology in the medical area, chemistry.chemical_compound, Internal medicine, Tuberculosis, Multidrug-Resistant, medicine, Mikrobiologi inom det medicinska området, Humans, Diarylquinolines, media_common, biology, business.industry, Mycobacterium tuberculosis, medicine.disease, biology.organism_classification, Farmakologi och toxikologi, Regimen, Cross-Sectional Studies, chemistry, Mycobacterium tuberculosis complex, Bedaquiline, business, Cohort study

Abstract

RationaleBedaquiline has been classified as a group A drug for the treatment of multidrug-resistant tuberculosis (MDR-TB) by the World Health Organization; however, globally emerging resistance threatens the effectivity of novel MDR-TB treatment regimens.ObjectivesWe analysed pre-existing and emerging bedaquiline resistance in bedaquiline-based MDR-TB therapies, and risk factors associated with treatment failure and death.MethodsIn a cross-sectional cohort study, we employed patient data, whole-genome sequencing (WGS) and phenotyping of Mycobacterium tuberculosis complex (MTBC) isolates. We could retrieve baseline isolates from 30.5% (62 out of 203) of all MDR-TB patients who received bedaquiline between 2016 and 2018 in the Republic of Moldova. This includes 26 patients for whom we could also retrieve a follow-up isolate.Measurements and main resultsAt baseline, all MTBC isolates were susceptible to bedaquiline. Among 26 patients with available baseline and follow-up isolates, four (15.3%) patients harboured strains which acquired bedaquiline resistance under therapy, while one (3.8%) patient was re-infected with a second bedaquiline-resistant strain. Treatment failure and death were associated with cavitary disease (p=0.011), and any additional drug prescribed in the bedaquiline-containing regimen with WGS-predicted resistance at baseline (OR 1.92 per unit increase, 95% CI 1.15–3.21; p=0.012).ConclusionsMDR-TB treatments based on bedaquiline require a functional background regimen to achieve high cure rates and to prevent the evolution of bedaquiline resistance. Novel MDR-TB therapies with bedaquiline require timely and comprehensive drug resistance monitoring.

Published

2022

18. MDR M. tuberculosis outbreak clone in Eswatini missed by Xpert has elevated bedaquiline resistance dated to the pre-treatment era

Author

Elisabeth Sanchez-Padilla, Nazir Ahmed Ismail, Thomas Kohl, Christian Utpatel, Patrick Beckert, Stefan Niemann, Claudio U. Köser, Harald Hoffmann, Sönke Andres, Robin M. Warren, Bouke C. de Jong, Marisa Klopper, Matthias Merker, Florian P. Maurer, Shaheed V. Omar, Katharina Kranzer, Maryline Bonnet, Bernhard Kerschberger, Viola Dreyer, Ivan Barilar, Elisa Ardizzoni, Birgit Schramm, Gugu Maphalala, Forschungszentrum Borstel - Research Center Borstel, German Center for Infection Research (DZIF), Heidelberg University, Epicentre [Paris] [Médecins Sans Frontières], University of Cambridge [UK] (CAM), National Institute for Communicable Diseases [Johannesburg] (NICD), University of Pretoria [South Africa], University of the Witwatersrand [Johannesburg] (WITS), Stellenbosch University, Institute of Tropical Medicine [Antwerp] (ITM), London School of Hygiene and Tropical Medicine (LSHTM), Universitaetsklinikum Hamburg-Eppendorf = University Medical Center Hamburg-Eppendorf [Hamburg] (UKE), Recherches Translationnelles sur le VIH et les maladies infectieuses endémiques et émergentes (TransVIHMI), Université Montpellier 1 (UM1)-Institut de Recherche pour le Développement (IRD)-Université de Yaoundé I-Université Cheikh Anta Diop [Dakar, Sénégal] (UCAD)-Institut National de la Santé et de la Recherche Médicale (INSERM), Infectious and Tropical Diseases Department [Montpellier], Institut de Recherche pour le Développement (IRD)-Centre Hospitalier Régional Universitaire [Montpellier] (CHRU Montpellier)-Institut National de la Santé et de la Recherche Médicale (INSERM), University of Namibia (UNAM), Parts of this work have been supported by the European Union TB-PAN-NET (FP7-223681) project, by Médecins Sans Frontières-Switzerland, and by German Center for Infection Research, Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) under Germanys Excellence Strategy – EXC 2167, and Leibniz Science Campus Evolutionary Medicine of the LUNG (EvoLUNG). The funders had no role in the study design, in the collection, analysis, and interpretation of the data, in the writing of the report, and in the decision to submit the paper for publication., European Project: 223681,EC:FP7:HEALTH,FP7-HEALTH-2007-B,TB PAN-NET(2009), Niemann, Stefan [0000-0002-6604-0684], and Apollo - University of Cambridge Repository

Subjects

0301 basic medicine, MESH: Mycobacterium tuberculosis, Antitubercular Agents, Drug resistance, Multidrug resistance, Disease Outbreaks, Clofazimine, chemistry.chemical_compound, Tuberculosis, Multidrug-Resistant, MESH: Disease Outbreaks, Diarylquinolines, MESH: Bacterial Proteins, Genetics (clinical), MESH: Microbial Sensitivity Tests, Resistance mutation, MESH: Diarylquinolines, Mycobacterium tuberculosis complex, Molecular Medicine, medicine.drug, MESH: Mutation, Tuberculosis, 030106 microbiology, Microbial Sensitivity Tests, Biology, 03 medical and health sciences, Bacterial Proteins, MESH: Eswatini, Genetics, medicine, Humans, Molecular Biology, MESH: Tuberculosis, Multidrug-Resistant, [SDV.GEN]Life Sciences [q-bio]/Genetics, MESH: Humans, Diagnostice escape, Research, MESH: Clone Cells, Resistance evolution, Treatment escape, Mycobacterium tuberculosis, rpoB, medicine.disease, biology.organism_classification, MESH: Antitubercular Agents, Virology, Clone Cells, Multiple drug resistance, MDR outbreak strains, 030104 developmental biology, chemistry, Treatment failure, Mutation, Bedaquiline, Eswatini

Abstract

Background Multidrug-resistant (MDR) Mycobacterium tuberculosis complex strains not detected by commercial molecular drug susceptibility testing (mDST) assays due to the RpoB I491F resistance mutation are threatening the control of MDR tuberculosis (MDR-TB) in Eswatini. Methods We investigate the evolution and spread of MDR strains in Eswatini with a focus on bedaquiline (BDQ) and clofazimine (CFZ) resistance using whole-genome sequencing in two collections ((1) national drug resistance survey, 2009–2010; (2) MDR strains from the Nhlangano region, 2014–2017). Results MDR strains in collection 1 had a high cluster rate (95%, 117/123 MDR strains) with 55% grouped into the two largest clusters (gCL3, n = 28; gCL10, n = 40). All gCL10 isolates, which likely emerged around 1993 (95% highest posterior density 1987–1998), carried the mutation RpoB I491F that is missed by commercial mDST assays. In addition, 21 (53%) gCL10 isolates shared a Rv0678 M146T mutation that correlated with elevated minimum inhibitory concentrations (MICs) to BDQ and CFZ compared to wild type isolates. gCL10 isolates with the Rv0678 M146T mutation were also detected in collection 2. Conclusion The high clustering rate suggests that transmission has been driving the MDR-TB epidemic in Eswatini for three decades. The presence of MDR strains in Eswatini that are not detected by commercial mDST assays and have elevated MICs to BDQ and CFZ potentially jeopardizes the successful implementation of new MDR-TB treatment guidelines. Measures to limit the spread of these outbreak isolates need to be implemented urgently.

Published

2020

19. Detection of low-frequency resistance-mediating SNPs in next-generation sequencing data of Mycobacterium tuberculosis complex strains with binoSNP

Author

Ivan Barilar, Viola Dreyer, Silke Feuerriegel, Christian Utpatel, Stefan Niemann, Thomas Kohl, and Matthias I. Gröschel

Subjects

0301 basic medicine, Genotype, Molecular biology, 030106 microbiology, Antitubercular Agents, lcsh:Medicine, Single-nucleotide polymorphism, Drug resistance, Computational biology, Microbial Sensitivity Tests, Biology, Microbiology, Polymorphism, Single Nucleotide, DNA sequencing, Article, 03 medical and health sciences, Gene Frequency, Drug Resistance, Multiple, Bacterial, Tuberculosis, Multidrug-Resistant, SNP, Humans, lcsh:Science, Allele frequency, Multidisciplinary, lcsh:R, Computational Biology, High-Throughput Nucleotide Sequencing, Reproducibility of Results, Genomics, Mycobacterium tuberculosis, biology.organism_classification, 030104 developmental biology, Mycobacterium tuberculosis complex, Mutation (genetic algorithm), Mutation, lcsh:Q

Abstract

Accurate drug resistance detection is key for guiding effective tuberculosis treatment. While genotypic resistance can be rapidly detected by molecular methods, their application is challenged by mixed mycobacterial populations comprising both susceptible and resistant cells (heteroresistance). For this, next-generation sequencing (NGS) based approaches promise the determination of variants even at low frequencies. However, accurate methods for a valid detection of low-frequency variants in NGS data are currently lacking. To tackle this problem, we developed the variant detection tool binoSNP which allows the determination of low-frequency single nucleotide polymorphisms (SNPs) in NGS datasets from Mycobacterium tuberculosis complex (MTBC) strains. By taking a reference-mapped file as input, binoSNP evaluates each genomic position of interest using a binomial test procedure. binoSNP was validated using in-silico, in-vitro, and serial patient isolates datasets comprising varying genomic coverage depths (100-500×) and SNP allele frequencies (1-30%). Overall, the detection limit for low-frequency SNPs depends on the combination of coverage depth and allele frequency of the resistance-associated mutation. binoSNP allows for valid detection of resistance associated SNPs at a 1% frequency with a coverage ≥400×. In conclusion, binoSNP provides a valid approach to detect low-frequency resistance-mediating SNPs in NGS data from clinical MTBC strains. It can be implemented in automated, end-user friendly analysis tools for NGS data and is a step forward towards individualized TB therapy.

Published

2020

20. No Evidence for Acquired Mutations Associated with Cytochrome bc1 Inhibitor Resistance in 13,559 Clinical Mycobacterium tuberculosis Complex Isolates

Author

Thomas Kohl, Jan Rybniker, Ivan Barilar, and Stefan Niemann

Subjects

Tuberculosis, Cytochrome, proton pump inhibitor, Lansoprazole, Antitubercular Agents, Microbial Sensitivity Tests, Mycobacterium tuberculosis, 03 medical and health sciences, Electron Transport Complex III, multidrug resistance, Pandemic, Tuberculosis, Multidrug-Resistant, medicine, Humans, Pharmacology (medical), Letter to the Editor, Pharmacology, 0303 health sciences, biology, 030306 microbiology, Cytochrome bc1, business.industry, biology.organism_classification, medicine.disease, Virology, 3. Good health, Multiple drug resistance, Infectious Diseases, Mycobacterium tuberculosis complex, biology.protein, business, cytochrome bc1, medicine.drug

Abstract

In 2017, tuberculosis (TB), caused by Mycobacterium tuberculosis, was responsible for an estimated 1.6 million deaths ([1][1]). The control of this pandemic is threatened because of a strong increase of multidrug-resistant M. tuberculosis (MDR-TB) ([2][2]). This emergence of difficult-to-treat

Published

2018

21. Towards a whole-genome sequence for rye (Secale cereale L.)

Author

Mihaela Martis, Martin Mascher, Eva Bauer, Uwe Scholz, Karl Schmid, Malthe Schmidt, Ivan Barilar, Sven Twardziok, Andres Gordillo, Bernd Hackauf, Thomas Schmutzer, Peer Wilde, Klaus F. X. Mayer, Chris-Carolin Schön, Viktor Korzun, and Heidrun Gundlach

Subjects

0301 basic medicine, Secale, DNA, Plant, Genotype, Sequence assembly, Plant Science, Bioinformatik och systembiologi, Synteny, Genome, Chromosomes, Plant, 03 medical and health sciences, Genetics, Triticeae, Comparative genomics, Whole genome sequencing, biology, Bioinformatics and Systems Biology, Shotgun sequencing, digestive, oral, and skin physiology, food and beverages, Genomics, Cell Biology, biology.organism_classification, ddc, 030104 developmental biology, Secale cereale L, rye, whole-genome shotgun sequencing, de novo genome assembly, single nucleotide variants, Rye600k genotyping array, high-density genetic map, rye genome zipper, diversity, selection signals, single nucleotide variants (SNVs), Genome, Plant, Reference genome

Abstract

We report on a whole-genome draft sequence of rye (Secale cereale L.). Rye is a diploid Triticeae species closely related to wheat and barley, and an important crop for food and feed in Central and Eastern Europe. Through whole-genome shotgun sequencing of the 7.9-Gbp genome of the winter rye inbred line Lo7 we obtained a de novo assembly represented by 1.29 million scaffolds covering a total length of 2.8 Gbp. Our reference sequence represents nearly the entire low-copy portion of the rye genome. This genome assembly was used to predict 27 784 rye gene models based on homology to sequenced grass genomes. Through resequencing of 10 rye inbred lines and one accession of the wild relative S. vavilovii, we discovered more than 90 million single nucleotide variants and short insertions/deletions in the rye genome. From these variants, we developed the high-density Rye600k genotyping array with 600 843 markers, which enabled anchoring the sequence contigs along a high-density genetic map and establishing a synteny-based virtual gene order. Genotyping data were used to characterize the diversity of rye breeding pools and genetic resources, and to obtain a genome-wide map of selection signals differentiating the divergent gene pools. This rye whole-genome sequence closes a gap in Triticeae genome research, and will be highly valuable for comparative genomics, functional studies and genome-based breeding in rye. Funding Agencies|German Federal Ministry of Education and Research (BMBF) within project RYE-SELECT [0315946A-E]

Published

2017

22. Phenotypic and genomic differentiation ofArabidopsis thalianaalong altitudinal gradients in the North Italian alps

Author

Ivan Barilar, Karl Schmid, Torsten Günther, and Christian Lampei

Subjects

education.field_of_study, Natural selection, Altitude, Ecology, Demographic history, Seed dispersal, Population, Genetic variation, Biology, education, Allele frequency, Local adaptation

Abstract

Altitudinal gradients represent short-range clines of environmental parameters like temperature, radiation, seasonality and pathogen abundance, which allows to study the footprints of natural selection in geographically close populations. We investigated phenotypic variation for frost resistance and light response in fiveArabidopsis thalianapopulations ranging from 580 to 2,350 meters altitude at two different valleys in the North Italian Alps. All populations were resequenced as pools and we used a Bayesian method to detect correlations between allele frequencies and altitude while accounting for sampling, pooled sequencing and the expected amount of shared drift among populations. The among population variation to frost resistance was not correlated with altitude. An anthocyanin deficiency causing a high leaf mortality was present in the highest population, which may be non-adaptive and potentially deleterious phenotypic variation. The genomic analysis revealed that the two high-altitude populations are more closely related than the geographically close low-altitude populations. A correlation of genetic variation with altitude revealed an enrichment of highly differentiated SNPs located in genes that are associated with biological processes like response to stress and light. We further identified regions with long blocks of presence absence variation suggesting a sweep-like pattern across populations. Our analysis indicate a complex interplay of local adaptation and a demographic history that was influenced by glaciation cycles and/or rapid seed dispersal by animals or other forces.

Published

2015

23. The global phylogenetic landscape and nosocomial spread of the multidrug-resistant opportunist Stenotrophomonas maltophilia

Author

Joerg Steinmann, Thomas Schwartz, Daniel Yero, Isidre Gibert, Conor J. Meehan, Oscar Conchillo-Solé, Matthias Steglich, John W. A. Rossen, Christian Utpatel, Ulrich E. Schaible, Margo Diricks, Christian F. Luz, Thomas Kohl, Isabell-Christin Scherer, Stefanie Kampmeier, Ifey Alio, Matthias I. Gröschel, Wolfgang R. Streit, Maha R. Farhat, Michael Kresken, Jan Rupp, Ivan Barilar, Ulrich Nübel, Xavier Daura, Stefan Niemann, Nurdyana Binte Abdul Rahman, Kai Zhou, Katrien De Bruyne, Aitor Gonzaga, Uwe Mamat, and Tjip S. van der Werf

Subjects

Genetics, 0303 health sciences, Phylogenetic tree, 030306 microbiology, Transmission (medicine), Lineage (evolution), Outbreak, Virulence, Biology, biology.organism_classification, Multiple drug resistance, 03 medical and health sciences, Monophyly, Stenotrophomonas maltophilia, 030304 developmental biology

Abstract

Recent studies portend a rising global spread and adaptation of human- or healthcare-associated pathogens. Here, we analysed an international collection of the emerging, multidrug-resistant, opportunistic pathogenStenotrophomonas maltophiliafrom 22 countries to infer population structure and clonality at a global level. We show that theS. maltophiliacomplex is divided into 23 monophyletic lineages, most of which harboured strains of all degrees of human virulence. Lineage Sm6 comprised the highest rate of human-associated strains, linked to key virulence and resistance genes. Transmission analysis identified potential outbreak events of genetically closely related strains isolated within days or weeks in the same hospitals.One Sentence SummaryTheS. maltophiliacomplex comprises genetically diverse, globally distributed lineages with evidence for intra-hospital transmission.