Your search keyword '"Vandelannoote, Koen"' showing total 31 results

1. Unraveling the intricacies of host-pathogen interaction through single-cell genomics

Author

Gioacchino, Emanuele, Vandelannoote, Koen, Ruberto, Anthony A., Popovici, Jean, and Cantaert, Tineke

Published

2024

2. Bacterial endosymbionts protect beneficial soil fungus from nematode attack

Author

Büttner, Hannah, Niehs, Sarah P., Vandelannoote, Koen, Cseresnyés, Zoltán, Dose, Benjamin, Richter, Ingrid, Gerst, Ruman, Figge, Marc Thilo, Stinear, Timothy P., Pidot, Sacha J., and Hertweck, Christian

Published

2021

3. Unstable chromosome rearrangements in Staphylococcus aureus cause phenotype switching associated with persistent infections

Author

Guérillot, Romain, Kostoulias, Xenia, Donovan, Liam, Li, Lucy, Carter, Glen P., Hachani, Abderrahman, Vandelannoote, Koen, Giulieri, Stefano, Monk, Ian R., Kunimoto, Mayu, Starrs, Lora, Burgio, Gaétan, Seemann, Torsten, Peleg, Anton Y., Stinear, Timothy P., and Howden, Benjamin P.

Published

2019

4. High performance Legionella pneumophila source attribution using genomics-based machine learning classification.

Author

Buultjens, Andrew H., Vandelannoote, Koen, Mercoulia, Karolina, Ballard, Susan, Sloggett, Clare, Howden, Benjamin P., Seemann, Torsten, and Stinear, Timothy P.

Subjects

*LEGIONELLA pneumophila, *LEGIONNAIRES' disease, *MACHINE learning, *DISEASE outbreaks, *INFECTIOUS disease transmission, *SHORT tandem repeat analysis, *STATISTICAL learning

Abstract

Fundamental to effective Legionnaires’ disease outbreak control is the ability to rapidly identify the environmental source(s) of the causative agent, Legionella pneumophila. Genomics has revolutionized pathogen surveillance, but L. pneumophila has a complex ecology and population structure that can limit source inference based on standard core genome phylogenetics. Here, we present a powerful machine learning approach that assigns the geographical source of Legionnaires’ disease outbreaks more accurately than current core genome comparisons. Models were developed upon 534 L. pneumophila genome sequences, including 149 genomes linked to 20 previously reported Legionnaires’ disease outbreaks through detailed case investigations. Our classification models were developed in a cross-validation framework using only environmental L. pneumophila genomes. Assignments of clinical isolate geographic origins demonstrated high predictive sensitivity and specificity of the models, with no false positives or false negatives for 13 out of 20 outbreak groups, despite the presence of within-outbreak polyclonal population structure. Analysis of the same 534-genome panel with a conventional phylogenomic tree and a core genome multi-locus sequence type allelic distance-based classification approach revealed that our machine learning method had the highest overall classification performance—agreement with epidemiological information. Our multivariate statistical learning approach maximizes the use of genomic variation data and is thus well-suited for supporting Legionnaires’ disease outbreak investigations. IMPORTANCE Identifying the sources of Legionnaires’ disease outbreaks is crucial for effective control. Current genomic methods, while useful, often fall short due to the complex ecology and population structure of Legionella pneumophila, the causative agent. Our study introduces a high-performing machine learning approach for more accurate geographical source attribution of Legionnaires’ disease outbreaks. Developed using cross-validation on environmental L. pneumophila genomes, our models demonstrate excellent predictive sensitivity and specificity. Importantly, this new approach outperforms traditional methods like phylogenomic trees and core genome multi-locus sequence typing, proving more efficient at leveraging genomic variation data to infer outbreak sources. Our machine learning algorithms, harnessing both core and accessory genomic variation, offer significant promise in public health settings. By enabling rapid and precise source identification in Legionnaires’ disease outbreaks, such approaches have the potential to expedite intervention efforts and curtail disease transmission. [ABSTRACT FROM AUTHOR]

Published

2024

5. An African Salmonella Typhimurium ST313 sublineage with extensive drug-resistance and signatures of host adaptation

Author

Van Puyvelde, Sandra, Pickard, Derek, Vandelannoote, Koen, Heinz, Eva, Barbé, Barbara, de Block, Tessa, Clare, Simon, Coomber, Eve L., Harcourt, Katherine, Sridhar, Sushmita, Lees, Emily A., Wheeler, Nicole E., Klemm, Elizabeth J., Kuijpers, Laura, Mbuyi Kalonji, Lisette, Phoba, Marie-France, Falay, Dadi, Ngbonda, Dauly, Lunguya, Octavie, Jacobs, Jan, Dougan, Gordon, and Deborggraeve, Stijn

Published

2019

6. Statistical modeling based on structured surveys of Australian native possum excreta harboring Mycobacterium ulcerans predicts Buruli ulcer occurrence in humans.

Author

Vandelannoote, Koen, Buultjens, Andrew H., Porter, Jessica L., Velink, Anita, Wallace, John R., Blasdell, Kim R., Dunn, Michael, Boyd, Victoria, Fyfe, Janet A. M., Tay, Ee Laine, Johnson, Paul D. R., Windecker, Saras M., Golding, Nick, and Stinear, Timothy P.

Subjects

*BURULI ulcer, *STATISTICAL models, *MYCOBACTERIUM, *EBOLA virus, *NEGLECTED diseases, *FECES

Abstract

Background: Buruli ulcer (BU) is a neglected tropical disease caused by infection of subcutaneous tissue with Mycobacterium ulcerans. BU is commonly reported across rural regions of Central and West Africa but has been increasing dramatically in temperate southeast Australia around the major metropolitan city of Melbourne, with most disease transmission occurring in the summer months. Previous research has shown that Australian native possums are reservoirs of M. ulcerans and that they shed the bacteria in their fecal material (excreta). Field surveys show that locales where possums harbor M. ulcerans overlap with human cases of BU, raising the possibility of using possum excreta surveys to predict the risk of disease occurrence in humans. Methods: We thus established a highly structured 12 month possum excreta surveillance program across an area of 350 km² in the Mornington Peninsula area 70 km south of Melbourne, Australia. The primary objective of our study was to assess using statistical modeling if M. ulcerans surveillance of possum excreta provided useful information for predicting future human BU case locations. Results: Over two sampling campaigns in summer and winter, we collected 2,282 possum excreta specimens of which 11% were PCR positive for M. ulcerans-specific DNA. Using the spatial scanning statistical tool SaTScan, we observed non-random, co-correlated clustering of both M. ulcerans positive possum excreta and human BU cases. We next trained a statistical model with the Mornington Peninsula excreta survey data to predict the future likelihood of human BU cases occurring in the region. By observing where human BU cases subsequently occurred, we show that the excreta model performance was superior to a null model trained using the previous year's human BU case incidence data (AUC 0.66 vs 0.55). We then used data unseen by the excreta-informed model from a new survey of 661 possum excreta specimens in Geelong, a geographically separate BU endemic area to the southwest of Melbourne, to prospectively predict the location of human BU cases in that region. As for the Mornington Peninsula, the excreta-based BU prediction model outperformed the null model (AUC 0.75 vs 0.50) and pinpointed specific locations in Geelong where interventions could be deployed to interrupt disease spread. Conclusions: This study highlights the One Health nature of BU by confirming a quantitative relationship between possum excreta shedding of M. ulcerans and humans developing BU. The excreta survey-informed modeling we have described will be a powerful tool for the efficient targeting of public health responses to stop BU. Funding: This research was supported by the National Health and Medical Research Council of Australia and the Victorian Government Department of Health (GNT1152807 and GNT1196396). [ABSTRACT FROM AUTHOR]

Published

2023

7. PERSISTENCE OF BURULI ULCER IN HISTORICAL FOCI OF KONGO CENTRAL PROVINCE, DR CONGO

Author

Phanzu, Delphin Mavinga, Elysée Kalundieko Luzolo, Nlemvo, Oscar Kiabanzawoko, Makuth, Nadine Mintsey Mi, Vandelannoote, Koen, Eddyani, Miriam, Suykerbuyk, Patrick, Portaels, Françoise, Jong, Bouke C. De, and Boelaert, Marleen

Published

2020

8. Low-Cost, Open-Source Device for High-Performance Fluorescence Detection of Isothermal Nucleic Acid Amplification Reactions.

Author

Buultjens, Andrew H., Vandelannoote, Koen, Sharkey, Liam K., Howden, Benjamin P., Monk, Ian R., Lee, Jean Y. H., and Stinear, Timothy P.

Published

2021

9. Multiple introductions and recent spread of the emerging human pathogen Mycobacterium ulcerans across Africa Running title: Population genomics of M. ulcerans in Africa

Author

Vandelannoote, Koen, Meehan, Conor, Eddyani, Miriam, Affolabi, Dissou, Phanzu, Delphin, Eyangoh, Sara, Jordaens, Kurt, Portaels, Françoise, Mangas, Kirstie, Seemann, Torsten, Marsollier, Laurent, Marion, Estelle, Chauty, Annick, Landier, Jordi, Fontanet, Arnaud, Leirs, Herwig, Stinear, Timothy, de Jong, Bouke, Bernardo, Elizabeth, Evolutionary Ecology Group [Antwerp, Belgium], University of Antwerp (UA), Department of Biomedical Sciences [Antwerp], Institute of Tropical Medicine [Antwerp] (ITM), Laboratoire de Référence des Mycobactéries [Cotonou, Benin], Hôpital Centre LAZARET [Cotonou, Bénin], Projet Ulcère de Buruli [Kimpese, RD Congo], Institut Médical Evangélique [Kimpese, RD Congo], Centre Pasteur du Cameroun, Réseau International des Instituts Pasteur (RIIP), Invertebrates section, Royal Museum for Central Africa [Tervuren] (RMCA), Department of Microbiology and Immunology, University of Melbourne, Victorian Life Sciences Computation Initiative, Centre de Recherche en Cancérologie Nantes-Angers (CRCNA), Centre Hospitalier Universitaire d'Angers (CHU Angers), PRES Université Nantes Angers Le Mans (UNAM)-PRES Université Nantes Angers Le Mans (UNAM)-Hôtel-Dieu de Nantes-Institut National de la Santé et de la Recherche Médicale (INSERM)-Hôpital Laennec-Centre National de la Recherche Scientifique (CNRS)-Faculté de Médecine d'Angers-Centre hospitalier universitaire de Nantes (CHU Nantes), CDTUB de Pobè, Service de Mycobactériologie [Yaoundé, Cameroun], Réseau International des Instituts Pasteur (RIIP)-Réseau International des Instituts Pasteur (RIIP), Epidémiologie des Maladies Emergentes - Emerging Diseases Epidemiology, Pasteur-Cnam Risques infectieux et émergents (PACRI), Institut Pasteur [Paris] (IP)-Conservatoire National des Arts et Métiers [CNAM] (CNAM), HESAM Université - Communauté d'universités et d'établissements Hautes écoles Sorbonne Arts et métiers université (HESAM)-HESAM Université - Communauté d'universités et d'établissements Hautes écoles Sorbonne Arts et métiers université (HESAM)-Institut Pasteur [Paris] (IP)-Conservatoire National des Arts et Métiers [CNAM] (CNAM), HESAM Université - Communauté d'universités et d'établissements Hautes écoles Sorbonne Arts et métiers université (HESAM)-HESAM Université - Communauté d'universités et d'établissements Hautes écoles Sorbonne Arts et métiers université (HESAM), and KV was supported by a PhD-grant of the Flemish Interuniversity Council - University Development Cooperation (Belgium). BdJ & CM were supported by the European Research Council-INTERRUPTB starting grant (nr.311725). TPS was supported by a fellowship from the National Health and Medical Research Council of Australia (1105525). Funding for this work was provided by the Department of Economy, Science and Innovation of the Flemish Government, the Stop Buruli Consortium supported by the UBS Optimus Foundation, and the Fund for Scientific Research Flanders (Belgium) (FWO grant n° G.0321.07N). The computational resources used in this work were provided by the HPC core facility CalcUA and VSC (Flemish Supercomputer Center), funded by the University of Antwerp, the Hercules Foundation and the Flemish Government - department EWI. Aspects of the research in Cameroon and Benin were funded by the Raoul Follereau Fondation France.

Subjects

Phylogeography, Bacterial pathogen transmission, [SDV.CAN] Life Sciences [q-bio]/Cancer, Microbial population genomics, Molecular evolution, [SDV.CAN]Life Sciences [q-bio]/Cancer

Abstract

International audience; Buruli ulcer (BU) is an insidious neglected tropical disease. Cases are reported around the world but the rural regions of West and Central Africa are most affected. How BU is transmitted and spreads has remained a mystery, even though the causative agent, Mycobacterium ulcerans, has been known for more than 70 years. Here, using the tools of population genomics, wereconstruct the evolutionary history of M. ulcerans by comparing 165 isolates spanning 48 years and representing 11 endemic countries across Africa. The genetic diversity of African M. ulcerans was found to be restricted due to the bacterium’s slow substitution rate coupled with its relatively recent origin. We identified two specific M. ulcerans lineages within the African continent, and inferred that M. ulcerans lineage Mu_A1 existed in Africa for several hundreds of years, unlike lineage Mu_A2, which was introduced much more recently, approximately during the 19th century. Additionally, we observed that specific M. ulcerans epidemic Mu_A1 clones were introduced during the same time period in the three hydrological basins that were well covered in our panel. The estimated time span of the introduction events coincides with the Neoimperialism period, during which time the European colonial powers divided the African continent among themselves. Using this temporal association, and in the absence of a known BU reservoir or –vector on the continent, we postulate that the so-called “Scramble for Africa” played a significant role in the spread of the disease across the continent.

Published

2017

10. Introduction of Mycobacterium ulcerans disease in the Bankim Health District of Cameroon follows damming of the Mapé River.

Author

Vandelannoote, Koen, Pluschke, Gerd, Bolz, Miriam, Bratschi, Martin W., Kerber, Sarah, Stinear, Timothy P., and de Jong, Bouke C.

Subjects

*BURULI ulcer, *SOFT tissue infections, *MYCOBACTERIUM, *MYCOBACTERIAL diseases, *REMOTE-sensing images, *SKIN diseases, *MYCOPLASMA, *MYCOBACTERIA

Abstract

Buruli ulcer (BU) is an emerging ulcerative skin disease caused by infection with Mycobacterium ulcerans. Efforts to control its spread have been hampered by our limited understanding of M. ulcerans reservoirs and transmission, and the factors leading to the emergence of BU disease in a particular region. In this report we investigate an anecdotal link between damming the Mapé River in Cameroon and the emergence of BU in the Health Districts bordering Lake Bankim, the impoundment created by the Mapé dam. We used bacterial population genomics and molecular dating to find compelling support for a 2000 M. ulcerans introduction event that followed about 10 years after the filling of the newly created impoundment in 1988. We compared the genomic reconstructions with high-resolution satellite imagery to investigate what major environmental alterations might have driven the emergence of the new focus. Author summary: Buruli ulcer is a destructive skin and soft tissue infection caused by Mycobacterium ulcerans. Although the disease is not fatal, the infection can often leave patients with significant cosmetic and functional damage to limbs. Currently, one of the major hurdles facing Buruli ulcer control is our incomplete understanding of the factors leading to the emergence of disease in a particular region. In this report we investigate an anecdotal link between the damming of the Mapé River in Cameroon and the emergence of Buruli ulcer in the Health Districts bordering the impoundment created by the Mapé dam. We compare the genome sequences of M. ulcerans isolates recovered from regional Buruli ulcer patients that were identified in a previous molecular epidemiology study. Additionally, we investigate historic satellite imagery to quantify changes in land cover use that followed damming the river. The appearance of Buruli ulcer in the region was found to follow about ten years after the 1988 damming of the Mapé River, supporting the idea that alterations to landscape hydrology can increase BU incidence. While this temporal association does not infer causation, this research helps define the ecological risk factors linked to the spread of BU. [ABSTRACT FROM AUTHOR]

Published

2020

11. Unveiling the evolutionary history & molecular epidemiology of **Mycobacterium ulcerans**

Author

Vandelannoote, Koen

Subjects

Biology

Published

2016

12. Mycobacterium ulcerans Population Genomics To Inform on the Spread of Buruli Ulcer across Central Africa.

Author

Vandelannoote, Koen, Phanzu, Delphin Mavinga, Kibadi, Kapay, Eddyani, Miriam, Meehan, Conor J., Jordaens, Kurt, Leirs, Herwig, Portaels, Françoise, Stinear, Timothy P., Harris, Simon R., and de Jong, Bouke C.

Published

2019

13. Comparative Genomics Shows That Mycobacterium ulcerans Migration and Expansion Preceded the Rise of Buruli Ulcer in Southeastern Australia.

Author

Buultjens, Andrew H., Vandelannoote, Koen, Meehan, Conor J., Eddyani, Miriam, de Jong, Bouke C., Fyfe, Janet A. M., Globan, Maria, Tobias, Nicholas J., Porter, Jessica L., Tomita, Takehiro, Tay, Ee Laine, Seemann, Torsten, Howden, Benjamin P., Johnson, Paul D. R., and Stinear, Timothy P.

Subjects

*GENOMICS, *MYCOBACTERIUM, *BURULI ulcer, *PHYLOGEOGRAPHY, *ENDEMIC diseases

Abstract

Since 2000, cases of the neglected tropical disease Buruli ulcer, caused by infection with Mycobacterium ulcerans, have increased 100-fold around Melbourne (population 4.4 million), the capital of Victoria, in temperate southeastern Australia. The reasons for this increase are unclear. Here, we used whole-genome sequence comparisons of 178 M. ulcerans isolates obtained primarily from human clinical specimens, spanning 70 years, to model the population dynamics of this pathogen from this region. Using phylogeographic and advanced Bayesian phylogenetic approaches, we found that there has been a migration of the pathogen from the east end of the state, beginning in the 1980s, 300 km west to the major human population center around Melbourne. This move was then followed by a signifi- cant increase in M. ulcerans population size. These analyses inform our thinking around Buruli ulcer transmission and control, indicating that M. ulcerans is introduced to a new environment and then expands, rather than it being from the awakening of a quiescent pathogen reservoir. IMPORTANCE Buruli ulcer is a destructive skin and soft tissue infection caused by Mycobacterium ulcerans and is characterized by progressive skin ulceration, which can lead to permanent disfigurement and long-term disability. Despite the majority of disease burden occurring in regions of West and central Africa, Buruli ulcer is also becoming increasingly common in southeastern Australia. Major impediments to controlling disease spread are incomplete understandings of the environmental reservoirs and modes of transmission of M. ulcerans. The significance of our research is that we used genomics to assess the population structure of this pathogen at the Australian continental scale. We have then reconstructed a historical bacterial spread and modeled demographic dynamics to reveal bacterial population expansion across southeastern Australia. These findings provide explanations for the observed epidemiological trends with Buruli ulcer and suggest possible management to control disease spread. [ABSTRACT FROM AUTHOR]

Published

2018

14. Bacterial diversity in Buruli ulcer skin lesions: Challenges in the clinical microbiome analysis of a skin disease.

Author

Van Leuvenhaege, Chloé, Vandelannoote, Koen, Affolabi, Dissou, Portaels, Françoise, Sopoh, Ghislain, de Jong, Bouke C., Eddyani, Miriam, and Meehan, Conor J.

Subjects

*BURULI ulcer, *BACTERIAL diversity, *SKIN diseases, *MYCOBACTERIAL diseases, *LENGTH of stay in hospitals

Abstract

Background: Buruli ulcer (BU) is an infectious disease caused by Mycobacterium ulcerans and considered the third most prevalent mycobacterial disease in humans. Secondary bacterial infections in open BU lesions are the main cause of pain, delayed healing and systemic illness, resulting in prolonged hospital stay. Thus, understanding the diversity of bacteria, termed the microbiome, in these open lesions is important for proper treatment. However, adequately studying the human microbiome in a clinical setting can prove difficult when investigating a neglected tropical skin disease due to its rarity and the setting. Methodology/Principal findings: Using 16S rRNA sequencing, we determined the microbial composition of 5 BU lesions, 3 non-BU lesions and 3 healthy skin samples. Although no significant differences in diversity were found between BU and non-BU lesions, the former were characterized by an increase of Bacteroidetes compared to the non-BU wounds and the BU lesions also contained significantly more obligate anaerobes. With this molecular-based study, we were also able to detect bacteria that were missed by culture-based methods in previous BU studies. Conclusions/Significance: Our study suggests that BU may lead to changes in the skin bacterial community within the lesions. However, in order to determine if such changes hold true across all BU cases and are either a cause or consequence of a specific wound environment, further microbiome studies are necessary. Such skin microbiome analysis requires large sample sizes and lesions from the same body site in many patients, both of which can be difficult for a rare disease. Our study proposes a pipeline for such studies and highlights several drawbacks that must be considered if microbiome analysis is to be utilized for neglected tropical diseases. [ABSTRACT FROM AUTHOR]

Published

2017

15. Multiple Introductions and Recent Spread of the Emerging Human Pathogen Mycobacterium ulcerans across Africa.

Author

Vandelannoote, Koen, Meehan, Conor J., Eddyani, Miriam, Affolabi, Dissou, Phanzu, Delphin Mavinga, Eyangoh, Sara, Jordaens, Kurt, Portaels, Françoise, Mangas, Kirstie, Seemann, Torsten, Marsollier, Laurent, Marion, Estelle, Chauty, Annick, Landier, Jordi, Fontanet, Arnaud, Leirs, Herwig, Stinear, Timothy P., and de Jong, Bouke C.

Subjects

*BURULI ulcer, *MYCOBACTERIUM, *PATHOGENIC microorganisms, *TROPICAL medicine, *METAGENOMICS, *BIOLOGICAL evolution

Abstract

Buruli ulcer (BU) is an insidious neglected tropical disease. Cases are reported around the world but the rural regions of West and Central Africa are most affected. How BU is transmitted and spreads has remained a mystery, even though the causative agent, Mycobacterium ulcerans, has been known for more than 70 years. Here, using the tools of population genomics, we reconstruct the evolutionary history of M. ulcerans by comparing 165 isolates spanning 48 years and representing 11 endemic countries across Africa. The genetic diversity of African M. ulcerans was found to be restricted due to the bacterium's slow substitution rate coupled with its relatively recent origin. We identified two specific M. ulcerans lineages within the African continent, and inferred that M. ulcerans lineage Mu_A1 existed in Africa for several hundreds of years, unlike lineage Mu_A2, which was introduced much more recently, approximately during the 19th century. Additionally, we observed that specific M. ulcerans epidemic Mu_A1 clones were introduced during the same time period in the three hydrological basins that were well covered in our panel. The estimated time span of the introduction events coincides with the Neo-imperialism period, during which time the European colonial powers divided the African continent among themselves. Using this temporal association, and in the absence of a known BU reservoir or -vector on the continent, we postulate that the so-called "Scramble for Africa" played a significant role in the spread of the disease across the continent. [ABSTRACT FROM AUTHOR]

Published

2017

16. A Genomic Approach to Resolving Relapse versus Reinfection among Four Cases of Buruli Ulcer.

Author

Eddyani, Miriam, Vandelannoote, Koen, Meehan, Conor J., Bhuju, Sabin, Porter, Jessica L., Aguiar, Julia, Seemann, Torsten, Jarek, Michael, Singh, Mahavir, Portaels, Françoise, Stinear, Timothy P., and de Jong, Bouke C.

Subjects

*NUCLEOTIDE sequencing, *BURULI ulcer, *GENOMICS, *MYCOBACTERIUM, *ANTIBIOTICS

Abstract

Background: Increased availability of Next Generation Sequencing (NGS) techniques allows, for the first time, to distinguish relapses from reinfections in patients with multiple Buruli ulcer (BU) episodes. Methodology: We compared the number and location of single nucleotide polymorphisms (SNPs) identified by genomic screening between four pairs of Mycobacterium ulcerans isolates collected at the time of first diagnosis and at recurrence, derived from a collection of almost 5000 well characterized clinical samples from one BU treatment center in Benin. Principal Findings: The findings suggest that after surgical treatment—without antibiotics—the second episodes were due to relapse rather than reinfection. Since specific antibiotics were introduced for the treatment of BU, the one patient with a culture available from both disease episodes had M. ulcerans isolates with a genomic distance of 20 SNPs, suggesting the patient was most likely reinfected rather than having a relapse. Conclusions: To our knowledge, this study is the first to study recurrences in M. ulcerans using NGS, and to identify exogenous reinfection as causing a recurrence of BU. The occurrence of reinfection highlights the contribution of ongoing exposure to M. ulcerans to disease recurrence, and has implications for vaccine development. [ABSTRACT FROM AUTHOR]

Published

2015

17. Whole Genome Comparisons Suggest Random Distribution of Mycobacterium ulcerans Genotypes in a Buruli Ulcer Endemic Region of Ghana.

Author

Ablordey, Anthony S., Vandelannoote, Koen, Frimpong, Isaac A., Ahortor, Evans K., Amissah, Nana Ama, Eddyani, Miriam, Durnez, Lies, Portaels, Françoise, de Jong, Bouke C., Leirs, Herwig, Porter, Jessica L., Mangas, Kirstie M., Lam, Margaret M. C., Buultjens, Andrew, Seemann, Torsten, Tobias, Nicholas J., and Stinear, Timothy P.

Subjects

*DISTRIBUTION (Probability theory), *BURULI ulcer, *GENOTYPES, *SINGLE nucleotide polymorphisms, *MYCOBACTERIUM, *ANIMAL mechanics

Abstract

Efforts to control the spread of Buruli ulcer – an emerging ulcerative skin infection caused by Mycobacterium ulcerans - have been hampered by our poor understanding of reservoirs and transmission. To help address this issue, we compared whole genomes from 18 clinical M. ulcerans isolates from a 30km2 region within the Asante Akim North District, Ashanti region, Ghana, with 15 other M. ulcerans isolates from elsewhere in Ghana and the surrounding countries of Ivory Coast, Togo, Benin and Nigeria. Contrary to our expectations of finding minor DNA sequence variations among isolates representing a single M. ulcerans circulating genotype, we found instead two distinct genotypes. One genotype was closely related to isolates from neighbouring regions of Amansie West and Densu, consistent with the predicted local endemic clone, but the second genotype (separated by 138 single nucleotide polymorphisms [SNPs] from other Ghanaian strains) most closely matched M. ulcerans from Nigeria, suggesting another introduction of M. ulcerans to Ghana, perhaps from that country. Both the exotic genotype and the local Ghanaian genotype displayed highly restricted intra-strain genetic variation, with less than 50 SNP differences across a 5.2Mbp core genome within each genotype. Interestingly, there was no discernible spatial clustering of genotypes at the local village scale. Interviews revealed no obvious epidemiological links among BU patients who had been infected with identical M. ulcerans genotypes but lived in geographically separate villages. We conclude that M. ulcerans is spread widely across the region, with multiple genotypes present in any one area. These data give us new perspectives on the behaviour of possible reservoirs and subsequent transmission mechanisms of M. ulcerans. These observations also show for the first time that M. ulcerans can be mobilized, introduced to a new area and then spread within a population. Potential reservoirs of M. ulcerans thus might include humans, or perhaps M. ulcerans-infected animals such as livestock that move regularly between countries. Author Summary: In this study we use the power of whole genome sequence comparisons to track the spread of Mycobacterium ulcerans, the causative agent of Buruli ulcer, through several villages in the Ashanti region of Ghana, providing new insights on the behaviour of this enigmatic and emerging pathogen. [ABSTRACT FROM AUTHOR]

Published

2015

18. Standardization of a TaqMan-Based Real-Time PCR for the Detection of Mycobacterium tuberculosis-Complex in Human Sputum.

Author

Barletta, Francesca, Vandelannoote, Koen, Collantes, Jimena, Evans, Carlton A., Arévalo, Jorge, and Rigouts, Leen

Published

2014

19. Investigating the Role of Free-living Amoebae as a Reservoir for Mycobacterium ulcerans.

Author

Amissah, Nana Ama, Gryseels, Sophie, Tobias, Nicholas J., Ravadgar, Bahram, Suzuki, Mitsuko, Vandelannoote, Koen, Durnez, Lies, Leirs, Herwig, Stinear, Timothy P., Portaels, Françoise, Ablordey, Anthony, and Eddyani, Miriam

Subjects

AMOEBA, MYCOBACTERIUM, BURULI ulcer, TRANSMISSION electron microscopy, AQUATIC habitats

Abstract

Background: The reservoir and mode of transmission of Mycobacterium ulcerans, the causative agent of Buruli ulcer, still remain a mystery. It has been suggested that M. ulcerans persists with difficulty as a free-living organism due to its natural fragility and inability to withstand exposure to direct sunlight, and thus probably persists within a protective host environment. Methodology/Principal Findings: We investigated the role of free-living amoebae as a reservoir of M. ulcerans by screening the bacterium in free-living amoebae (FLA) cultures isolated from environmental specimens using real-time PCR. We also followed the survival of M. ulcerans expressing green fluorescence protein (GFP) in Acanthameoba castellanii by flow cytometry and observed the infected cells using confocal and transmission electron microscopy for four weeks in vitro. IS2404 was detected by quantitative PCR in 4.64% of FLA cultures isolated from water, biofilms, detritus and aerosols. While we could not isolate M. ulcerans, 23 other species of mycobacteria were cultivated from inside FLA and/or other phagocytic microorganisms. Laboratory experiments with GFP-expressing M. ulcerans in A. castellani trophozoites for 28 days indicated the bacteria did not replicate inside amoebae, but they could remain viable at low levels in cysts. Transmission electron microscopy of infected A. castellani confirmed the presence of bacteria within both trophozoite vacuoles and cysts. There was no correlation of BU notification rate with detection of the IS2404 in FLA (r = 0.07, n = 539, p = 0.127). Conclusion/Significance: This study shows that FLA in the environment are positive for the M. ulcerans insertion sequence IS2404. However, the detection frequency and signal strength of IS2404 positive amoabae was low and no link with the occurrence of BU was observed. We conclude that FLA may host M. ulcerans at low levels in the environment without being directly involved in the transmission to humans. Author Summary: Mycobacterium ulcerans, the causative agent of Buruli ulcer (BU) is an environmental pathogen known to reside in aquatic habitat. However, the reservoir and modes of transmission to humans still remain unknown. M. ulcerans can probably not live freely due to its natural fragility and inability to withstand exposure to direct sunlight. This study investigated the hypothesis that free-living amoebae (FLA) can serve as a reservoir of M. ulcerans by testing for its presence in amoebae isolated from water bodies in BU endemic and non-endemic communities and whether the pathogen can remain viable when experimentally infected in amoebae in the laboratory. We detected only one (IS2404) of the three (IS2606 and KRB) targets for the presence of M. ulcerans in amoebae cultures and found no correlation between its presence in the environment and BU notification rate. M. ulcerans remained viable at low levels in amoebae for 28 days in vitro. We therefore conclude that FLA may host M. ulcerans at low levels in the environment without being directly involved in the transmission to humans. [ABSTRACT FROM AUTHOR]

Published

2014

20. Insertion Sequence Element Single Nucleotide Polymorphism Typing Provides Insights into the Population Structure and Evolution of Mycobacterium ulcerans across Africa.

Author

Vandelannoote, Koen, Jordaens, Kurt, Bomans, Pieter, Leirs, Herwig, Durnez, Lies, Affolabi, Dissou, Sopoh, Ghislain, Aguiar, Julia, Maving Phanzu, Delphin, Kibadi, Kapay, Eyangoh, Sara, Bayonne Manou, Louis, Odame Phillips, Richard, Adjei, Ohene, Ablordey, Anthony, Rigouts, Leen, Portaels, Françoise, Eddyani, Miriam, and de Jong, Bouke C.

Subjects

*SINGLE nucleotide polymorphisms, *BURULI ulcer, *PATHOGENIC microorganisms, *MYCOBACTERIUM, *DNA insertion elements, *PHYLOGEOGRAPHY

Abstract

Buruli ulcer is an indolent, slowly progressing necrotizing disease of the skin caused by infection with Mycobacterium ulcerans. In the present study, we applied a redesigned technique to a vast panel of M. ulcerans disease isolates and clinical samples originating from multiple African disease foci in order to (i) gain fundamental insights into the population structure and evolutionary history of the pathogen and (ii) disentangle the phylogeographic relationships within the genetically conserved cluster of African M. ulcerans. Our analyses identified 23 different African insertion sequence element single nucleotide polymorphism (ISE-SNP) types that dominate in different areas where Buruli ulcer is endemic. These ISE-SNP types appear to be the initial stages of clonal diversification from a common, possibly ancestral ISE-SNP type. ISE-SNP types were found unevenly distributed over the greater West African hydrological drainage basins. Our findings suggest that geographical barriers bordering the basins to some extent prevented bacterial gene flow between basins and that this resulted in independent focal transmission clusters associated with the hydrological drainage areas. Different phylogenetic methods yielded two well-supported sister clades within the African ISE-SNP types. The ISE-SNP types from the "pan-African clade" were found to be widespread throughout Africa, while the ISE-SNP types of the "Gabonese/Cameroonian clade" were much rarer and found in a more restricted area, which suggested that the latter clade evolved more recently. Additionally, the Gabonese/Cameroonian clade was found to form a strongly supported monophyletic group with Papua New Guinean ISE-SNP type 8, which is unrelated to other Southeast Asian ISE-SNP types. [ABSTRACT FROM AUTHOR]

Published

2014

21. Amoebae as Potential Environmental Hosts for Mycobacterium ulcerans and Other Mycobacteria, but Doubtful Actors in Buruli Ulcer Epidemiology.

Author

Gryseels, Sophie, Amissah, Diana, Durnez, Lies, Vandelannoote, Koen, Leirs, Herwig, De Jonckheere, Johan, Silva, Manuel T., Portaels, Françoise, Ablordey, Anthony, and Eddyani, Miriam

Subjects

BURULI ulcer, MYCOBACTERIA, AMOEBA, MYCOBACTERIUM, EPIDEMIOLOGY, ENVIRONMENTAL sampling, WATER sampling

Abstract

Background: The reservoir and mode of transmission of Mycobacterium ulcerans, the causative agent of Buruli ulcer, remain unknown. Ecological, genetic and epidemiological information nonetheless suggests that M. ulcerans may reside in aquatic protozoa. Methodology/Principal Findings: We experimentally infected Acanthamoeba polyphaga with M. ulcerans and found that the bacilli were phagocytised, not digested and remained viable for the duration of the experiment. Furthermore, we collected 13 water, 90 biofilm and 45 detritus samples in both Buruli ulcer endemic and non-endemic communities in Ghana, from which we cultivated amoeboid protozoa and mycobacteria. M. ulcerans was not isolated, but other mycobacteria were as frequently isolated from intracellular as from extracellular sources, suggesting that they commonly infect amoebae in nature. We screened the samples as well as the amoeba cultures for the M. ulcerans markers IS2404, IS2606 and KR-B. IS2404 was detected in 2% of the environmental samples and in 4% of the amoeba cultures. The IS2404 positive amoeba cultures included up to 5 different protozoan species, and originated both from Buruli ulcer endemic and non-endemic communities. Conclusions/Significance: This is the first report of experimental infection of amoebae with M. ulcerans and of the detection of the marker IS2404 in amoeba cultures isolated from the environment. We conclude that amoeba are potential natural hosts for M. ulcerans, yet remain sceptical about their implication in the transmission of M. ulcerans to humans and their importance in the epidemiology of Buruli ulcer. Author Summary: Buruli ulcer (BU) is a devastating skin disease caused by Mycobacterium ulcerans, an environmental bacterium that is probably linked to slow-running water. It is unlikely to occur free-living, but even though M. ulcerans DNA has been detected in quite a few different organisms (with most studies focusing on insects), it is still not clear what its real reservoir is. Amoeboid protozoa, inhabitants of biofilms in slow flowing water, are good candidates since all previously tested mycobacteria are resistant to the digestion by these macrophage-like organisms. In this paper we demonstrate that M. ulcerans can indeed infect Acanthamoeba polyphaga in the lab, and remain viable intracellularly. We also collected water, biofilm and detritus samples in BU endemic and non-endemic regions in Ghana. We found that several mycobacteria species commonly occur intracellularly in protozoa in these environments. Amoebae were isolated from almost all samples, and an M. ulcerans marker (IS2404) was detected in 4% of the amoeba cultures. We conclude that amoebae are potential hosts for M. ulcerans. However, because these IS2404 positive amoebae originated from both BU endemic and non-endemic areas, we remain sceptical about their implication in the transmission of M. ulcerans to humans. [ABSTRACT FROM AUTHOR]

Published

2012

22. Application of real-time PCR in Ghana, a Buruli ulcer-endemic country, confirms the presence of Mycobacterium ulcerans in the environment.

Author

Vandelannoote, Koen, Durnez, Lies, Amissah, Diana, Gryseels, Sophie, Dodoo, Alfred, Yeboah, Shirley, Addo, Phyllis, Eddyani, Miriam, Leirs, Herwig, Ablordey, Anthony, and Portaels, Françoise

Subjects

*POLYMERASE chain reaction, *POLYMERIZATION, *MYCOBACTERIUM, *MYCOBACTERIA, *ULCERS, *MAMMALS, *MICROBIOLOGY, *BIOLOGY

Abstract

This study reports the first successful application of real-time PCR for the detection of Mycobacterium ulcerans, the causative agent of Buruli ulcer (BU), in Ghana, a BU-endemic country. Environmental samples and organs of small mammals were analyzed. The real-time PCR assays confirmed the presence of M. ulcerans in a water sample collected in a BU-endemic village in the Ashanti Region. [ABSTRACT FROM AUTHOR]

Published

2010

23. Correction: Whole Genome Comparisons Suggest Random Distribution of Mycobacterium ulcerans Genotypes in a Buruli Ulcer Endemic Region of Ghana.

Author

Ablordey, Anthony S., Vandelannoote, Koen, Frimpong, Isaac A., Ahortor, Evans K., Amissah, Nana Ama, Eddyani, Miriam, Durnez, Lies, Portaels, Françoise, de Jong, Bouke C., Leirs, Herwig, Porter, Jessica L., Mangas, Kirstie M., Lam, Margaret M. C., Buultjens, Andrew, Seemann, Torsten, Tobias, Nicholas J., and Stinear, Timothy P.

Subjects

*BURULI ulcer, *DISTRIBUTION (Probability theory), *MYCOBACTERIUM, *GENOTYPES, *MYCOBACTERIA, *GENOMES

Abstract

This document is a correction notice for an article on the distribution of Mycobacterium ulcerans genotypes in a region of Ghana affected by Buruli ulcer. It corrects an error in Table 1 of the article, specifically in the "ENA" column. The corrected table is provided. The document also includes a list of individuals and their corresponding data, collected as part of a study, from various locations in Ghana and Cote d'Ivoire. Additionally, it provides a table of information about different strains of bacteria collected from various locations in Africa, including Nigeria, Democratic Republic of the Congo, and Ghana. This information can be valuable for researchers studying bacterial strains and their geographical distribution in Africa. [Extracted from the article]

Published

2015

24. Non-toxigenic Corynebacterium diphtheriae in hallux ulceration.

Author

Delvallez, Gauthier, Badell, Edgar, Cheng, Sokleaph, Soda Meng, Tong, Vivandet, Norman, Judy, Toubiana, Julie, Vandelannoote, Koen, Bañuls, Anne-Laure, Hide, Mallorie, and Brisse, Sylvain

Subjects

*CORYNEBACTERIUM, *SKIN infections, *DIPHTHERIA, *WOUND healing, *CAMBODIANS

Abstract

Introduction: Toxigenic Corynebacterium diphtheriae causes classical diphtheria. Skin infections by toxigenic or non-toxigenic Corynebacterium diphtheriae are prevalent in the tropics but are rarely reported. Case presentation: We report the identification of a non-toxigenic Corynebacterium diphtheriae (biovar Gravis) isolate in a 52-year-old Cambodian male. The patient presented purulent and non-healing ulcerations on the right hallux. The wound has healed after 7 days of antibiotic therapy with a favourable outcome. Conclusions: This case represents, to our knowledge, the first report of Corynebacterium diphtheriae in Cambodia in the last 10 years, and highlights the lack of diagnosis and notifications of diphtheria. It is important to raise awareness among clinicians and to set up diphtheria surveillance in Cambodia. [ABSTRACT FROM AUTHOR]

Published

2022

25. Genomic oropharyngeal Neisseria surveillance detects MALDI-TOF MS species misidentifications and reveals a novel Neisseria cinerea clade.

Author

de Block T, De Baetselier I, Van den Bossche D, Abdellati S, Gestels Z, Laumen JGE, Van Dijck C, Vanbaelen T, Claes N, Vandelannoote K, Kenyon C, Harrison O, and Santhini Manoharan-Basil S

Subjects

Humans, Neisseria cinerea genetics, Phylogeny, Neisseria classification, Neisseria genetics, Neisseria isolation & purification, Belgium, Neisseria meningitidis genetics, Neisseria meningitidis classification, Neisseria meningitidis isolation & purification, Neisseriaceae Infections microbiology, Neisseriaceae Infections diagnosis, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization methods, Oropharynx microbiology, Whole Genome Sequencing, Multilocus Sequence Typing methods, Genome, Bacterial

Abstract

Introduction. Commensal Neisseria spp. are highly prevalent in the oropharynx as part of the healthy microbiome. N. meningitidis can colonise the oropharynx too from where it can cause invasive meningococcal disease. To identify N. meningitidis , clinical microbiology laboratories often rely on Matrix Assisted Laser Desorption/Ionisation Time of Flight Mass Spectrometry (MALDI-TOF MS). Hypothesis/Gap statement. N. meningitidis may be misidentified by MALDI-TOF MS. Aim. To conduct genomic surveillance of oropharyngeal Neisseria spp. in order to: (i) verify MALDI-TOF MS species identification, and (ii) characterize commensal Neisseria spp. genomes. Methodology. We analysed whole genome sequence (WGS) data from 119 Neisseria spp. isolates from a surveillance programme for oropharyngeal Neisseria spp. in Belgium. Different species identification methods were compared: (i) MALDI-TOF MS, (ii) Ribosomal Multilocus Sequence Typing (rMLST) and (iii) rplF gene species identification. WGS data were used to further characterize Neisseria species found with supplementary analyses of Neisseria cinerea genomes. Results. Based on genomic species identification, isolates from the oropharyngeal Neisseria surveilence study were composed of the following species: N. meningitidis ( n =23) , N. subflava ( n =61), N. mucosa ( n =15), N. oralis ( n =8), N. cinerea ( n =5), N. elongata ( n =3), N. lactamica ( n =2), N. bacilliformis ( n =1) and N. polysaccharea ( n =1). Of these 119 isolates, four isolates identified as N. meningitidis ( n =3) and N. subflava ( n =1) by MALDI-TOF MS , were determined to be N. polysaccharea ( n =1) , N. cinerea ( n =2) and N. mucosa ( n =1) by rMLST. Phylogenetic analyses revealed that N. cinerea isolates from the general population ( n =3, cluster one) were distinct from those obtained from men who have sex with men (MSM, n =2, cluster two). The latter contained genomes misidentified as N. meningitidis using MALDI-TOF MS. These two N. cinerea clusters persisted after the inclusion of published N. cinerea WGS ( n =42). Both N. cinerea clusters were further defined through pangenome and Average Nucleotide Identity (ANI) analyses. Conclusion. This study provides insights into the importance of genomic genus-wide Neisseria surveillance studies to improve the characterization and identification of the Neisseria genus.

Published

2024

26. Phylogenomic investigation of an outbreak of fluoroquinolone-resistant Salmonella enterica subsp. enterica serovar Paratyphi A in Phnom Penh, Cambodia.

Author

Dusadeepong R, Delvallez G, Cheng S, Meng S, Sreng N, Letchford J, Choun K, Teav S, Hardy L, Jacobs J, Hoang T, Seemann T, Howden BP, Glaser P, Stinear TP, and Vandelannoote K

Subjects

Humans, Fluoroquinolones pharmacology, Fluoroquinolones therapeutic use, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents therapeutic use, Serogroup, Cambodia epidemiology, Phylogeny, Drug Resistance, Bacterial genetics, Disease Outbreaks, Salmonella paratyphi A genetics, Paratyphoid Fever epidemiology

Abstract

In early 2020, the Medical Biology Laboratory of the Pasteur Institute of Cambodia isolated an unusually high number of fluoroquinolone-resistant Salmonella enterica subspecies enterica serovar Paratyphi A strains during its routine bacteriological surveillance activities in Phnom Penh, Cambodia. A public-health investigation was supported by genome sequencing of these Paratyphi A strains to gain insights into the genetic diversity and population structure of a potential outbreak of fluoroquinolone-resistant paratyphoid fever. Comparative genomic and phylodynamic analyses revealed the 2020 strains were descended from a previously described 2013-2015 outbreak of Paratyphi A infections. Our analysis showed sub-lineage 2.3.1 had remained largely susceptible to fluoroquinolone drugs until 2015, but acquired chromosomal resistance to these drugs during six separate events between late 2012 and 2015. The emergence of fluoroquinolone resistance was rapidly followed by the replacement of the original susceptible Paratyphi A population, which led to a dramatic increase of fluoroquinolone-resistant blood-culture-confirmed cases in subsequent years (2016-2020). The rapid acquisition of resistance-conferring mutations in the Paratyphi A population over a 3 year period is suggestive of a strong selective pressure on that population, likely linked with fluoroquinolone use. In turn, emergence of fluoroquinolone resistance has led to increased use of extended-spectrum cephalosporins like ceftriaxone that are becoming the drug of choice for empirical treatment of paratyphoid fever in Cambodia.

Published

2023

27. Accessible Platform for High-Throughput COVID-19 Molecular Diagnostics and Genome Sequencing Using a Repurposed 3D Printer for RNA Extraction.

Author

Vandelannoote K, Buultjens AH, Li L, Sharkey LK, Herisse M, Pidot SJ, Hoang T, Howden BP, Monk IR, Seemann T, Lee JYH, and Stinear TP

Subjects

Humans, Pandemics, Pathology, Molecular, RNA, Viral genetics, SARS-CoV-2, COVID-19

Abstract

The COVID-19 pandemic has exposed the dependence of diagnostic laboratories on a handful of large corporations with market monopolies on the worldwide supply of reagents, consumables, and hardware for molecular diagnostics. Global shortages of key consumables for RT-qPCR detection of SARS-CoV-2 RNA have impaired the ability to run essential, routine diagnostic services. Here, we describe a workflow for rapid detection of SARS-CoV-2 RNA in upper respiratory samples including nasal swabs and saliva, utilizing low-cost equipment and readily accessible reagents. Using repurposed Creality3D Ender-3 three-dimensional (3D) printers, we built a semiautomated paramagnetic bead RNA extraction platform. The hardware for the system was built for $300 USD, and the material cost per reaction was $1 USD. Named the Ender VX500 , instrument performance when paired with RT-qPCR for SARS-CoV-2 detection in nasal and saliva specimens was two virus copies per microliter. There was a high-performance agreement (assessed using 458 COVID-19 nasal swab specimens) with the Aptima SARS-CoV-2 assay run on the Hologic Panther, a commercial automated RNA extraction and detection platform. Inter- and intrainstrument precision was excellent (coefficients of variation (CoV) of 1.10 and 0.66-1.32%, respectively) across four instruments. The platform is scalable with throughput ranging from 23 specimens on a single instrument run by one user in 50 min to 364 specimens on four instruments run by four users in 190 min. Step-by-step instructions and protocols for building and running the Ender VX500 have been made available without restriction.

Published

2021

28. Tuberculosis in Australia's tropical north: a population-based genomic epidemiological study.

Author

Meumann EM, Horan K, Ralph AP, Farmer B, Globan M, Stephenson E, Popple T, Boyd R, Kaestli M, Seemann T, Vandelannoote K, Lowbridge C, Baird RW, Stinear TP, Williamson DA, Currie BJ, and Krause VL

Abstract

Background: The Northern Territory (NT) has the highest tuberculosis (TB) rate of all Australian jurisdictions. We combined TB public health surveillance data with genomic sequencing of Mycobacterium tuberculosis isolates in the tropical 'Top End' of the NT to investigate trends in TB incidence and transmission., Methods: This retrospective observational study included all 741 culture-confirmed cases of TB in the Top End over three decades from 1989-2020. All 497 available M. tuberculosis isolates were sequenced. We used contact tracing data to define a threshold pairwise SNP distance for hierarchical single linkage clustering, and examined putative transmission clusters in the context of epidemiologic information., Findings: There were 359 (48%) cases born overseas, 329 (44%) cases among Australian First Nations peoples, and 52 (7%) cases were Australian-born and non-Indigenous. The annual incidence in First Nations peoples from 1989-2019 fell from average 50.4 to 11.0 per 100,000 (P<0·001). First Nations cases were more likely to die from TB (41/329, 12·5%) than overseas-born cases (11/359, 3·1%; P<0·001). Using a threshold of ≤12 SNPs, 28 clusters of between 2-64 individuals were identified, totalling 250 cases; 214 (86%) were First Nations cases and 189 (76%) were from a remote region. The time between cases and past epidemiologically- and genomically-linked contacts ranged from 4·5 months to 24 years., Interpretation: Our findings support prioritisation of timely case detection, contact tracing augmented by genomic sequencing, and latent TB treatment to break transmission chains in Top End remote hotspot regions., Competing Interests: The authors have no conflicts of interest to declare., (© 2021 The Authors.)

Published

2021

29. Population Genomics and Molecular Epidemiology of Mycobacterium ulcerans

Author

Vandelannoote K, Eddyani M, Buultjens A, Stinear TP, Pluschke G, and Röltgen K

Abstract

Bacterial population genomics is providing detailed insights into Mycobacterium ulcerans evolution, showing how and when this pathogen emerged and spread across the world and in particular within Africa and Australia, the regions most affected by Buruli ulcer (BU). This chapter summarizes our current understanding of the emergence of M. ulcerans from a Mycobacterium marinum ancestor, and describes how at least two evolutionary bottlenecks, that included acquiring the specific capability to make mycolactones, led to a specific lineage of M. ulcerans causing the majority of human disease. At local scales, detailed longitudinal, comparative genomic studies of M. ulcerans isolates recovered from BU endemic regions have revealed patterns of pathogen spread that are providing useful new understandings around BU transmission., (Copyright 2019, The Author(s).)

Published

2019

30. Isoniazid resistance levels of Mycobacterium tuberculosis can largely be predicted by high-confidence resistance-conferring mutations.

Author

Lempens P, Meehan CJ, Vandelannoote K, Fissette K, de Rijk P, Van Deun A, Rigouts L, and de Jong BC

Subjects

Humans, Microbial Sensitivity Tests, Mycobacterium tuberculosis genetics, Mycobacterium tuberculosis isolation & purification, Tuberculosis microbiology, Antitubercular Agents pharmacology, Bacterial Proteins genetics, Catalase genetics, Drug Resistance, Bacterial, Isoniazid pharmacology, Mutation, Mycobacterium tuberculosis drug effects, Oxidoreductases genetics

Abstract

The majority of Mycobacterium tuberculosis isolates resistant to isoniazid harbour a mutation in katG. Since these mutations cause a wide range of minimum inhibitory concentrations (MICs), largely below the serum level reached with higher dosing (15 mg/L upon 15-20 mg/kg), the drug might still remain partly active in presence of a katG mutation. We therefore investigated which genetic mutations predict the level of phenotypic isoniazid resistance in clinical M. tuberculosis isolates. To this end, the association between known and unknown isoniazid resistance-conferring mutations in whole genome sequences, and the isoniazid MICs of 176 isolates was examined. We found mostly moderate-level resistance characterized by a mode of 6.4 mg/L for the very common katG Ser315Thr mutation, and always very high MICs (≥19.2 mg/L) for the combination of katG Ser315Thr and inhA c-15t. Contrary to common belief, isolates harbouring inhA c-15t alone, partly also showed moderate-level resistance, particularly when combined with inhA Ser94Ala. No overt association between low-confidence or unknown mutations, except in katG, and isoniazid resistance (level) was found. Except for the rare katG deletion, line probe assay is thus not sufficiently accurate to predict the level of isoniazid resistance for a single mutation in katG or inhA.

Published

2018

31. Effects of decontamination, DNA extraction, and amplification procedures on the molecular diagnosis of Mycobacterium ulcerans disease (Buruli ulcer).

Author

Affolabi D, Sanoussi N, Vandelannoote K, Odoun M, Faïhun F, Sopoh G, Anagonou S, Portaels F, and Eddyani M

Subjects

Bacterial Load, Buruli Ulcer microbiology, DNA Transposable Elements genetics, DNA, Bacterial genetics, Genes, Bacterial, Humans, Molecular Diagnostic Techniques, Real-Time Polymerase Chain Reaction, Buruli Ulcer diagnosis, DNA, Bacterial isolation & purification, Decontamination, Mycobacterium ulcerans genetics

Abstract

We compared two DNA extraction methods (a semiautomated method using a Maxwell kit and a modified Boom method) and three amplification procedures (a single-step PCR, a nested PCR, and a real-time quantitative PCR) on 74 surgical tissue specimens from patients with clinically suspected Buruli ulcer. All of these procedures were compared before and after decontamination. We observed that, among the procedures tested, real-time PCR after the modified Boom extraction method or a single-run PCR assay after the Maxwell 16 extraction method, performed on nondecontaminated suspensions, are the best for the molecular diagnosis of Mycobacterium ulcerans disease.

Published

2012