Molecular characterization of Mycobacterium tuberculosis complex and prevalence of nontuberculous mycobacteria and other potential pathogenic bacteria from Tubercolisis suspents in Northeastern, Tanzania

Hoza, Abubakar Shaaban

26 September 2016

Molecular typing is increasingly essential to tuberculosis (TB) control programmes, providing public health practitioners with a tool to characterize transmission patterns, track the emergence and spread of strains of M. tuberculosis complex (MTC) in populations. While molecular typing is already used extensively as a tool for TB control in many developed settings across the globe, its use in resource-poor settings is still limited. Moreover, information on the role, contribution and burden of nontuberculous mycobacteria (NTM) and other pathogens in aetiology of TB-like syndromes is also lacking in such settings. The broad objective of this dissertation was to determine the genetic diversity of MTC and their drug resistance profiles as well as the prevalence of NTM and other potentially pathogenic bacteria among TB suspects in Northeastern, Tanzania in order to generate insights that may inform the design of a rational TB control programmes. A total of 18 distinct spoligotypes were identified in this study area, with CAS1-KILI and EAI8 being the most predominant families. Major lineages prediction by conformal Bayesian network (CBN) revealed that 70% of TB infections in this area is due to modern lineages, whereas 30% of TB infections is due to the ancestral lineages mainly of Indo-oceanic lineage. The study also revealed that the overall proportions of any drug resistance and MDR-TB were 12.7% and 6.3% respectively. With the prevalence of any drug resistance and MDR-TB among new cases being 11.4% and 4.3% respectively, among previously, treated cases were 22.2%. The prevalence of NTM was found to be 9.7 %, with HIV being a significant predictor of NTM detection (P < 0.001). Four out of 30 patients with NTM diagnosed by culture received 1st line anti-TB treatment suggesting that a proportion of patients diagnosed by smear microscopy (4/65, 6.2%) were mistreated as TB patients. Our findings further showed that 17 (4.6%) out of 372 TB suspects were due to pulmonary nocardiosis. Overall this dissertation has revealed that TB is still a major problem in Tanga and is characterized by a diverse array of MTB strains. Additionally, modern MTB strains contribute significantly to TB infections in this area. High proportions of anti-TB drug resistance among new treated cases observed suggest that more efforts need to be done to identify individual cases at facility level for improved TB control programmes. Inefficient screening of TB patients and a prevalent increase of NTM may contribute to both unrealistic and mismanagement of TB cases. A diverse array of pathogenic Nocardia species among TB suspects further indicates that they are likely cause of human disease in this population. Therefore, need to integrate NTM and pathogens causing TB-like syndromes in diagnosis and management of TB is urgent. Results of these investigations contribute to the understanding of the dynamics of TB transmission in resource poor settings of Tanzania and highlight key factors that should be considered in the development of rational approaches to design effective TB prevention and control programmes in the country.

ddc:610

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

Ngabonziza, J.C.S., Loiseau, C., Marceau, M., Jouet, A., Menardo, F., Tzfadia, O., Antoine, R., Niyigena, E.B., Mulders, W., Fissette, K., Diels, M., Gaudin, C., Duthoy, S., Ssengooba, W., André, E., Kaswa, M.K., Habimana, Y.M., Brites, D., Affolabi, D., Mazarati, J.B., de Jong, B.C., Rigouts, L., Gagneux, S., Meehan, Conor J., Supply, P.

18 June 2021

Yes / The human- and animal-adapted lineages of the Mycobacterium tuberculosis complex (MTBC) are thought to have expanded from a common progenitor in Africa. However, the molecular events that accompanied this emergence remain largely unknown. Here, we describe two MTBC strains isolated from patients with multidrug resistant tuberculosis, representing an as-yet-unknown lineage, named Lineage 8 (L8), seemingly restricted to the African Great Lakes region. Using genome-based phylogenetic reconstruction, we show that L8 is a sister clade to the known MTBC lineages. Comparison with other complete mycobacterial genomes indicate that the divergence of L8 preceded the loss of the cobF genome region - involved in the cobalamin/vitamin B12 synthesis - and gene interruptions in a subsequent common ancestor shared by all other known MTBC lineages. This discovery further supports an East African origin for the MTBC and provides additional molecular clues on the ancestral genome reduction associated with adaptation to a pathogenic lifestyle. / This work was supported by EDCTP2 grant DRIA2014-326—DIAMA of the European Union, the Belgian General Directorate for Development Cooperation (PhD fellowship to J.C.S.N.), Grant ANR-16-CE35-0009 from Agence Nationale de la Recherche, the Swiss National Science Foundation (Grants 310030_188888, IZRJZ3_164171, IZLSZ3_170834 and CRSII5_177163), and the European Research Council (309540-EVODRTB). The views and opinions of authors expressed herein do not necessarily state or reflect those of EDCTP. The funders had no role in study design, data collection and analysis, decision to publish or preparation of the manuscript.

Mycobacterium tuberculosis complex

Africa

African Great Lakes

Lineage

Molecular characterization of Mycobacterium tuberculosis complex and prevalence of nontuberculous mycobacteria and other potential pathogenic bacteria from Tubercolisis suspents in Northeastern, Tanzania

Hoza, Abubakar Shaaban

06 September 2016

Molecular typing is increasingly essential to tuberculosis (TB) control programmes, providing public health practitioners with a tool to characterize transmission patterns, track the emergence and spread of strains of M. tuberculosis complex (MTC) in populations. While molecular typing is already used extensively as a tool for TB control in many developed settings across the globe, its use in resource-poor settings is still limited. Moreover, information on the role, contribution and burden of nontuberculous mycobacteria (NTM) and other pathogens in aetiology of TB-like syndromes is also lacking in such settings. The broad objective of this dissertation was to determine the genetic diversity of MTC and their drug resistance profiles as well as the prevalence of NTM and other potentially pathogenic bacteria among TB suspects in Northeastern, Tanzania in order to generate insights that may inform the design of a rational TB control programmes. A total of 18 distinct spoligotypes were identified in this study area, with CAS1-KILI and EAI8 being the most predominant families. Major lineages prediction by conformal Bayesian network (CBN) revealed that 70% of TB infections in this area is due to modern lineages, whereas 30% of TB infections is due to the ancestral lineages mainly of Indo-oceanic lineage. The study also revealed that the overall proportions of any drug resistance and MDR-TB were 12.7% and 6.3% respectively. With the prevalence of any drug resistance and MDR-TB among new cases being 11.4% and 4.3% respectively, among previously, treated cases were 22.2%. The prevalence of NTM was found to be 9.7 %, with HIV being a significant predictor of NTM detection (P < 0.001). Four out of 30 patients with NTM diagnosed by culture received 1st line anti-TB treatment suggesting that a proportion of patients diagnosed by smear microscopy (4/65, 6.2%) were mistreated as TB patients. Our findings further showed that 17 (4.6%) out of 372 TB suspects were due to pulmonary nocardiosis. Overall this dissertation has revealed that TB is still a major problem in Tanga and is characterized by a diverse array of MTB strains. Additionally, modern MTB strains contribute significantly to TB infections in this area. High proportions of anti-TB drug resistance among new treated cases observed suggest that more efforts need to be done to identify individual cases at facility level for improved TB control programmes. Inefficient screening of TB patients and a prevalent increase of NTM may contribute to both unrealistic and mismanagement of TB cases. A diverse array of pathogenic Nocardia species among TB suspects further indicates that they are likely cause of human disease in this population. Therefore, need to integrate NTM and pathogens causing TB-like syndromes in diagnosis and management of TB is urgent. Results of these investigations contribute to the understanding of the dynamics of TB transmission in resource poor settings of Tanzania and highlight key factors that should be considered in the development of rational approaches to design effective TB prevention and control programmes in the country.

info:eu-repo/classification/ddc/610

ddc:610

Evaluation of antimycobacterial molecules' capacity to kill mycobacteria and their toxic effect on human cells. / Utvärdering av antimykobakteriella molekylers kapacitet att döda mykobakterier samt deras toxiska effekt på humana celler

Henriksson, Filippa

January 2023

Tuberculosis is a fatal airborne disease caused by bacteria from the Mycobacterium tuberculosis complex (MTBC). The incidence of contracting tuberculosis is estimated to be around 10.6 million cases each year. Increased drug resistance among mycobacteria has led to the need to develop new treatments. The study's purpose was to determine the antimycobacterial ability of drug complexes and how toxic these complexes are against human cells. Drug complexes from "phage derived endolysins" and "A pyrazine amide-4 aminoquinoline hybrids" were studied to possibly be included as a treatment against tuberculosis in the future. The minimum inhibitory concentrations (MIC) of the drug complexes were analyzed by the method Resazurin microtiter assay (REMA), where the results were assessed visually. The toxicity of the drug complexes was studied by growing THP1-Blue™ NF-κB cells, which then were exposed to the drug complexes. The results could then be obtained by absorbance measurement with spectrophotometry. One-way ANOVA showed a non-significant value, as the P-value was 0.44 (P&gt;0.05). However, more supplementary studies need to be carried out to obtain a significant result. All performed concentrations of the drug complexes were assessed as non-toxic against human THP1-Blue™ NF-κB cells. / Tuberkulos är en dödlig luftburen sjukdom som orsakas av bakterier från Mycobacterium tuberculosis complex (MTBC). Den årliga incidensen i världen för insjuknande i tuberkulos beräknas vara 10.6 miljoner. Ökad läkemedelsresistens bland mycobakterier har lett till att nya behandlingar behöver utvecklas. Syftet med studien var att studera två olika läkemedelskomplex antimycobakteriella förmåga samt hur toxiska dessa komplex är mot humana celler. Läkemedelskomplex från "phage derived endolysins" och "A pyrazine amide-4 aminoquinoline hybrids" studerades för att eventuellt kunna ingå som behandling mot tuberkulos framöver. Läkemedelskomplexens minsta inhibitoriska koncentration (MIC) analyserades genom metoden Resazurin microtiter assay (REMA) där resultaten bedömdes visuellt. Läkemedelskomplexens toxicitet studerades genom odling av THP1-Blue™ NF-κB celler som sedan exponerades för läkemedelskomplexen och resultaten  kunde sedan fås genom absorbansmätning med spektrofotometri. One-way ANOVA påvisade ett icke-signifikant värde,  då p-värdet blev 0,44 (P&gt;0,05). Dock behövs fler kompletterande studier genomföras för att studera detta ytterligare. Alla studerade koncentrationer av läkemedelskomplexen bedömdes vara icke-toxiska mot humana THP1-Blue™ NF-κB celler.

Drug evaluation

In vitro

Mycobacterium tuberculosis complex

REMA

Tuberculosis

In vitro

Mycobacterium tuberculosis complex

REMA

tuberkulos

utvärdering av läkemedel

Biomedical Laboratory Science/Technology

Le rôle des cellulases dans les interactions entre les mycobactéries du complexe Mycobacterium tuberculosis et les amibes libres

Mba Medie, Felix

19 September 2011

Le génome de Mycobacterium tuberculosis, l’agent causal de la tuberculose, code pour une protéine ayant la capacité de se fixer sur la cellulose (Rv1987), une cellulase potentielle (Rv1090), et une cellulase pleinement active (Rv0062). Cette observation est surprenante, car la cellulose est un composant majeur des parois des cellules végétales, tandis que M. tuberculosis est un pathogène humain sans contact connu avec des plantes. Nous avons émis l’hypothèse que ces protéines pourraient jouer un rôle dans les interactions entre les mycobactéries du complexe M. tuberculosis avec les kystes d’amibes libres, dont la paroi contient également de la cellulose. Dans notre travail de thèse, nous avons cherché par une analyse in silico la présence de ces trois gènes chez toutes les bactéries ayant un génome complètement séquencé présentes dans la base de données CAZy (accessible en ligne à l’adresse www.cazy.org). Cette étude a montré que seulement 2,5% des bactéries codent pour les trois gènes simultanément. Parmi ces bacteries, nous avons ensuite confirmé expérimentalement par PCR et séquençage la présence des gènes Rv0062, Rv1090 et Rv1987 chez les mycobactéries du complexe M. tuberculosis. Nous avons ensuite vérifié la transcription de ces trois gènes chez la souche de référence M. tuberculosis H37Rv, puis produit dans Escherichia coli des protéines de fusion Rv1090 et Rv1987 et montré qu'elles étaient capables d'hydrolyser la cellulose (Rv1090) et de s’y fixer (Rv1987). De plus, nous avons mis en place un model expérimental d’interaction entre les mycobactéries du complexe M. tuberculosis et les amibes libres dans le but de comprendre le rôle des gènes Rv0062, Rv1090 et Rv1987. Dans un premier temps nous avons montré que M. tuberculosis, Mycobacterium bovis, Mycobacterium canettii ainsi que Mycobacterium avium utilisé ici comme un controle positif étaient capables de survivre dans le cytoplasme des amibes libres telles que Acanthamoeba polyphaga. Ensuite, nous avons montré que M. tuberculosis et M. bovis mais pas M. canettii étaient capables de survivre à l’intérieur des kystes d’amibes. Enfin nous avons montré que M. tuberculosis, M. bovis et M. canettii étaient capables de survivre dans le sol pendant au moins 6 mois. Les données établies dans cette thèse soutiennent le rôle des cellulases dans la survie environnementale des mycobactéries du complexe M. tuberculosis, et ouvrent la voie à l’étude de cette phase méconnue dans le cycle de ces organismes / The genome of Mycobacterium tuberculosis, the causative agent of tuberculosis, encodes a protein with the ability to bind to cellulose (Rv1987), one potential cellulase (Rv1090), and one fully active cellulase (Rv0062). This observation is puzzling, because cellulose is a major component of plant cell walls, whereas M. tuberculosis is a human pathogen without known contact with plants. We hypothesized that these genes could play a role in the interactions between M. tuberculosis complex organisms and amoebal cysts, whose wall contains cellulose.In our thesis work, we have searched by in silico analysis for the presence of these three genes in all bacteria with complete sequenced genomes present in the CAZy database (available online at www.cazy. org). This study showed that only 2.5% of bacteria encode the three genes simultaneously. Among these bacteria we have confirmed experimentally by PCR and sequencing the presence of Rv0062, Rv1090 and Rv1987 in the M. tuberculosis complex organisms. We have checked the transcript of the three genes in the reference strain M. tuberculosis H37Rv and we subsequently produced Rv1090 and Rv1987 fusion proteins in Escherichia coli and demonstrated that they were indeed able to hydrolyze (Rv1090) and to bind (Rv1987) cellulose. In addition, we have developed an experimental model of interaction between M. tuberculosis organisms and the free-living amoebae in order to understand the role of Rv0062, Rv1090 and Rv1987 genes. Initially we have shown that M. tuberculosis, Mycobacterium bovis, Mycobacterium canettii and Mycobacterium avium used here as a positive control were able to survive in the cytoplasm of the free-living amoeba such as Acanthamoeba polyphaga. We have further shown that M. tuberculosis and M. bovis but not M. canettii were able to survive within the amoebal cysts. Finally we have shown that M. tuberculosis, M. bovis and M. canettii were able to survive in soil for at least 6 months. The data obtained in this thesis support the role of cellulase in the survival of M. tuberculosis complex organisms in the environment and pave the way for the study of this unknown phase in the cycle of these organisms.

Mycobacterium tuberculosis complexe,

Cellulase

Cellulose

Amibes libres

Mycobacterium tuberculosis complex,

Cellulase

Cellulose

Free-living amoeba

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

Coscolla, M., Gagneux, S., Menardo, F., Loiseau, C., Ruiz-Rodriguez, P., Borrell, S., Otchere, I.D., Asante-Poku, A., Asare, P., Sánchez-Busó, L., Gehre, F., Sanoussi, C.N., Antonio, M., Affolabi, D., Fyfe, J., Beckert, P., Niemann, S., Alabi, A.S., Grobusch, M.P., Kobbe, R., Parkhill, J., Beisel, C., Fenner, C., Böttger, E.C., Meehan, Conor J., Harris, S.R., de Jong, B.C., Yeboah-Manu, D., Brites, D.

18 June 2021

yes / Human tuberculosis (TB) is caused by members of the Mycobacterium tuberculosis complex (MTBC). The MTBC comprises several human-adapted lineages known as M. tuberculosis sensu stricto, as well as two lineages (L5 and L6) traditionally referred to as Mycobacterium africanum. Strains of L5 and L6 are largely limited to West Africa for reasons unknown, and little is known of their genomic diversity, phylogeography and evolution. Here, we analysed the genomes of 350 L5 and 320 L6 strains, isolated from patients from 21 African countries, plus 5 related genomes that had not been classified into any of the known MTBC lineages. Our population genomic and phylogeographical analyses showed that the unclassified genomes belonged to a new group that we propose to name MTBC lineage 9 (L9). While the most likely ancestral distribution of L9 was predicted to be East Africa, the most likely ancestral distribution for both L5 and L6 was the Eastern part of West Africa. Moreover, we found important differences between L5 and L6 strains with respect to their phylogeographical substructure and genetic diversity. Finally, we could not confirm the previous association of drug-resistance markers with lineage and sublineages. Instead, our results indicate that the association of drug resistance with lineage is most likely driven by sample bias or geography. In conclusion, our study sheds new light onto the genomic diversity and evolutionary history of M. africanum, and highlights the need to consider the particularities of each MTBC lineage for understanding the ecology and epidemiology of TB in Africa and globally.

Mycobacterium africanum

Mycobacterium tuberculosis

Diversity

Evolution

Genome

Lineages

Sequenciamento, anotação e análise do genoma completo de Mycobacterium bovis cepa SP38 / Sequencing, annotation and genomic analysis of Mycobacterium bovis strain SP38

Zimpel, Cristina Kraemer

10 May 2017

A tuberculose é uma doença infectocontagiosa causada por bactérias do complexo Mycobacterium tuberculosis (MTBC) que afeta humanos e/ou animais. Membros desse complexo evoluíram clonalmente e possuem grande similaridade genômica, diferenciando-se por polimorfismos de nucleotídeo único (SNPs) e regiões de diferença (RDs). Dentre os patógenos da tuberculose em animais, Mycobacterium bovis, causador da tuberculose bovina, é o membro do MTBC de maior importância global. Desta maneira, o presente estudo tem por objetivo o sequenciamento, a anotação e a análise da estirpe brasileira SP38 de M. bovis, seguido da genômica comparativa desse com outros genomas de M. bovis depositados no GenBank. Mycobacterium bovis SP38 apresenta um genoma tradicional de micobactéria tuberculosa, sendo esse único, circular com 4.347.646 pb, alto conteúdo de GC (65,6%) e 4.216 genes, incluindo 154 pseudogenes, 3 genes de rRNA (RNA ribossomal), 45 de tRNA (RNA transportador), 2 de ncRNA (RNA não codificante), 1 tmRNA (RNA transferência-mensageiro) e 4.011 sequências de DNA codificante (CDSs) (NZ_CP015773.1). Dentre as CDSs, a maioria (2.805 - 69,93%) foi anotado com função e 1.206 (30,07%) como hipotéticos. Para a genômica comparativa, os 31 genomas completos ou em drafts de M. bovis depositados no GenBank, 32 genomas de Mycobacterium bovis BCG e 23 genomas de Mycobacterium tuberculosis foram selecionados. Análises in silico dos padrões de RD resultaram na exclusão de três genomas anotados equivocadamente como M. bovis virulentos. A análise de genes ortólogos sugere que M. bovis está sob processo de decay genômico. A quantificação de sítios polimórficos indica uma maior variabilidade genética em números totais (8.335 em M. tuberculosis, 3.448 em M. bovis virulentos, e 1.088 em M. bovis BCGs) e comparações par-a-par (p &le;0,05) de M. tuberculosis em relação a M. bovis virulentos e BCGs, indicando uma maior pressão evolutiva sob M. tuberculosis, contrastando com o fato de que M. bovis é capaz de infectar um maior número de espécies hospedeiras que M. tuberculosis. A maioria desses sítios polimórficos estão localizados em CDSs hipotéticos (31,7% - 51,3%), sendo associados a família gênica PE/PPE, e apresentam uma proporção de mutações não sinônimas crescentes pela ordem M. bovis BCG, M. bovis virulentos e M. tuberculosis (48,90%, 51,92% e 59,52%, respectivamente). Essa menor proporção de mutações não sinônimas e a categorização funcional dissimilar entre CDSs contendo sítios polimórficos, indica que M. bovis BCG está sujeito a diferentes pressões seletivas quando comparado a M. bovis virulentos e M. tuberculosis. Por fim, a análise filogenética baseada em sítios polimórficos indica agrupamentos filogenéticos de M. bovis suportados pela classificação dos Complexos Clonais (CCs) e não por hospedeiros de origem dos isolados, confirmando que sítios polimórficos podem ser utilizados para classificação filogenética de linhagens genéticas desta espécie bacteriana. Além do mais, 2/28 (7,14%) genomas de M. bovis não puderam ser classificados nos CCs atualmente descritos, sugerindo a existência de complexos ainda não determinados. Este estudo representa o primeiro genoma de uma estirpe nacional de M. bovis a ser completamente sequenciado e a primeira análise de genômica comparativa de genomas desta espécie bacteriana. / Tuberculosis is an infectious disease caused by bacteria of the Mycobacterium tuberculosisComplex (MTBC) that affects human beings and/or animals. Members of this complex clonally evolved and have high genomic similarity, differentiated by single nucleotide polymorphisms (SNPs) and regions of difference (RDs). Among the animal tuberculosis pathogens, Mycobacterium bovis, the causative agent of bovine tuberculosis, is the MTBC member of greatest global importance. Therefore, the aim of the present study is to sequence, assemble and annotate the genome of the Brazilian strain SP38 of M. bovis, followed by the comparative genomics with other M. bovis genomes available in GenBank. Mycobacterium bovis SP38 has a traditional mycobacteria genome. It has a single and circular chromosome with 4,347,646 bp, high GC content (65.6%), and 4,216 genes, including 154 pseudogenes, 3 rRNA genes (ribosomal RNA), 45 tRNA (transfer RNA), 2 ncRNA (non-coding RNA), 1 tmRNA (transfer-messenger RNA), and 4,011 coding DNA sequences (CDSs) (NZ_CP015773.1). The majority of CDSs (2,805 - 69,93%) was annotated with function and 1,206 (30,07%) are hypothetical. For the comparative genomics analyses, the 31 genomes (complete and drafts) of M. bovis available in GenBank, 32 Mycobacterium bovis BCG and, 23 of Mycobacterium tuberculosis were chosen. In silico analysis of the RDs patterns resulted in the exclusion of three genomes, mistakenly annotated as virulent M. bovis. Orthologous gene analysis suggests that strains of M. bovis are under genomic decay. The quantification of polymorphic sites indicates the greater variability in absolute numbers (8,335 in M. tuberculosis, 3,448 in virulent M. bovis, and 1,088 in M. bovis BCG) and in pairwise comparisons (p&le;0,05) of M. tuberculosis compared to virulent M. bovis and M. bovis BCG, suggesting that M. tuberculosis is under high evolutionary pressure. This is in contrast to the fact that M. bovis is capable of infecting a higher number of host species than M. tuberculosis. Most of these polymorphic sites are located in hypothetical CDSs (31.7% - 52.3%), being associated with PE/PPE family, and demonstrating a nonsynonymous mutations proportion of the following increasing order: M. bovis BCG, virulent M. bovis and M. tuberculosis (48.90%, 51.92% and 59.52%, respectively). This lower proportion of nonsynonymous mutations and the dissimilar functional categorization of CDSs with polymorphic sites indicates that M. bovis BCG is subjected to different selective pressure when compared to virulent M. bovis and M. tuberculosis. Finally, the phylogenetic analysis based on polymorphic sites indicates that the phylogenetic grouping of M. bovis is supported by Clonal Complexes (CCs), and not by the host of M. bovis isolates, confirming that polymorphic sites can be used for phylogenetic classification of genetic lineages of this bacterial species. Furthermore, 2/28 (7.14%) genomes of M. bovis could not be classified in the currently described CCs, suggesting the existence of complexes yet to be determined. This study represents the first genome of a Brazilian strain of M. bovis to be completely sequenced and the first comparative genomic analysis of the genomes of this bacterial species.

Mycobacterium bovis

Mycobacterium bovis

Mycobacterium tuberculosis Complex

Comparative genomic

Complexo Mycobacterium tuberculosis

Genome sequencing

Genômica comparativa

Sequenciamento de genoma

Mapeamento e distribuição dos isolados do complexo Mycobacterium tuberculosis provenientes de casos de tuberculose bovina em Moçambique / Mapping of the distribution of Mycobacterium tuberculosis complex strains involved in bovine tuberculosis in Mozambique

Inlamea, Osvaldo Frederico

17 May 2018

A tuberculose bovina (bTB) é um problema sanitário importante em Moçambique e ainda a espera de uma ação organizada por parte dos Serviços Veterinários Oficiais. O presente estudo teve por objetivo investigar e mapear os genótipos de Mycobacterium bovis circulantes no país e paralelamente maximizar a utilização de abatedouros como fonte de informação epidemiológica da bTB. Durante o período de outubro de 2016 a abril de 2017 foram colhidas um total de 90 amostras de lesões sugestivas de tuberculose bovina nos abatedouros Municipais de Maputo e Maxixe e dois abatedouros privados da província de Maputo. Essas amostras, juntamente com outras 10, disponibilizadas pelo Laboratório Central de Veterinária e 72 do banco de amostras de Faculdade de Veterinária de Moçambique foram processadas para isolamento, identificação e discriminação molecular (MIRU-VNTR e spoligotyping) de micobactérias. Nos abatedouros foram coletados dados para calcular as prevalências de carcaças com lesões sugestivas de tuberculose e foi estimada em 0,63% e 80% das carcaças condenadas por tuberculose apresentaram lesões compatíveis com generalização da infecção. Foram obtidos 104 isolados identificados como gênero Mycobacterium, dos quais 80 foram compatíveis com o MTBC e 10 MNT. Destes 80 MTBC, 70 foram identificados como M. bovis. O MIRU-VNTR discriminou os 70 isolados de M. bovis em 47 perfis, agrupados em 3 complexos clonais e cinco singletons. Dos 24 loci estudados, os que apresentaram maiores polimorfismos foram MIRU 960, 2996 e QUB-4052. Em relação ao spoligotyping, foram identificados cinco perfis, dos quais o mais prevalente foi o SB0961, seguido do SB0140, SB2306, SB2481 (novo) e SB1099. Dos 70 isolados submetidos a análises dos complexos clonais africano 1, africano 2, europeu 1 e europeu 2, foram detectados apenas 18,5% de europeu. O distrito de Machanga foi o que apresentou maior diversidade de isolados e o Govuro maior número de isolados de M. bovis. Quando comparados as técnicas, o MIRU-VNTR apresentou maior poder de discriminação em relação ao spoligotyping. O complexo clonal europeu 1 está relacionado com o SB0140 que por sua vez é característico de isolados do Reino Unido e de países que tiveram trocas comerciais de bovinos com o país, incluindo os circunvizinhos a Moçambique e de onde há registros da importação de animais para Moçambique. A não identificação precisa dos complexos clonais dos spoligotyping SB0961, SB2306, SB2481 relacionados, podem ser derivados do BCG, que é sugestivo de evolução clonal própria de Moçambique e os complexos clonais até hoje existentes não são suficientes para discriminar os isolados de Moçambique. Embora os dados de abatedouros sugeriram que a prevalência da tuberculose bovina em Moçambique está entre as mais baixas dos países africanos, a predominância de carcaças com lesões generalizadas significa alto risco de exposição de animais e humanos, sobretudo das populações rurais que têm estreito contato com esses animais. Esse risco é ampliado em função da alta prevalência de humanos que vivem com HIV/AIDS no país. Assim, recomenda-se que Moçambique estruture programa de controle da doença nos animais e métodos de diagnóstico que detectem a infecção por M. bovis na população humana. / Bovine tuberculosis (bTB) is a major sanitary problem in Mozambique and awaits organized action by the Official Veterinary Services. The aim of this work was to investigate and map the circulating Mycobacterium bovis genotypes in the country and to maximize the use of slaughterhouses as a source of epidemiological information for bTB. During the period from October 2016 to April 2017, a total of 90 samples with lesions suggestive of bovine tuberculosis were collected from Maputo and Maxixe Municipal abattoirs and two private abattoirs from the province of Maputo. These samples, together with 10 others provided by the Central Veterinary Laboratory and 72 from the Veterinary Faculty sample bank were processed for isolation, identification and molecular discrimination (MIRU-VNTR and spoligotyping) of mycobacteria. Samples collected in the slaughterhouses were analyzed by calculating the prevalence of carcasses with lesions suggestive of bTB, which was estimated at 0.63% and 80% of carcasses condemned for tuberculosis presented lesions compatible with generalized infection. A total of 104 isolates were identified as M. bovis as Mycobacterium genus were obtained, of which 80 were compatible with MTBC and 10 MNT. Of these 80 MTBC, 70 were identified as M. bovis. The MIRU-VNTR discriminated the 70 isolates of M. bovis in 47 profiles, grouped in 3 clonal complexes and 5 singletons. Of the 24 loci studied, the ones with the highest polymorphisms were MIRU 960, 2996 and QUB-4052. In relation to spoligotyping, five profiles were identified; SB0961 was the most prevalent, being SB0961, followed by SB0140, SB2306, SB2481 (new) and SB1099. Of the 70 isolates submitted to analyzes of the clonal complexes African 1, African 2, European 1 and European 2, only 18.5% of European complex were detected. Machanga district presented the greatest diversity of isolates, while Govuro district had largest number of isolates of M. bovis. The MIRU-VNTR presented greater power of discrimination in relation to spoligotyping. The European clonal complex 1 was related to SB0140 which in turn is characteristic of isolates from the United Kingdom and from countries that have had commercial trade in cattle with UK including those surrounding Mozambique and where there are records of imports of animals for Mozambique. The precise identification of the clonal complexes of the SB0961, SB2306 and SB2481 related spoligotypings subject to the BCG derivatives, is suggestive of the clonal evolution of Mozambique and that the clonal complexes to date are not sufficient to discriminate against the isolates from Mozambique. Although data from slaughterhouses suggested that the prevalence of bovine tuberculosis in Mozambique is among the lowest in African countries, the predominance of carcasses with generalized lesions means a high risk of animal and human exposure, especially of rural populations that have close contact with these animals. This risk is amplified due to the high prevalence of people that living with HIV/AIDS in the country. Thus, it is recommended that Mozambique structure a disease control program in animals and diagnostic methods that detect M. bovis infection in the human population.

Mycobacterium bovis

Mycobacterium bovis

Mycobacterium tuberculosis complex

Complexo Mycobacterium tuberculosis

MIRU-VNTR

MIRU-VNTR. Spoligotyping

Moçambique

Mozambique

Spoligotyping

Sequenciamento, anotação e análise do genoma completo de Mycobacterium bovis cepa SP38 / Sequencing, annotation and genomic analysis of Mycobacterium bovis strain SP38

Cristina Kraemer Zimpel

10 May 2017

A tuberculose é uma doença infectocontagiosa causada por bactérias do complexo Mycobacterium tuberculosis (MTBC) que afeta humanos e/ou animais. Membros desse complexo evoluíram clonalmente e possuem grande similaridade genômica, diferenciando-se por polimorfismos de nucleotídeo único (SNPs) e regiões de diferença (RDs). Dentre os patógenos da tuberculose em animais, Mycobacterium bovis, causador da tuberculose bovina, é o membro do MTBC de maior importância global. Desta maneira, o presente estudo tem por objetivo o sequenciamento, a anotação e a análise da estirpe brasileira SP38 de M. bovis, seguido da genômica comparativa desse com outros genomas de M. bovis depositados no GenBank. Mycobacterium bovis SP38 apresenta um genoma tradicional de micobactéria tuberculosa, sendo esse único, circular com 4.347.646 pb, alto conteúdo de GC (65,6%) e 4.216 genes, incluindo 154 pseudogenes, 3 genes de rRNA (RNA ribossomal), 45 de tRNA (RNA transportador), 2 de ncRNA (RNA não codificante), 1 tmRNA (RNA transferência-mensageiro) e 4.011 sequências de DNA codificante (CDSs) (NZ_CP015773.1). Dentre as CDSs, a maioria (2.805 - 69,93%) foi anotado com função e 1.206 (30,07%) como hipotéticos. Para a genômica comparativa, os 31 genomas completos ou em drafts de M. bovis depositados no GenBank, 32 genomas de Mycobacterium bovis BCG e 23 genomas de Mycobacterium tuberculosis foram selecionados. Análises in silico dos padrões de RD resultaram na exclusão de três genomas anotados equivocadamente como M. bovis virulentos. A análise de genes ortólogos sugere que M. bovis está sob processo de decay genômico. A quantificação de sítios polimórficos indica uma maior variabilidade genética em números totais (8.335 em M. tuberculosis, 3.448 em M. bovis virulentos, e 1.088 em M. bovis BCGs) e comparações par-a-par (p &le;0,05) de M. tuberculosis em relação a M. bovis virulentos e BCGs, indicando uma maior pressão evolutiva sob M. tuberculosis, contrastando com o fato de que M. bovis é capaz de infectar um maior número de espécies hospedeiras que M. tuberculosis. A maioria desses sítios polimórficos estão localizados em CDSs hipotéticos (31,7% - 51,3%), sendo associados a família gênica PE/PPE, e apresentam uma proporção de mutações não sinônimas crescentes pela ordem M. bovis BCG, M. bovis virulentos e M. tuberculosis (48,90%, 51,92% e 59,52%, respectivamente). Essa menor proporção de mutações não sinônimas e a categorização funcional dissimilar entre CDSs contendo sítios polimórficos, indica que M. bovis BCG está sujeito a diferentes pressões seletivas quando comparado a M. bovis virulentos e M. tuberculosis. Por fim, a análise filogenética baseada em sítios polimórficos indica agrupamentos filogenéticos de M. bovis suportados pela classificação dos Complexos Clonais (CCs) e não por hospedeiros de origem dos isolados, confirmando que sítios polimórficos podem ser utilizados para classificação filogenética de linhagens genéticas desta espécie bacteriana. Além do mais, 2/28 (7,14%) genomas de M. bovis não puderam ser classificados nos CCs atualmente descritos, sugerindo a existência de complexos ainda não determinados. Este estudo representa o primeiro genoma de uma estirpe nacional de M. bovis a ser completamente sequenciado e a primeira análise de genômica comparativa de genomas desta espécie bacteriana. / Tuberculosis is an infectious disease caused by bacteria of the Mycobacterium tuberculosisComplex (MTBC) that affects human beings and/or animals. Members of this complex clonally evolved and have high genomic similarity, differentiated by single nucleotide polymorphisms (SNPs) and regions of difference (RDs). Among the animal tuberculosis pathogens, Mycobacterium bovis, the causative agent of bovine tuberculosis, is the MTBC member of greatest global importance. Therefore, the aim of the present study is to sequence, assemble and annotate the genome of the Brazilian strain SP38 of M. bovis, followed by the comparative genomics with other M. bovis genomes available in GenBank. Mycobacterium bovis SP38 has a traditional mycobacteria genome. It has a single and circular chromosome with 4,347,646 bp, high GC content (65.6%), and 4,216 genes, including 154 pseudogenes, 3 rRNA genes (ribosomal RNA), 45 tRNA (transfer RNA), 2 ncRNA (non-coding RNA), 1 tmRNA (transfer-messenger RNA), and 4,011 coding DNA sequences (CDSs) (NZ_CP015773.1). The majority of CDSs (2,805 - 69,93%) was annotated with function and 1,206 (30,07%) are hypothetical. For the comparative genomics analyses, the 31 genomes (complete and drafts) of M. bovis available in GenBank, 32 Mycobacterium bovis BCG and, 23 of Mycobacterium tuberculosis were chosen. In silico analysis of the RDs patterns resulted in the exclusion of three genomes, mistakenly annotated as virulent M. bovis. Orthologous gene analysis suggests that strains of M. bovis are under genomic decay. The quantification of polymorphic sites indicates the greater variability in absolute numbers (8,335 in M. tuberculosis, 3,448 in virulent M. bovis, and 1,088 in M. bovis BCG) and in pairwise comparisons (p&le;0,05) of M. tuberculosis compared to virulent M. bovis and M. bovis BCG, suggesting that M. tuberculosis is under high evolutionary pressure. This is in contrast to the fact that M. bovis is capable of infecting a higher number of host species than M. tuberculosis. Most of these polymorphic sites are located in hypothetical CDSs (31.7% - 52.3%), being associated with PE/PPE family, and demonstrating a nonsynonymous mutations proportion of the following increasing order: M. bovis BCG, virulent M. bovis and M. tuberculosis (48.90%, 51.92% and 59.52%, respectively). This lower proportion of nonsynonymous mutations and the dissimilar functional categorization of CDSs with polymorphic sites indicates that M. bovis BCG is subjected to different selective pressure when compared to virulent M. bovis and M. tuberculosis. Finally, the phylogenetic analysis based on polymorphic sites indicates that the phylogenetic grouping of M. bovis is supported by Clonal Complexes (CCs), and not by the host of M. bovis isolates, confirming that polymorphic sites can be used for phylogenetic classification of genetic lineages of this bacterial species. Furthermore, 2/28 (7.14%) genomes of M. bovis could not be classified in the currently described CCs, suggesting the existence of complexes yet to be determined. This study represents the first genome of a Brazilian strain of M. bovis to be completely sequenced and the first comparative genomic analysis of the genomes of this bacterial species.

Mycobacterium bovis

Complexo Mycobacterium tuberculosis

Genômica comparativa

Sequenciamento de genoma

Mycobacterium bovis

Mycobacterium tuberculosis Complex

Comparative genomic

Genome sequencing

Beiträge zur Verbesserung molekularbiologischer Untersuchungsmethoden zum Nachweis von Mykobakterien-Infektionen in tierischem Gewebe

Nieter, Johanna

25 November 2016

Die Rindertuberkulose ist eine chronische Erkrankung, die von Mycobacterium (M.) bovis und M. caprae, Mitgliedern des Mycobacterium-tuberculosis-Komplex (MTC), ausgelöst wird. Tuberkulose-Erregern werden sowohl mittels kultureller als auch molekulare Untersuchungsmethoden nachgewiesen. Ziel der vorliegenden Studie war es, die Sensitivität des DNA-Nachweises von Tuberkulose-Erregern zu steigern. Dafür wurden drei Fragestellung im Bereich der molekularen Mykobakterien-Diagnostik bearbeitet. I) Zur Verbesserung der Lyse der mykobakteriellen Zellwand als Voraussetzung für eine Zunahme der Freisetzung von DNA wurden im Vergleich zu einer standardisierten DNA-Isolierungsmethode vier verschiedene Lyseprotokolle (thermische, enzymatische, thermo-enzymatische und mechanische Lyse) entwickelt und mit M. bovis BCG durchgeführt. Die Verbesserung wurde anhand der cycle threshold (Ct)-Werte einer MTC-spezifischen Real-Time (rt) Polymerase-Kettenreaktion (PCR) geprüft. Zwei Lyseprotokolle (thermische und mechanische Lyse) wurden bei zehn Gewebeproben (Lymphknoten, Leber und Lunge) von zehn Tieren (acht Rinder, ein Lama und ein Luchs) mit nachgewiesener Tuberkulose ange-wendet. II) Ausserdem, wurde eine rt-PCR mit dem 16S rRNA Gen als Zielgen (16S-rt-PCR) für den direkten Nachweis von Erregern der Gattung Mycobacterium im Gewebe entwickelt. III) Ein neu entwickelter Spoligotyping-Microarray wurde mit der konventionellen Spoligoty-ping-Methode verglichen, um die neue Methode in Bezug die Sensitivität des Nachweises und des diskriminatorischen Potenzials direkt bei infizierten Gewebeproben zu analysieren. Bei der konventionellen Methode erfolgt die Hybridisierung des PCR-Produktes auf einer Nylon Membran, auf der spezifische Oligonukleotide fixiert sind. Bei der Microarray-Methode sind diese auf einem Microarray-Chip fixiert. Die Ergebnisse der Untersuchungen (I) zur Lyse der Zellwand bei M. bovis BCG zeigten, dass bei der mechanischen Lyse eine Zunahme um 14 % und bei der thermischen Lyse eine Zunahme an PCR-Produkt von 6 % im Vergleich zur Standardlyse erbrachte. Bei beiden Lyseprotokollen wurde eine statistische Signifikanz von α = 1 % (Mann-Whitney-Test) im Vergleich zur Standardlyse errechnet. Bei den tuberkulösen Gewebeproben wurde bei der mechanischen Lyse eine durchschnitliche Zunahme an PCR-Produkt um circa 9 % im Vergleich zur Standardlyse erzielt. Dieser Unterschied war jedoch auf Grund der geringen Probeanzahl nicht statistisch signifikant. II) Bei der Untersuchung von 43 Mykobakterien-Spezies, sechs Mitgliedern des MTC (unter anderen M. bovis BCG) und 37 Non Tuberculous Mycobacteria (NTM) Spezies, konnten alle mit der entwickelten Real-Time PCR (16S-rt-PCR) nachgewiesen werden. DNA-Extrakte von acht nicht zur Gattung Mycobacterium gehörenden Spezies wurden mit der 16S-rt-PCR nicht erfasst. Ein Erreger der Gattung Gordonia und ei-ner der Gattung Rhodococcus wurden auf Grund ihres engen Verwandtschaftsgrades jedoch ebenfalls mit der 16S-rt-PCR detektiert. Die oben erwähnten mittels MTC-spezifischer rt-PCR (Zielgen IS 1081) als infiziert identifizierten zehn Gewebeproben, wurden mittels 16S-rt-PCR untersucht. Die Ergebnisse zeigten, dass beiden rt-PCR Systeme eine vergleichbare Sensitivität aufwiesen. III) Bei dem Vergleich zwischen den Spoligotyping-Methoden zeigte sich die neue Methode um einen Faktor von 100 bei der M. bovis BCG-Reinkultur und um einen Fak-tor von 10 bei DNA-Extrakten aus tuberkulösen Gewebeproben sensitiver als die konventionelle Methode. Im Rahmen dieser Arbeit hat sich der Einsatz der mechanischen Lyse für die Verbesserung der Freisetzung von mykobakterieller DNA als routinefähig erwiesen. Die entwickelte 16S-rt-PCR erwies sich als brauchbare Methode für den Nachweis von Erregern der Gattung Mycobacterium. Die Microarray-Methode stellte sich wesentlich einfacher, sensitiver und schneller dar als die konventionelle Methode. Zusammenfassend kann gesagt werden, dass alle drei Ansätze dieser Arbeit einen Beitrag zur Verbesserung der molekularen Labordiagnostik der Tuberkulose leisten. / Bovine tuberculosis is a chronic disease, that results from infection of Mycobacterium (M.) bovis and M. caprae, members of Mycobacterium tuberculosis complex (MTC), respectively. The laboratory diagnosis of bovine tuberculosis is possible with culture as well as considerate fast molecular methods. The aim of this study was to improve the sensitivity of DNA detec-tion of tuberculosis-causing pathogens. Therefore, three different issues were addressed in the complex molecular procedure targeted. I) four different lytic protocols (thermal, enzymatic, thermo-enzymatic and mechanical lysis) were developed and compared to a standardized DNA isolation protocol that was performed on pure culture of Mycobacterium (M.) bovis BCG in order to improve the mycobacterial cell wall lysis leading to an increase of DNA release. The efficiencies of the lysis protocols were assessed by the resulting cycle threshold (Ct) values of a MTC-specific real time (rt) Polymerase Chain Reaction (PCR). Two lysis protocols (thermal and mechanical) were selected to fur-ther testing of ten tuberculosis-infected tissue samples (lymph nodes, liver and lungs) from ten animals (eight cattle, one lama and one lynx). II) In addition, a real time PCR using the 16S rRNA gene as target sequence was developed, which is also suitable to detect pathogens of Genus Mycobacterium on tissue samples. III) A comparison of a newly developed microarray and the conventional spoligotyping method was realised, to analyse the applicability of the microarray in relation of the sensitivity of the method and to analyse discriminatory potential directly from infected tissue samples. During the conventional spoligotyping method, the PCR product is hybridized with specific oligonucleotides, fixed on a nylon membrane. Using the newly developed method these oligonucleotides are fixed on a microarray-chip. The results I) of the mycobacterial cell wall lysis experiment with pure culture of M. bovis BCG showed an increase of 14 % by using mechanical lysis and an increase by 6 % of the PCR product by using thermal lysis compared to the standard protocol. Using the mechanical lysis as well as the thermal lysis a statistically significant (α = 1 % (Mann-Whitney-Test)) im-provement compared to the standard lysis was achieved. Mechanical lysis was performed on tuberculous tissue samples and the results of the lysis were improved by 9 % compared to the standard lysis. However, the difference between mechanical and standard lysis was not statistically significant due the small sample number. II) Forty-three different mycobacterial species, six members of MTC (among them M. bovis BCG) and 37 Non Tuberculous Mycobacteria (NTM), were detected using the newly developed real time PCR (16S-rt-PCR). Eight non-mycobacterial species were not detected using this rt-PCR, whereas one of genus Rhodococcus and one of genus Gordonia were detected by the 16S-rt-PCR due to their close genetic similarity to the genus Mycobacterium. The ten tuberculosis-infected tissue samples (see above) testing positive using a MTC-specific real time rt-PCR (target gene IS 1081) were sub-jected to the 16S-rt-PCR. Both rt-PCR systems showed a comparable sensitivity. III) By comparing the two spoligotyping-methods, the ArrayStrip™–format method was more sensitive than the conventional method by a factor of 100 applied to pure culture and by a factor of 10 when applied to DNA extracts from infected tissue samples. In conclusion, the mechanical lysis proved to be a practical method to liberate mycobacterial DNA. The newly developed rt-PCR was suitable to detect members of the genus Mycobacterium. The spoligotyping ArrayStrip™–format method appeared to be substantially easier to perform, more sensitive, and less time-consuming than the conventional method. The three methods described were suitable to improve the molecular laboratory diagnosis of tuberculosis.

DNA-Extraktion

Mykobakterien

Mycobacterium-tuberculosis-Komplex (MTC)

Molekulare Diagnostik

Real-Time PCR

Spoligotyping

Microarray.

DNA-Extraction

mycobacteria

Mycobacterium tuberculosis complex (MTC)

molecular diagnosis

Real Time PCR

Spoligotyping

Microarray.

ddc:636.089