Molecular characterization of Mycobacterium tuberculosis isolates from Izmir, Turkey

In recent years, molecular typing methods have been used in epidemiologic studies of Mycobacterium tuberculosis isolates in various areas of the world. However, there have been few data on this issue in Turkey. We describe the molecular characterization of 56 Mycobacterium tuberculosis isolates recovered from individual patients in Izmir and the surrounding area by three different molecular methods. Isolated M. tuberculosis strains were characterized by IS6110 RFLP, spoligotyping and major genetic group designation. In total, 51 RFLP and 35 spoligopatterns were identified. Fourteen (25%) isolates were indicated as low copy number. Based on three genotypic characterization methods together, five clusters with two isolates each were identified. Most of the isolates (98.2%) were assigned as genetic groups 2 or 3. Only one isolate was identified as Beijing family strain (principal genetic group 1). The shared international clades were found to be Beijing-family, var T1 (ST 37), LAM (Latin-American-Mediterranean) 7 (ST 41), LAM 9 (ST 42), Haarlem 1 (ST 47), Haarlem 3 (ST 50) and T1 (ST 53). In this study, IS6110 RFLP, spoligotyping and major genetic group designation were found to be useful methods for molecular epidemiologic studies.     

Genotyping of Mycobacterium tuberculosis isolates from a low-endemic setting in northwestern state of Paraná in Southern Brazil

The purpose of this study was to provide information about the genetic diversity and prevalent genotype of Mycobacterium tuberculosis in a low-endemic setting in northwestern state of Paraná in Southern Brazil. We employed spoligotyping and mycobacterial interspersed repetitive units-variable number tandem repeat (MIRU-VNTR) techniques to genotype M. tuberculos isisolates from patients with pulmonary tuberculosis (TB). The 93 isolates analyzed by spoligotyping were divided into 36 different patterns, 30 of which were described in the SITVIT database. Latin American and Mediterranean, Haarlem and T families were responsible for 26.9%, 17.2% and 11.8% of TB cases, respectively. From the 84 isolates analyzed by MIRU-VNTR, 58 shared a unique pattern and the remaining 26 belonged to nine clusters. The MIRU loci 40, 23, 10 and 16 were the most discriminatory. A combination of MIRU-VNTR and spoligotyping resulted in 85.7% discriminatory power (Hunter-Gaston index = 0.995). Thus, combining spoligotyping and MIRU-VNTR typing proved to be most useful for epidemiological study in this low-endemic setting in Southern Brazil. The current study demonstrated that there is significant diversity in circulating strains in the city of Maringá and the surrounding regions, with no single genotype of M. tuberculosis predominating.     

Characterization of M. tuberculosis strains from west African patients by spoligotyping

Analysis of Mycobacterium tuberculosis strains was carried out using isolates collected from 69 Senegalese and 20 Ivory Coast tuberculosis patients. These 89 isolates were typed by means of the spoligotyping technique, showing clusterized populations of bacterial strains. In the Senegalese patients, 35 genetic profiles were observed with 10 clusters of spoligotypes from 44 isolates. Among Ivory Coast patients, 11 spoligotypes were found for 20 isolates. A particular cluster of isolates was evident both in Senegalese (10) and Ivory Coast (11) patients. These results show the existence of polymorphism of the direct repeat region for African M. tuberculosis strains. However they suggest that additionnal markers are needed for accurate epidemiological studies in areas that are highly endemic for tuberculosis.     

A DNA chip-based spoligotyping method for the strain identification of Mycobacterium tuberculosis isolates

The clinical efficacy of a spoligotyping method for discriminating Mycobacterium tuberculosis strains was evaluated. Among the strains other than Beijing or Beijing like family, 30 different spoligotypes out of 39 strains were produced, which included 4 strains not having IS6110 sequence. The oligonucleotide chip-based spoligotyping technique is useful for early screening and detection of clonal proximity of M. tuberculosis isolates.     

Spoligotyping and variable number tandem repeat analysis of Mycobacterium bovis isolates from cattle in Brazil

We performed spoligotyping and 12-mycobacterial interspersed repetitive unit-variable number tandem repeats (MIRU-VNTRs) typing to characterise Mycobacterium bovis isolates collected from tissue samples of bovines with lesions suggestive for tuberculosis during slaughter inspection procedures in abattoirs in Brazil. High-quality genotypes were obtained with both procedures for 61 isolates that were obtained from 185 bovine tissue samples and all of these isolates were identified as M. bovis by conventional identification procedures. On the basis of the spoligotyping, 53 isolates were grouped into nine clusters and the remaining eight isolates were unique types, resulting in 17 spoligotypes. The majority of the Brazilian M. bovis isolates displayed spoligotype patterns that have been previously observed in strains isolated from cattle in other countries. MIRU-VNTR typing produced 16 distinct genotypes, with 53 isolates forming eight of the groups, and individual isolates with unique VNTR profiles forming the remaining eight groups. The allelic diversity of each VNTR locus was calculated and only two of the 12-MIRU-VNTR loci presented scores with either a moderate (0.4, MIRU16) or high (0.6, MIRU26) discriminatory index (h). Both typing methods produced similar discriminatory indexes (spoligotyping h = 0.85; MIRU-VNTR h = 0.86) and the combination of the two methods increased the h value to 0.94, resulting in 29 distinct patterns. These results confirm that spoligotyping and VNTR analysis are valuable tools for studying the molecular epidemiology of M. bovis infections in Brazil.     

Genetic variation and evolutionary origin of the direct repeat locus of Mycobacterium tuberculosis complex bacteria

The direct repeat region in Mycobacterium tuberculosis complex strains is composed of multiple direct variant repeats (DVRs), each of which is composed of a 36-bp direct repeat (DR) plus a nonrepetitive spacer sequence of similar size. It has been shown previously that clinical isolates show extensive polymorphism in the DR region by the variable presence of DVRs, and this polymorphism has been used in the epidemiology of tuberculosis. In an attempt to better understand the evolutionary scenario leading to polymorphic DR loci and to improve strain differentiation by spoligotyping, we characterized and compared the DNA sequences of the complete DR region and its flanking DNA of M. tuberculosis complex strains. We identified 94 different spacer sequences among 26 M. tuberculosis complex strains. No sequence homology was found between any of these spacers and M. tuberculosis DNA outside of the DR region or with any other known bacterial sequence. Although strains differed extensively in the presence or absence of DVRs, the order of the spacers in the DR locus was found to be well conserved. The data strongly suggest that the polymorphism in clinical isolates is the result of successive deletions of single discrete DVRs or of multiple contiguous DVRs from a primordial DR region containing many more DVRs than seen in present day isolates and that virtually no scrambling of DVRs took place during evolution. Because the majority of the novel spacer sequences identified in this study were confined to isolates of the rare Mycobacterium canettii taxon, the use of the novel spacers in spoligotyping led only to a slight improvement of strain differentiation by spoligotyping.     

A two-step strategy for molecular typing of multidrug-resistant Mycobacterium tuberculosis clinical isolates from Poland

Tuberculosis (TB) continues to be one of the most challenging public health problems in the world. An important contributor to the global burden of the disease is the emergence and spread of drug-resistant and particularly multidrug-resistant Mycobacterium tuberculosis strains (MDR), defined as being resistant to at least isoniazid and rifampicin. In recent years, the introduction of different DNA-based molecular typing methods has substantially improved the knowledge of the epidemiology of TB. The purpose of this study was to employ a combination of two PCR-based genotyping methods, namely spoligotyping and IS6110-Mtb1/Mtb2 PCR to investigate the clonal relatedness of MDR M. tuberculosis clinical isolates recovered from pulmonary TB patients from Poland. Among the 50 isolates examined, 28 (56%) were clustered by spoligotyping, whereas IS6110-Mtb1/Mtb2 PCR resulted in 16 (32%) clustered isolates. The isolates that clustered in both typing methods were assumed to be clonally related. A two-step strategy consisting of spoligotyping as a first-line test, performed on the entire pool of isolates, and IS6110-Mtb1/Mtb2 PCR typing as a confirmatory subtyping method, performed only within spoligotype-defined clusters, is an efficient approach for determining clonal relatedness among M. tuberculosis clinical isolates.     

At Baltic crossroads: a molecular snapshot of Mycobacterium tuberculosis population diversity in Kaliningrad, Russia

The Kaliningrad region is the westernmost part of the Russian Federation; it includes an enclave on the Baltic Sea inside the European Union separated from mainland Russia by Lithuania and Poland. The incidence of tuberculosis in Kaliningrad has shown a steady and dramatic increase from 83/100 000 in 2000 to 134/100 000 in 2006; the rate of multidrug-resistant tuberculosis (MDR-tuberculosis) in the Kaliningrad region was reported to be 30.5% among newly diagnosed tuberculosis patients. This study presents a first molecular snapshot of the population diversity of Mycobacterium tuberculosis in this region. A total of 90 drug-resistant and susceptible M. tuberculosis strains from Kaliningrad were subjected to spoligotyping, 12-locus MIRU typing and mutation analysis of the drug resistance genes rpoB and katG . A comparison with international databases showed that the M. tuberculosis population in this region shares a joint pool of strains with the European part of Russia, and also exhibits a certain affinity with those of its northern European neighbours, such as Poland and Germany. Comparison of the genotyping and drug resistance data emphasized that the high prevalence of the MDR Beijing genotype strains is a major cause of the adverse epidemiological situation of MDR-tuberculosis in the Kaliningrad region.     

Comparison of spoligotyping, mycobacterial interspersed repetitive units typing and IS6110-RFLP in a study of genotypic diversity of Mycobacterium tuberculosis in Delhi, North India

The aim of the present study was to compare polymerase chain reaction (PCR)-based methods--spoligotyping and mycobacterial interspersed repetitive units (MIRU) typing--with the gold-standard IS6110 restriction fragment length polymorphism (RFLP) analysis in 101 isolates of Mycobacterium tuberculosis to determine the genetic diversity of M. tuberculosis clinical isolates from Delhi, North India. Spoligotyping resulted in 49 patterns (14 clusters); the largest cluster was composed of Spoligotype International Types (SITs)26 [Central-Asian (CAS)1-Delhi lineage], followed by SIT11 [East-African-Indian (EAI) 3-Indian lineage]. A large number of isolates (75%) belonged to genotypic lineages, such as CAS, EAI and Manu, with a high specificity for the Indian subcontinent, emphasising the complex diversity of the phylogenetically coherent M. tuberculosis in North India. MIRU typing, using 11 discriminatory loci, was able to distinguish between all but two strains based on individual patterns. IS6110-RFLP analysis (n = 80 strains) resulted in 67 unique isolates and four clusters containing 13 strains. MIRUs discriminated all 13 strains, whereas spoligotyping discriminated 11 strains. Our results validate the use of PCR-based molecular typing of M. tuberculosis using repetitive elements in Indian isolates and demonstrate the usefulness of MIRUs for discriminating low-IS6110-copy isolates, which accounted for more than one-fifth of the strains in the present study.     

Identification of drug resistance mutations among Mycobacterium bovis lineages in the Americas

Identifying the Mycobacterium tuberculosis resistance mutation patterns is of the utmost importance to assure proper patient’s management and devising of control programs aimed to limit spread of disease. Zoonotic Mycobacterium bovis infection still represents a threat to human health, particularly in dairy production regions. Routinary, molecular characterization of M. bovis is performed primarily by spoligotyping and mycobacterial interspersed repetitive units (MIRU) while next generation sequencing (NGS) approaches are often performed by reference laboratories. However, spoligotyping and MIRU methodologies lack the resolution required for the fine characterization of tuberculosis isolates, particularly in outbreak settings. In conjunction with sophisticated bioinformatic algorithms, whole genome sequencing (WGS) analysis is becoming the method of choice for advanced genetic characterization of tuberculosis isolates. WGS provides valuable information on drug resistance and compensatory mutations that other technologies cannot assess. Here, we performed an analysis of the most frequently identified mutations associated with tuberculosis drug resistance and their genetic relationship among 2,074 Mycobacterium bovis WGS recovered primarily from non-human hosts. Full-length gene sequences harboring drug resistant associated mutations and their phylogenetic relationships were analyzed. The results showed that M. bovis isolates harbor mutations conferring resistance to both first- and second-line antibiotics. Mutations conferring resistance for isoniazid, fluoroquinolones, streptomycin, and aminoglycosides were identified among animal strains. Our findings highlight the importance of molecular surveillance to monitor the emergence of mutations associated with multi and extensive drug resistance in livestock and other non-human mammals.     

Typing of Mycobacterium tuberculosis cultures from Samara region by the variable number of tandem repeats

To type Mycobacterium tuberculosis (MT) strains by the variable number of tandem repeats (VNTR), 136 MT cultures, isolated in 5 main general therapeutic laboratories and penitentiary antituberculosis institutions of the Samara region, were studied. Gene typing revealed that the greatest number of MT strains (73) belonged to VNTR type 42435. It was followed by VNTR type 22232, found in 13 isolated cultures. Among the MT cultures of the most widely spread VNTR type 42435, rifampicin-resistant strains prevailed (57 strains, i.e. 78%), while strains belonging to VNTR type 22232 were mainly sensitive to rifampicin (84%). VNTR typing of MT typing may be useful for epidemiological studies in the field of phthisiology.     

Spoligotyping of mycobacterium tuberculosis isolates obtained from patients in the Samara region

The spoligotyping of 138 M. tuberculosis isolates obtained on the territory of the Samara region made it possible to classify them as belonging to 27 groups. The largest cluster including 94 strains (68.1%) belonged to Peking spoligotype. As shown with the use of the commercial system INNO-LiPA, 78 out of 134 strains (58.2%) had mutations in different sites of gene pro B. The analysis of the markers of resistance to rifampicin in Peking spoligotype revealed that 65 (83.9%) out of 90 such cultures had mutations in gene pro B, i.e. potentially these strains had multiple antimicrobial resistance. This work demonstrated the prevalence of Peking spoligotype in a prison antituberculosis colony (81.6%).     

Molecular characterization of Mycobacterium tuberculosis isolates in a region of Brazil with a high incidence of tuberculosis

One hundred and seventy Mycobacterium tuberculosis clinical isolates were characterized by spoligotyping to evaluate the biodiversity of tubercle bacilli in a region of Brazil with a high incidence of tuberculosis (Pelotas and Rio Grande cities - Rio Grande do Sul State). The spoligotyping results were compared to the World Spoligotyping Database (Institut Pasteur de Guadeloupe), which contains data from >14,000 worldwide isolates of M. tuberculosis. The isolates clustered by spoligotyping were further characterized by IS6110-RFLP to confirm the clonal relationship. Sixty-six different spoligotypes were identified, grouping 125 of the isolates (74%). Approximately half of the isolates belonged to seven of the most frequently occurring spoligotypes in the database. Three shared types (with two or more isolates) not previously identified were given the type numbers 826, 827 and 863. An additional 45 spoligotypes were identified that did not match any existing database pattern. RFLP characterization reduced the number of isolates in most of the clusters, thereby showing a higher differentiation capacity than spoligotyping. These results highlight the importance of molecular epidemiology studies of tuberculosis in insufficiently studied regions with a high TB burden, in order to uncover the true extent of genetic diversity of the pathogen.     

High Prevalence of Shared International Type 53 among Mycobacterium tuberculosis Complex Strains in Retreated Patients from C?te d’Ivoire

Background

Genotyping methods are useful tools to provide information on tuberculosis epidemic. They can allow a better response from health authorities and the implementation of measures for tuberculosis control. This study aimed to identify the main lineages and clades of Mycobacterium tuberculosis complex strains circulating in Côte d’Ivoire.

Methods/Main Findings

Strains isolated from sputum samples of patients ongoing retreatment from all the country were characterized by spoligotyping and by MIRU-VNTR. Profiles obtained by spoligotyping were first compared to the SITVIT/SpolDB4 database for family assignment. Of 194 strains analysed, 146 (75.3%) belonged to the T lineage. The most predominant spoligotype was the shared international type 53 with 135 strains (69.6%). In contrast with neighbouring countries, LAM (11 strains, 5.7%) and H (9 strains 4.6%) lineages were slightly represented. Only 3 Beijing strains (1.5%) and 4 strains of Mycobacterium africanum (2%) were found. Analysis of the results obtained with MIRU-VNTR revealed also a high level of clustering.

Conclusion/Significance

The population of Mycobacterium tuberculosis complex strains among retreatment cases in Côte d’Ivoire exhibits a low diversity, allowing to assume recent transmission and locally based infection.     

Molecular inversion probes for sensitive detection of Mycobacterium tuberculosis

Nucleic acid-based detection of Mycobacterium tuberculosis infections has the potential to improve the analysis of the tuberculosis epidemiology and patient care by increasing the specificity and sensitivity of diagnosis. One potential diagnostic sequence, the DR locus, is present in all isolates of M. tuberculosis complex bacteria. It encodes no known gene product but is useful for molecular typing of M. tuberculosis because of its fortuitous absence in non-tuberculosis strains of mycobacteria. The DR locus contains a variable number of short direct repeats interspersed with non-repetitive spacers and is commonly used as a target for the spoligotyping method, a technique based on the detection of the presence or absence of distinct spacers between the repeats. In this study, we attempted to combine the specificity of molecular inversion probe (MIP) technology with the sensitivity of modified pyrosequencing readout in order to detect a short conserved 18 bp sequence included in DR locus in 25 isolates of M. tuberculosis. Additional sensitivity was obtained by introducing modifications in pyrosequencing methodology, by these means we achieved to detect 500 fg of M. tuberculosis DNA.     

Identification of unique genetic markers in Rv0927c among Mycobacterium tuberculosis W-Beijing strains

Fifty-six clinical isolates of Mycobacterium tuberculosis were analyzed by spoligotyping to determine the prevalence of W-Beijing strains. Forty-nine of the 56 isolates belonged to W-Beijing strains and 7 isolates were non-Beijing strains. Comparative two-dimensional gel electrophoresis analysis of protein patterns between the W-Beijing and non-Beijing strains identified a unique protein Rv0927c that is absent in the former but present in the latter and the reference strain M. tuberculosis H37Rv. Compared with 7 non-Beijing clinical isolates and H37Rv, all 49 W-Beijing strains had two characteristic mutations, a deletion of AGC at nucleotide position 421 of Rv0927c gene encoding a putative short dehydrogenase/reductase, causing deletion of serine codon at amino acid position 141 and a -127 G-->A mutation in Rv0927c-pstS3 intergenic region, resulting in failure to express Rv0927c. Western blot analysis indicated that polyclonal antibody raised against H37Rv Rv0927c overexpressed in Escherichia coli reacted with non-Beijing strains and H37Rv but not W-Beijing strains. Characteristic mutations of Rv0927c that are present in W-Beijing strains can be used as a novel genetic marker for rapid molecular typing of M. tuberculosis W-Beijing strains.     

Genetic Diversity of Mycobacterium tuberculosis from Guadalajara,Mexico and Identification of a Rare Multidrug Resistant Beijing Genotype

Determining the genetic diversity of M. tuberculosis strains allows identification of the distinct Mycobacterium tuberculosis genotypes responsible for tuberculosis in different regions. Several studies have reported the genetic diversity of M. tuberculosis strains in Mexico, but little information is available from the state of Jalisco. Therefore, the aim of this study was to determine the genetic diversity of Mycobacterium tuberculosis clinical isolates from Western Mexico. Sixty-eight M. tuberculosis isolates were tested for susceptibility to first-line drugs using manual Mycobacteria Growth Indicator Tube method and genotyped using spoligotyping and IS6110-restriction fragment length polymorphism (RFLP) pattern analyses. Forty-seven (69.1%) isolates were grouped into 10 clusters and 21 isolates displayed single patterns by spoligotyping. Three of the 21 single patterns corresponded to orphan patterns in the SITVITWEB database, and 1 new type that contained 2 isolates was created. The most prevalent lineages were T (38.2%), Haarlem (17.7%), LAM (17.7%), X (7.4%), S (5.9%), EAI (1.5%) and Beijing (1.5%). Six (12.8%) of the clustered isolates were MDR, and type 406 of the Beijing family was among the MDR isolates. Seventeen (26.2%) isolates were grouped into 8 clusters and 48 isolates displayed single patterns by IS6110-RFLP. Combination of IS6110-RFLP and spoligotyping reduced the clustering rate to 20.0%. The results show that T, Haarlem, and LAM are predominant lineages among clinical isolates of M. tuberculosis in Guadalajara, Mexico. Clustering rates indicated low transmission of MDR strains. We detected a rare Beijing genotype, SIT406, which was a highly resistant strain. This is the first report of this Beijing genotype in Latin America.     

A data-mining approach to spacer oligonucleotide typing of Mycobacterium tuberculosis

MOTIVATION: The Direct Repeat (DR) locus of Mycobacterium tuberculosis is a suitable model to study (i) molecular epidemiology and (ii) the evolutionary genetics of tuberculosis. This is achieved by a DNA analysis technique (genotyping), called sp acer oligo nucleotide typing (spoligotyping ). In this paper, we investigated data analysis methods to discover intelligible knowledge rules from spoligotyping, that has not yet been applied on such representation. This processing was achieved by applying the C4.5 induction algorithm and knowledge rules were produced. Finally, a Prototype Selection (PS) procedure was applied to eliminate noisy data. This both simplified decision rules, as well as the number of spacers to be tested to solve classification tasks. In the second part of this paper, the contribution of 25 new additional spacers and the knowledge rules inferred were studied from a machine learning point of view. From a statistical point of view, the correlations between spacers were analyzed and suggested that both negative and positive ones may be related to potential structural constraints within the DR locus that may shape its evolution directly or indirectly. RESULTS: By generating knowledge rules induced from decision trees, it was shown that not only the expert knowledge may be modeled but also improved and simplified to solve automatic classification tasks on unknown patterns. A practical consequence of this study may be a simplification of the spoligotyping technique, resulting in a reduction of the experimental constraints and an increase in the number of samples processed.     

Combined Species Identification, Genotyping, and Drug Resistance Detection of Mycobacterium tuberculosis Cultures by MLPA on a Bead-Based Array

The population structure of Mycobacterium tuberculosis is typically clonal therefore genotypic lineages can be unequivocally identified by characteristic markers such as mutations or genomic deletions. In addition, drug resistance is mainly mediated by mutations. These issues make multiplexed detection of selected mutations potentially a very powerful tool to characterise Mycobacterium tuberculosis. We used Multiplex Ligation-dependent Probe Amplification (MLPA) to screen for dispersed mutations, which can be successfully applied to Mycobacterium tuberculosis as was previously shown. Here we selected 47 discriminative and informative markers and designed MLPA probes accordingly to allow analysis with a liquid bead array and robust reader (Luminex MAGPIX technology). To validate the bead-based MLPA, we screened a panel of 88 selected strains, previously characterised by other methods with the developed multiplex assay using automated positive and negative calling. In total 3059 characteristics were screened and 3034 (99.2%) were consistent with previous molecular characterizations, of which 2056 (67.2%) were directly supported by other molecular methods, and 978 (32.0%) were consistent with but not directly supported by previous molecular characterizations. Results directly conflicting or inconsistent with previous methods, were obtained for 25 (0.8%) of the characteristics tested. Here we report the validation of the bead-based MLPA and demonstrate its potential to simultaneously identify a range of drug resistance markers, discriminate the species within the Mycobacterium tuberculosis complex, determine the genetic lineage and detect and identify the clinically most relevant non-tuberculous mycobacterial species. The detection of multiple genetic markers in clinically derived Mycobacterium tuberculosis strains with a multiplex assay could reduce the number of TB-dedicated screening methods needed for full characterization. Additionally, as a proportion of the markers screened are specific to certain Mycobacterium tuberculosis lineages each profile can be checked for internal consistency. Strain characterization can allow selection of appropriate treatment and thereby improve treatment outcome and patient management.     

Molecular epidemiology of drug-resistant tuberculosis in Sweden

Drug-resistant tuberculosis (TB), including the more severe forms of multidrug- and extensively drug-resistant forms, is an increasing public health concern globally. In Sweden the majority of patients with TB are immigrants from countries with a high incidence of TB including the drug-resistant forms. In this study, the spread of resistant TB in Sweden was investigated by molecular fingerprinting. Isolates resistant to at least one of the drugs, isoniazid, rifampicin, ethambutol or streptomycin, from 400 patients collected between 1994 and 2005, were studied by restriction fragment length polymorphism (RFLP) and by spoligotyping. Thirty-five clusters of patients infected with strains with identical RFLP and spoligotyping patterns (2-96 patients per cluster), comprising a total of 203 patients, were found. One large outbreak of isoniazid resistant tuberculosis was identified, involving 96 patients, mainly from the Horn of Africa. To identify chains of transmission, molecular epidemiological characterization of TB isolates should, if possible, be performed on isolates from all new TB patients.