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1.
J Clin Microbiol ; 50(8): 2645-50, 2012 Aug.
Article in English | MEDLINE | ID: mdl-22649022

ABSTRACT

Molecular typing of Mycobacterium tuberculosis can be used to elucidate the epidemiology of tuberculosis, including the rates of clustering, the frequency of polyclonal disease, and the distribution of genotypic families. We performed IS6110 typing and spoligotyping on M. tuberculosis strains isolated from HIV-infected subjects at baseline or during follow-up in the DarDar Trial in Tanzania and on selected community isolates. Clustering occurred in 203 (74%) of 275 subjects: 124 (80%) of 155 HIV-infected subjects with baseline isolates, 56 (69%) of 81 HIV-infected subjects with endpoint isolates, and 23 (59%) of 39 community controls. Overall, 113 (41%) subjects had an isolate representing the East Indian "GD" family. The rate of clustering was similar among vaccine and placebo recipients and among subjects with or without cellular immune responses to mycobacterial antigens. Polyclonal disease was detected in 6 (43%) of 14 patients with multiple specimens typed. Most cases of HIV-associated tuberculosis among subjects from this study in Dar es Salaam resulted from recently acquired infection. Polyclonal infection was detected and isolates representing the East Indian GD strain family were the most common.


Subject(s)
AIDS-Related Opportunistic Infections/epidemiology , HIV Infections/complications , Molecular Typing , Mycobacterium tuberculosis/classification , Mycobacterium tuberculosis/genetics , Tuberculosis/epidemiology , AIDS-Related Opportunistic Infections/microbiology , Adult , Cluster Analysis , Coinfection/microbiology , DNA Transposable Elements , DNA, Bacterial/genetics , Female , Genotype , Humans , Male , Molecular Epidemiology , Mycobacterium tuberculosis/isolation & purification , Prevalence , Tanzania/epidemiology , Tuberculosis/microbiology
2.
Methods Mol Biol ; 551: 117-28, 2009.
Article in English | MEDLINE | ID: mdl-19521871

ABSTRACT

Spacer oligonucleotide typing, or spoligotyping, is a rapid, polymerase chain reaction (PCR)-based method for genotyping strains of the Mycobacterium tuberculosis complex (MTB). Spoligotyping data can be represented in absolute terms (digitally), and the results can be readily shared among laboratories, thereby enabling the creation of large international databases. Since the spoligotype assay was standardized more than 10 yr ago, tens of thousands of isolates have been analyzed, giving a global picture of MTB strain diversity. The method is highly reproducible and has been developed into a high-throughput assay for large molecular epidemiology projects. In the United States, spoligotyping is employed on nearly all newly identified culture-positive cases of tuberculosis as part of a national genotyping program. The strengths of this method include its low cost, its digital data results, the good correlation of its results with other genetics markers, its fair level of overall differentiation of strains, its high-throughput capacity, and its ability to provide species information. However, the method's weaknesses include the inability of spoligotyping to differentiate well within large strain families such as the Beijing family, the potential for convergent evolution of patterns, the limited success in improving the assay through expansion, and the difficulty in obtaining the specialized membranes and instrumentation.


Subject(s)
Bacterial Typing Techniques/methods , Molecular Epidemiology/methods , Mycobacterium tuberculosis/classification , Mycobacterium tuberculosis/genetics , Base Sequence , DNA Fingerprinting/methods , DNA Primers/genetics , DNA, Bacterial/genetics , DNA, Intergenic/genetics , Databases, Nucleic Acid , Genotype , Humans , Polymerase Chain Reaction/methods , Species Specificity , Tuberculosis/epidemiology , Tuberculosis/microbiology
3.
Chest ; 131(2): 497-501, 2007 Feb.
Article in English | MEDLINE | ID: mdl-17296653

ABSTRACT

BACKGROUND: Mycobacterium tuberculosis strains belonging to the W-Beijing family have received broad clinical and public health attention because of their rapid worldwide spread and their frequent association with outbreaks, multidrug resistance, and treatment failures and relapses. METHODS: The present study examined a large number of multidrug-resistant strain-W isolates (isolates of 29 patients) by susceptibility testing for pyrazinamide (PZA) using the reference BACTEC 460TB method (Becton Dickinson Diagnostic Instrument Systems; Sparks, MD) and also by DNA sequencing of the pncA gene. RESULTS: We found that despite of the presence of a strain W-specific Thr47Ala in the pncA gene, all strains showed susceptibility to PZA in the reference BACTEC 460TB system due to their higher minimum inhibitory concentrations (relative to BACTEC 460TB PZA-susceptible strains). CONCLUSIONS: Our results suggest that the current radiometric reference method cannot reproducibly detect PZA resistance in patients infected with W-Beijing strains. Therefore, PZA susceptibility testing should instead be based on analysis of the pncA gene for resistance-associated mutations.


Subject(s)
Amidohydrolases/genetics , Antitubercular Agents/pharmacology , Microbial Sensitivity Tests/methods , Mycobacterium tuberculosis/drug effects , Pyrazinamide/pharmacology , Sequence Analysis, DNA , Drug Resistance, Multiple, Bacterial , Humans , Mycobacterium tuberculosis/genetics , Reproducibility of Results , Tuberculosis, Multidrug-Resistant/microbiology
4.
BMC Microbiol ; 6: 23, 2006 Mar 06.
Article in English | MEDLINE | ID: mdl-16519816

ABSTRACT

BACKGROUND: The Direct Repeat locus of the Mycobacterium tuberculosis complex (MTC) is a member of the CRISPR (Clustered regularly interspaced short palindromic repeats) sequences family. Spoligotyping is the widely used PCR-based reverse-hybridization blotting technique that assays the genetic diversity of this locus and is useful both for clinical laboratory, molecular epidemiology, evolutionary and population genetics. It is easy, robust, cheap, and produces highly diverse portable numerical results, as the result of the combination of (1) Unique Events Polymorphism (UEP) (2) Insertion-Sequence-mediated genetic recombination. Genetic convergence, although rare, was also previously demonstrated. Three previous international spoligotype databases had partly revealed the global and local geographical structures of MTC bacilli populations, however, there was a need for the release of a new, more representative and extended, international spoligotyping database. RESULTS: The fourth international spoligotyping database, SpolDB4, describes 1939 shared-types (STs) representative of a total of 39,295 strains from 122 countries, which are tentatively classified into 62 clades/lineages using a mixed expert-based and bioinformatical approach. The SpolDB4 update adds 26 new potentially phylogeographically-specific MTC genotype families. It provides a clearer picture of the current MTC genomes diversity as well as on the relationships between the genetic attributes investigated (spoligotypes) and the infra-species classification and evolutionary history of the species. Indeed, an independent Naïve-Bayes mixture-model analysis has validated main of the previous supervised SpolDB3 classification results, confirming the usefulness of both supervised and unsupervised models as an approach to understand MTC population structure. Updated results on the epidemiological status of spoligotypes, as well as genetic prevalence maps on six main lineages are also shown. Our results suggests the existence of fine geographical genetic clines within MTC populations, that could mirror the passed and present Homo sapiens sapiens demographical and mycobacterial co-evolutionary history whose structure could be further reconstructed and modelled, thereby providing a large-scale conceptual framework of the global TB Epidemiologic Network. CONCLUSION: Our results broaden the knowledge of the global phylogeography of the MTC complex. SpolDB4 should be a very useful tool to better define the identity of a given MTC clinical isolate, and to better analyze the links between its current spreading and previous evolutionary history. The building and mining of extended MTC polymorphic genetic databases is in progress.


Subject(s)
Databases, Factual , Mycobacterium tuberculosis/classification , Mycobacterium tuberculosis/genetics , Polymorphism, Genetic , Tuberculosis/epidemiology , Computational Biology , Genetics, Population , Mycobacterium tuberculosis/isolation & purification , Phylogeny , Serotyping
5.
J Theor Biol ; 239(2): 220-5, 2006 Mar 21.
Article in English | MEDLINE | ID: mdl-16242724

ABSTRACT

A phylogeny of the Mycobacterium tuberculosis complex has recently shown that the animal-adapted strains are found in a single lineage marked by the deletion of chromosomal region 9 (RD9) [Brosch et al., 2002. A new evolutionary scenario for the Mycobacterium tuberculosis complex. Proc. Natl Acad. Sci. USA 99 (6), 3684-3689]. We have obtained the spoligotype patterns of the RD9 deleted strains used to generate this new evolutionary scenario and we show that the presence of spoligotype spacers 3, 9, 16, 39, and 40-43 is phylogenetically informative in this lineage. We have used the phylogenetically informative spoligotype spacers to screen a database of spoligotype patterns and have identified further members of a group of strains apparently host-adapted to antelopes. The presence of the spoligotype spacers is congruent with the phylogeny generated by chromosomal deletions, suggesting that recombination is rare or absent between strains of this lineage. The phylogenetically informative spacers, in concert with the previously identified single nucleotide mutations and chromosomal deletions, can be used to identify a series of clades in the RD9 deleted lineage each with a separate host preference. Finally, we discuss the application of the ecotype concept to this series of clades and suggest that the M. tuberculosis complex may best be described as a series of host-adapted ecotypes.


Subject(s)
Mycobacterium tuberculosis/genetics , Animals , Antelopes/microbiology , Bacterial Typing Techniques , Biological Evolution , Genes, Bacterial , Mycobacterium tuberculosis/classification , Phylogeny
6.
Emerg Infect Dis ; 12(5): 719-24, 2006 May.
Article in English | MEDLINE | ID: mdl-16704826

ABSTRACT

In 2001, New York City implemented genotyping to its tuberculosis (TB) control activities by using IS6110 restriction fragment length polymorphism (RFLP) and spoligotyping to type isolates from culture-positive TB patients. Results are used to identify previously unknown links among genotypically clustered patients, unidentified sites of transmission, and potential false-positive cultures. From 2001 to 2003, spoligotype and IS6110-based RFLP results were obtained for 90.7% of eligible and 93.7% of submitted isolates. Fifty-nine (2.4%) of 2,437 patient isolates had false-positive culture results, and 205 genotype clusters were identified, with 2-81 cases per cluster. Cluster investigations yielded 57 additional links and 17 additional sites of transmission. Four additional TB cases were identified as a result of case finding initiated through cluster investigations. Length of unnecessary treatment decreased among patients with false-positive cultures.


Subject(s)
Mycobacterium tuberculosis/classification , Mycobacterium tuberculosis/genetics , Polymorphism, Restriction Fragment Length , Tuberculosis/microbiology , Bacterial Typing Techniques , Cluster Analysis , Cross Infection/prevention & control , False Positive Reactions , Genotype , Humans , Mycobacterium tuberculosis/isolation & purification , New York City/epidemiology , Tuberculosis/epidemiology , Tuberculosis/prevention & control , Tuberculosis/transmission , Tuberculosis, Multidrug-Resistant/epidemiology , Tuberculosis, Multidrug-Resistant/microbiology , Tuberculosis, Multidrug-Resistant/prevention & control
7.
Emerg Infect Dis ; 8(11): 1285-9, 2002 Nov.
Article in English | MEDLINE | ID: mdl-12453357

ABSTRACT

Massachusetts was one of seven sentinel surveillance sites in the National Tuberculosis Genotyping and Surveillance Network. From 1996 through 2000, isolates from new patients with tuberculosis (TB) underwent genotyping. We describe the impact that genotyping had on public health practice in Massachusetts and some limitations of the technique. Through genotyping, we explored the dynamics of TB outbreaks, investigated laboratory cross-contamination, and identified Mycobacterium tuberculosis strains, transmission sites, and accurate epidemiologic links. Genotyping should be used with epidemiologic follow-up to identify how resources can best be allocated to investigate genotypic findings.


Subject(s)
Bacterial Typing Techniques/statistics & numerical data , Mycobacterium tuberculosis/genetics , Public Health Practice , Tuberculosis/epidemiology , Tuberculosis/microbiology , Bacterial Typing Techniques/methods , Cluster Analysis , Contact Tracing , Diagnostic Errors , Disease Outbreaks , Equipment Contamination , Genotype , Ill-Housed Persons , Humans , Laboratories/standards , Massachusetts/epidemiology , Mycobacterium tuberculosis/classification , Mycobacterium tuberculosis/isolation & purification , Public Health Practice/standards , Sentinel Surveillance , Tuberculosis/transmission
8.
Emerg Infect Dis ; 8(11): 1306-9, 2002 Nov.
Article in English | MEDLINE | ID: mdl-12453361

ABSTRACT

Spacer oligonucleotide (spoligotyping) analysis is a rapid polymerase chain reaction-based method of DNA fingerprinting the Mycobacterium tuberculosis complex. We examined spoligotype data using a bioinformatic tool (sequence logo analysis) to elucidate undisclosed phylogenetic relationships and gain insights into the global dissemination of strains of tuberculosis. Logo analysis of spoligotyping data provides a simple way to describe a fingerprint signature and may be useful in categorizing unique spoligotypes patterns as they are discovered. Large databases of DNA fingerprint information, such as those from the U.S. National Tuberculosis Genotyping and Surveillance Network and the European Concerted Action on Tuberculosis, contain information on thousands of strains from diverse regions. The description of related spoligotypes has depended on exhaustive listings of the individual spoligotyping patterns. Logo analysis may become another useful graphic method of visualizing and presenting spoligotyping clusters from these databases.


Subject(s)
Computational Biology/methods , DNA, Bacterial/analysis , Mycobacterium tuberculosis/genetics , Bacterial Typing Techniques , DNA Fingerprinting , DNA, Bacterial/genetics , DNA, Intergenic/analysis , Databases, Factual , Genotype , Humans , Oligonucleotides/genetics
9.
Emerg Infect Dis ; 8(11): 1347-9, 2002 Nov.
Article in English | MEDLINE | ID: mdl-12453368

ABSTRACT

We present a short summary of recent observations on the global distribution of the major clades of the Mycobacterium tuberculosis complex, the causative agent of tuberculosis. This global distribution was defined by data-mining of an international spoligotyping database, SpolDB3. This database contains 11708 patterns from as many clinical isolates originating from more than 90 countries. The 11708 spoligotypes were clustered into 813 shared types. A total of 1300 orphan patterns (clinical isolates showing a unique spoligotype) were also detected.


Subject(s)
Mycobacterium tuberculosis/classification , Mycobacterium tuberculosis/isolation & purification , Tuberculosis/microbiology , Databases, Factual , Phylogeny , Tuberculosis/epidemiology
10.
J Clin Microbiol ; 41(5): 1963-70, 2003 May.
Article in English | MEDLINE | ID: mdl-12734235

ABSTRACT

The present update on the global distribution of Mycobacterium tuberculosis complex spoligotypes provides both the octal and binary descriptions of the spoligotypes for M. tuberculosis complex, including Mycobacterium bovis, from >90 countries (13,008 patterns grouped into 813 shared types containing 11,708 isolates and 1,300 orphan patterns). A number of potential indices were developed to summarize the information on the biogeographical specificity of a given shared type, as well as its geographical spreading (matching code and spreading index, respectively). To facilitate the analysis of hundreds of spoligotypes each made up of a binary succession of 43 bits of information, a number of major and minor visual rules were also defined. A total of six major rules (A to F) with the precise description of the extra missing spacers (minor rules) were used to define 36 major clades (or families) of M. tuberculosis. Some major clades identified were the East African-Indian (EAI) clade, the Beijing clade, the Haarlem clade, the Latin American and Mediterranean (LAM) clade, the Central Asian (CAS) clade, a European clade of IS6110 low banders (X; highly prevalent in the United States and United Kingdom), and a widespread yet poorly defined clade (T). When the visual rules defined above were used for an automated labeling of the 813 shared types to define nine superfamilies of strains (Mycobacterium africanum, Beijing, M. bovis, EAI, CAS, T, Haarlem, X, and LAM), 96.9% of the shared types received a label, showing the potential for automated labeling of M. tuberculosis families in well-defined phylogeographical families. Intercontinental matches of shared types among eight continents and subcontinents (Africa, North America, Central America, South America, Europe, the Middle East and Central Asia, and the Far East) are analyzed and discussed.


Subject(s)
Mycobacterium tuberculosis/genetics , Mycobacterium tuberculosis/isolation & purification , Bacterial Typing Techniques , DNA, Bacterial/genetics , DNA, Intergenic/genetics , Databases, Nucleic Acid , Humans , Molecular Epidemiology , Mycobacterium bovis/classification , Mycobacterium bovis/genetics , Mycobacterium bovis/isolation & purification , Mycobacterium tuberculosis/classification , Tuberculosis/epidemiology , Tuberculosis/microbiology
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