The use of microbead-based spoligotyping for Mycobacterium tuberculosis complex to evaluate the quality of the conventional method: Providing guidelines for Quality Assurance when working on membranes

Fil: Abadia, Edgar. CNRS Université Paris-Sud 11 Universud. Institute of Genetics and Microbiology UMR8621; Francia.Fil: Zhang, Jian. CNRS Université Paris-Sud 11 Universud. Institute of Genetics and Microbiology UMR8621; Francia.Fil: Ritacco, Viviana. ANLIS Dr.C.G.Malbrán. Instituto Nacional de Enfermedades Infecciosas; Argentina.Fil: Kremer, Kristin. National Institute for Public Health and the Environment; Paises Bajos.Fil: Ruimy, Raymond. Université Paris- Diderot & Microbiology Laboratory; Francia.Fil: Rigouts, Leen. Prince Leopold Institute of Tropical Medicine. Mycobacteriology Unit; Bélgica.Fil: Gomes, Harrison Magdinier. Oswaldo Cruz Institute. Laboratory of Molecular Biology applied to Mycobacteria; Brasil.Fil: Elias, Atina Ribeiro. Oswaldo Cruz Institute. Laboratory of Molecular Biology applied to Mycobacteria; Brasil.Fil: Fauville-Dufaux, Maryse. Scientific Institute of Public Health. National Reference Centre of Tuberculosis and Mycobacteria; Bélgica.Fil: Stoffels, Karolien. Scientific Institute of Public Health. National Reference Centre of Tuberculosis and Mycobacteria; Bélgica.Fil: Rasolofo-Razanamparany, Voahangy. Institut Pasteur de Madagascar. Unité des Mycobactéries; Madagascar.Fil: Garcia de Viedma, Dario. Hospital Gregorio Marañón. Servicio de Microbiología Clínica y Enfermedades Infecciosas; España.Fil: Herranz, Marta. Hospital Gregorio Marañón. Servicio de Microbiología Clínica y Enfermedades Infecciosas; España.Fil: Al-Hajoj, Sahal. King Faisal Specialist Hospital and Research Center. Department of Comparative Medicine; Arabia Saudita.Fil: Rastogi, Nalin. Institut Pasteur de Guadeloupe. Unité de la Tuberculose et des Mycobactéries - WHO Supranational TB Reference Laboratory; Guadalupe.Fil: Garzelli, Carlo. Università di Pisa. Dipartimento di Patologia Sperimentale Biotecnologie Mediche Infettivologia ed Epidemiologia; Italia.Fil: Tortoli, Enrico. Careggi Hospital. Regional Reference Center for Mycobacteria; ItaliaFil: Suffys, Philip N. Oswaldo Cruz Institute. Laboratory of Molecular Biology applied to Mycobacteria; Brasil.Fil: van Soolingen, Dick. National Institute for Public Health and the Environment; Paises Bajos.Fil: Refregier, Guislaine. CNRS Université Paris-Sud 11 Universud. Institute of Genetics and Microbiology UMR8621; Francia.Fil: Sola, Christophe. CNRS Université Paris-Sud 11 Universud. Institute of Genetics and Microbiology UMR8621; Francia.Background: The classical spoligotyping technique, relying on membrane reverse line-blot hybridization of the spacers of the Mycobacterium tuberculosis CRISPR locus, is used world-wide (598 references in Pubmed on April 8th, 2011). However, until now no inter-laboratory quality control study had been undertaken to validate this technique. We analyzed the quality of membrane-based spoligotyping by comparing it to the recently introduced and highly robust microbead-based spoligotyping. Nine hundred and twenty-seven isolates were analyzed totaling 39,861 data points. Samples were received from 11 international laboratories with a worldwide distribution. Methods: The high-throughput microbead-based Spoligotyping was performed on CTAB and thermolyzate DNA extracted from isolated Mycobacterium tuberculosis complex (MTC) strains coming from the genotyping participating centers. Information regarding how the classical Spoligotyping method was performed by center was available. Genotype discriminatory analyses were carried out by comparing the spoligotypes obtained by both methods. The non parametric U-Mann Whitney homogeneity test and the Spearman rank correlation test were performed to validate the observed results. Results: Seven out of the 11 laboratories (63 %), perfectly typed more than 90% of isolates, 3 scored between 80-90% and a single center was under 80% reaching 51% concordance only. However, this was mainly due to discordance in a single spacer, likely having a non-functional probe on the membrane used. The centers using thermolyzate DNA performed as well as centers using the more extended CTAB extraction procedure. Few centers shared the same problematic spacers and these problematic spacers were scattered over the whole CRISPR locus (Mostly spacers 15, 14, 18, 37, 39, 40). Conclusions: We confirm that classical spoligotyping is a robust method with generally a high reliability in most centers. The applied DNA extraction procedure (CTAB or thermolyzate) did not affect the results in this study. However performance was center-dependent, suggesting that training is a key component in quality assurance of spoligotyping. Overall, no particular spacer yielded a higher degree of deviating results, suggesting that errors

Genetic diversity of the Mycobacterium tuberculosis Beijing family in Brazil and Mozambique and relation with infectivity and induction of necrosis in THP-1 cells

Introduction: The success of the Mycobacterium tuberculosis Beijing (MtbB) lineage in different geographical regions has been attributed to high transmission, increased virulence, drug resistance and rapid adaptation to the host. In some countries of secondary MtbB dispersion like South Africa and Peru, rising prevalence of the Beijing strains is registered. However, in neighboring countries to affected regions such as Mozambique and Brazil, respectively, the prevalence of these strains is still low and this could be due to biological particularities of the circulating MtbB strains and/or differentiated host susceptibility. Objective: To characterize genetically and phenotypically MtbB strains isolated in Brazil (n = 8) and Mozambique (n = 17). Methods: This is a descriptive study of genotypes of the MtbB isolates, determined by spoligotyping, MIRU-VNTR typing, analysis of the IS6110 copy number in the NTF region and screening for mutations in mutT2, mutT4, rpoB, katG and pks 15/1 genes. Virulence-associated properties of the studied isolates were verified in the in vitro model of infection of human THP-1 cells. Results: The genotypes defined by the 24VNTRs were distinct for all isolates included in this study and presented an HGDI of 0.997. The VNTR patterns with seven copies of MIRU26 and seven copies of QUB26, representative for the previously described MtbB genotype B0, dominant in Russia, were detected in 38.5% of the studied isolates. In addition, all isolates presented RD105 deletion and a 7 bp insertion in pks15/1 gene. Almost all tested strains belonged to the RD181 sublineage, with the exception of two strains from Mozambique of RD150 sublineage. Combined analysis of the NTF region integrity and mutations in mutT genes showed that 62.5% and 47% of isolates obtained in Brazil and Mozambique, respectively, were of the ancestral genotype. The virulence index of the ancient isolates, evaluated in the THP-1 cells, was significantly lower than that of the modern genotype group. Conclusions: These data demonstrate genotype particularities of the Beijing strains isolated in Brazil and Mozambique, two countries of low prevalence of the MtbB lineage in local Mtb populations. In contrast to the neighboring countries with high prevalence of the MtbB strains of modern sublineage, significant proportions of the isolates obtained in Brazil and Mozambique were presented by the strains of the ancient sublineage. Our data suggest that lower virulence of the ancient strains, compared with the modern strains, could be involved in the slow spread of the MtbB strains in some regions951S190S196CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQsem informaçã

Genetic Diversity Of The Mycobacterium Tuberculosis Beijing Family In Brazil And Mozambique And Relation With Infectivity And Induction Of Necrosis In Thp-1 Cells.

The success of the Mycobacterium tuberculosis Beijing (MtbB) lineage in different geographical regions has been attributed to high transmission, increased virulence, drug resistance and rapid adaptation to the host. In some countries of secondary MtbB dispersion like South Africa and Peru, rising prevalence of the Beijing strains is registered. However, in neighboring countries to affected regions such as Mozambique and Brazil, respectively, the prevalence of these strains is still low and this could be due to biological particularities of the circulating MtbB strains and/or differentiated host susceptibility. To characterize genetically and phenotypically MtbB strains isolated in Brazil (n = 8) and Mozambique (n = 17). This is a descriptive study of genotypes of the MtbB isolates, determined by spoligotyping, MIRU-VNTR typing, analysis of the IS6110 copy number in the NTF region and screening for mutations in mutT2, mutT4, rpoB, katG and pks 15/1 genes. Virulence-associated properties of the studied isolates were verified in the in vitro model of infection of human THP-1 cells. The genotypes defined by the 24VNTRs were distinct for all isolates included in this study and presented an HGDI of 0.997. The VNTR patterns with seven copies of MIRU26 and seven copies of QUB26, representative for the previously described MtbB genotype B0, dominant in Russia, were detected in 38.5% of the studied isolates. In addition, all isolates presented RD105 deletion and a 7 bp insertion in pks15/1 gene. Almost all tested strains belonged to the RD181 sublineage, with the exception of two strains from Mozambique of RD150 sublineage. Combined analysis of the NTF region integrity and mutations in mutT genes showed that 62.5% and 47% of isolates obtained in Brazil and Mozambique, respectively, were of the ancestral genotype. The virulence index of the ancient isolates, evaluated in the THP-1 cells, was significantly lower than that of the modern genotype group. These data demonstrate genotype particularities of the Beijing strains isolated in Brazil and Mozambique, two countries of low prevalence of the MtbB lineage in local Mtb populations. In contrast to the neighboring countries with high prevalence of the MtbB strains of modern sublineage, significant proportions of the isolates obtained in Brazil and Mozambique were presented by the strains of the ancient sublineage. Our data suggest that lower virulence of the ancient strains, compared with the modern strains, could be involved in the slow spread of the MtbB strains in some regions.95 Suppl 1S190-19