Th22 response induced by Mycobacterium tuberculosis strains is closely related to severity of pulmonary lesions and bacillary load in patients with multi-drug-resistant tuberculosis.

The role of interleukin-22 (IL-22) in the pathogenesis or tissue repair in human tuberculosis (TB) remains to be established. Here, we aimed to explore the ex-vivo and in-vitro T helper 22 (Th22) response in TB patients and healthy donors (HD) induced by different local multi-drug-resistant (MDR) Mvcobacterium tuberculosis (Mtb) strains. For this purpose, peripheral blood mononuclear cells from drug-susceptible (S-TB) MDR-TB patients and HD were stimulated with local MDR strains and the laboratory strain H37Rv. IL-22 and IL-17 expression and senescent status were assessed in CD4+ and CD8+ cells by flow cytometry, while IL-22 amount was measured in plasma and culture supernatants by enzyme-linked immunosorbent assay (ELISA). We found lower IL-22 amounts in plasma from TB patients than HD, together with a decrease in the number of circulating T cells expressing IL-22. In a similar manner, all Mtb strains enhanced IL-22 secretion and expanded IL-22+ cells within CD4+ and CD8+ subsets, being the highest levels detected in S-TB patients. In MDR-TB, low systemic and Mtb-induced Th22 responses associated with high sputum bacillary load and bilateralism of lung lesions, suggesting that Th22 response could be influencing the ability of MDR-TB patients to control bacillary growth and tissue damage. In addition, in MDR-TB patients we observed that the higher the percentage of IL-22+ cells, the lower the proportion of programmed cell death 1 (PD-1)+ or CD57+ T cells. Furthermore, the highest proportion of senescent T cells was associated with severe lung lesions and bacillary load. Thus, T cell senescence would markedly influence Th22 response mounted by MDR-TB patients.

Detection of multidrug-resistant tuberculosis from stored DNA Samples: A multicenter study.

Background: In low-income countries, rapid detection of tuberculosis (TB) drug resistance is often restricted by the difficulties of transporting and storing sputum samples from remote health centers to the reference laboratories where molecular tests are available. The aim of this study was to evaluate the performance of four transport and storage systems for molecular detection of rifampicin (RIF) and isoniazid (INH) resistance. Methods: This was a multicenter study. Molecular detection of RIF and INH resistance was performed directly from smear-positive TB sputa spotted on a slide, FTA card, GenoCard, and ethanol using the Genotype MTBDRplus assay. The performance of the DNA extraction method from each storage support to detect drug resistance was assessed by calculating their sensitivity and specificity compared to the phenotypic method. Results: From all sites, the overall sensitivity and specificity for RIF-resistance detection was 88% and 85%, respectively, for slides, 86% and 92%, respectively, for GenoCard, 87% and 89%, respectively, for FTA card, and 88% and 92%, respectively, for ethanol. For INH-resistance detection, the overall sensitivity and specificity was 82% and 90%, respectively, for slides, 85% and 96%, respectively, for GenoCard, 86% and 92%, respectively, for FTA card, and 86% and 94%, respectively, for ethanol. Conclusion: Smear slides and filter cards showed to be very useful tools to facilitate DNA extraction from sputum samples with the potential to accelerate the detection of drug resistance in remote areas.

Genetic diversity of Mycobacterium avium complex strains isolated in Argentina by MIRU-VNTR.

Mycobacterium avium sp. avium (MAA), M. avium sp. hominissuis (MAH), and M. avium sp. paratuberculosis (MAP) are the main members of the M. avium complex (MAC) causing diseases in several hosts. The aim of this study was to describe the genetic diversity of MAC isolated from different hosts. Twenty-six MAH and 61 MAP isolates were recovered from humans and cattle, respectively. GenoType CM® and IS1311-PCR were used to identify Mycobacterium species. The IS901-PCR was used to differentiate between MAH and MAA, while IS900-PCR was used to identify MAP. Genotyping was performed using a mycobacterial interspersed repetitive-unit-variable-number tandem-repeat (MIRU-VNTR) scheme (loci: 292, X3, 25, 47, 3, 7, 10, 32) and patterns (INMV) were assigned according to the MAC-INMV database (http://mac-inmv.tours.inra.fr/). Twenty-two (22/26, 84·6%) MAH isolates were genotyped and 16 were grouped into the following, INMV 92, INMV 121, INMV 97, INMV 103, INMV 50, and INMV 40. The loci X3 and 25 showed the largest diversity (D: 0·5844), and the global discriminatory index (Hunter and Gaston discriminatory index, HGDI) was 0·9300. MAP (100%) isolates were grouped into INMV 1, INMV 2, INMV 11, INMV 8, and INMV 5. The HGDI was 0·6984 and loci 292 and 7 had the largest D (0·6980 and 0·5050). MAH presented a higher D when compared with MAP. The MIRU-VNTR was a useful tool to describe the genetic diversity of both MAH and MAP as well as to identify six new MAH patterns that were conveniently reported to the MAC-INMV database. It was also demonstrated that, in the geographical region studied, human MAC cases were produced by MAH as there was no MAA found among the human clinical samples.

Molecular and phenotypic characterisation of Mycobacterium tuberculosis resistant to anti-tuberculosis drugs.

SETTING: Dr Cetrángolo Hospital, Buenos Aires, Argentina. OBJECTIVES: To characterise drug-resistant (DR), multidrug-resistant (MDR-) and extensively drug-resistant (XDR-) Mycobacterium tuberculosis isolates, and identify their genetic profiles, drug resistance levels and resistance-conferring mutations. DESIGN: Phenotypic drug susceptibility testing methods were used to determine drug resistance profiles. Minimal inhibitory concentrations (MICs) of isoniazid (INH), rifampicin (RMP) and levofloxacin (LVX) from 169 DR tuberculosis (TB) isolates, 78 of them monoresistant to INH, 13 to RMP, 7 to LVX, and 71 MDR-TB, were determined. Multiplex allele-specific polymerase chain reaction and DNA sequencing were used to detect mutations in katG, rpoB and gyrA/B genes. Genotyping was performed using spoligotyping and insertion sequence 6110 restriction fragment length polymorphism. RESULTS: In total, 38.9% of the INH-resistant (INH(R)) isolates had an MIC ≥ 32 g/ml; 61.3% of RMP-resistant (RMP(R)) isolates had an MIC ≥ 64 g/ml and 55.6% of the LVX-resistant (LVX(R)) isolates had an MIC 4 ≥ 16 g/ml. The main mutations found in INH(R) isolates were katG315 (53.7%) and inhAP-15 (25.5%), whereas in RMP(R) isolates the main mutations were rpoB531 (61.9%), followed by rpoB526 (16.7%). LVX(R) isolates showed mutations in gyrA94/90. Haarlem, LAM and T were the main spoligotyping families found. katG315 was mainly associated with Haarlem and LAM, whereas inhAP-15 was associated with T. CONCLUSIONS: Several isolates showed an association between high INH(R) levels and katG mutation; others from the Haarlem family were prone to becoming MDR-TB and continue to circulate in the community.

Rapid detection of multidrug-resistant Mycobacterium tuberculosis by multiplex allele-specific polymerase chain reaction.

SETTING: Dr Cetrangolo Hospital, Buenos Aires Province, Argentina. OBJECTIVE: To evaluate a multiplex allele-specific polymerase chain reaction (MAS-PCR) to detect multidrug-resistant tuberculosis (MDR-TB) clinical isolates and to describe the main mutations conferring resistance to isoniazid (INH) and rifampicin (RMP). DESIGN: Drug-resistant Mycobacterium tuberculosis clinical isolates were tested to detect mutations using MAS-PCR. The genes involved were katG, inhA promoter and rpoB. RESULTS: Among 193 clinical isolates included in the study, 52.6% of the INH-resistant isolates presented a mutation in the katG (315) gene, 28.1% in the inhAP (-15) and 3.0% in both. For the rpoB gene, 60% of the RMP-resistant isolates showed a mutation in codon 531, 17.5% in 526 and 2.5% in 516. Results were compared with those obtained by sequencing, and 100% concordance was obtained for the detection of the mutation in katG (315), 94.1% for inhAP (-15), and 97.8% for rpoB. The global concordance between both methods was 98%. CONCLUSIONS: The MAS-PCR system allowed the simultaneous and rapid detection of approximately 80.0% of the drug-resistant clinical isolates. This method could be used as a rapid and simple screening tool to detect drug-resistant TB in clinical practice.

Evaluation of MGIT 960 and the colorimetric-based method for tuberculosis drug susceptibility testing.

SETTING: Dr Cetrángolo Hospital, Buenos Aires Province, Argentina. OBJECTIVE: Evaluation of the BACTEC Mycobacteria Growth Indicator Tube (MGIT) 960 system and the colorimetric-based method (CMM) for first- and second-line drug susceptibility testing (FL-DST, SL-DST) against Mycobacterium tuberculosis. DESIGN: FL-DST was studied using SIRE MGIT 960. Minimal inhibitory concentrations (MICs) for isoniazid (INH), streptomycin, rifampicin (RMP), ethambutol (EMB) and levofloxacin (LVX) were also determined by CMM using 3-(4,5-dimethylthiazolyl-2)-2,5-diphenyltetrazolium bromide (MTT). MICs for amikacin (AMK), kanamycin (KM), capreomycin (CPM), ethionamide (ETH), cycloserine, ofloxacin (OFX), linezolide (LZ) and moxifloxacin (MFX) were determined on 94 multidrug-resistant M. tuberculosis isolates by MGIT 960 and CMM. Statistical methods were applied to define drug-susceptible and drug-resistant isolates on the basis of the comparison between results obtained by gold standards. RESULTS: A total of 1626 clinical isolates were studied. Critical drug concentrations could be defined in less than 10 days for both CMM and MGIT 960. CMM was cheaper but more laborious than MGIT 960. The highest performances of both methods were achieved for AMK, RMP, OFX, LZ and MFX, followed by INH, ETH, KM, CPM and LVX (tested only by CMM). CONCLUSIONS: Both methods could be implemented as rapid diagnostic tools to detect drug-resistant isolates in clinical practice.

Molecular typing of Mycobacterium bovis isolates in Argentina: first description of a person-to-person transmission case.

Bovine tuberculosis is caused by Mycobacterium bovis, a mycobacterium highly similar to M. tuberculosis that belongs to the M. tuberculosis complex. The main host of M. bovis is cattle but it also affects many other mammalians including humans. Tuberculosis in humans caused by either M. bovis or M. tuberculosis is clinically hard to distinguish. During 2004-2005, samples from 448 patients with diagnosis of TB were collected from different regions of Argentina. The PRA technique identified 400 isolates with representative patterns of mycobacterium. The predominant ones were the M. tuberculosis complex, the M. avium-M. intracellulare complex and M. gordonae. Samples with M. tuberculosis complex PRA restriction profiles were analyzed with a multiplex PCR to differentiate between M. tuberculosis and M. bovis. Multiplex PCR identified nine M. bovis. The results allowed the possibility to establish that 2% of pulmonary tuberculosis was due to M. bovis. Isolates of M. bovis from humans were examined using spoligotyping. These isolates presented five different spoligotypes. The main spoligotype was also the most frequently one found in cattle. The remaining human spoligotypes (grouped in clusters) are occasionally found in cattle. Variable number tandem repeat (VNTR) analysis identified five different patterns. By combining the results of spoligotyping and VNTR analysis, we were able to differentiate seven M. bovis isolates. The remaining two M. bovis samples showed the same spoligotype and VNTR profile and belonged to household contacts. An MDR-M. bovis was isolated from the samples of these household contacts. The identification of two epidemiologically linked cases of human M. bovis infection suggests person-to-person transmission of an MDR-M. bovis.

Tuberculosis transmission of predominant genotypes of Mycobacterium tuberculosis in northern suburbs of Buenos Aires city region.

In 2003, the incidence of tuberculosis in Argentina showed an increase compared to 2002. The severe national crisis at the end of the 90s has probably strongly contributed to this situation. The goal of this work was to estimate the extent of the spread of the most predominant Mycobacterium tuberculosis strains and to assess the spread of predominant M. tuberculosis clusters as determined by spoligotyping and IS6110 RFLP. The study involved 590 pulmonary, smear-positive TB cases receiving medical attention at health centers and hospitals in Northern Buenos Aires (NBA) suburbs, from October 2001 to December 2002. From a total of 208 clinical isolates belonging to 6 major clusters, 63 (30.2%) isolates had identical spoligotyping and IS6110 RFLP pattern. Only 22.2% were shown to have epidemiological connections with another member of their respective cluster. In these major clusters, 30.2% of the 208 TB cases studied by both molecular techniques and contact tracing could be convincingly attributable to a recently acquired infection. This knowledge may be useful to assess the clonal distribution of predominant M. tuberculosis clusters in Argentina, which may make an impact on TB control strategies.

Tuberculosis transmission of predominant genotypes of Mycobacterium tuberculosis in Northern suburbs of Buenos Aires city region / Transmisión de la tuberculosis por genotipos predominantes de Mycobacterium tuberculosis en la región Gran Buenos Aires Norte

In 2003, the incidence of tuberculosis in Argentina showed an increase compared to 2002. The severe national crisis at the end of the 90s has probably strongly contributed to this situation. The goal of this work was to estimate the extent of the spread of the most predominant Mycobacterium tuberculosis strains and to assess the spread of predominant M. tuberculosis clusters as determined by spoligotyping and IS6110 RFLP. The study involved 590 pulmonary, smear-positive TB cases receiving medical attention at health centers and hospitals in Northern Buenos Aires (NBA) suburbs, from October 2001 to December 2002. From a total of 208 clinical isolates belonging to 6 major clusters, 63 (30.2%) isolates had identical spoligotyping and IS6110 RFLP pattern. Only 22.2% were shown to have epidemiological connections with another member of their respective cluster. In these major clusters, 30.2% of the 208 TB cases studied by both molecular techniques and contact tracing could be convincingly attributable to a recently acquired infection. This knowledge may be useful to assess the clonal distribution of predominant M. tuberculosis clusters in Argentina, which may make an impact on TB control strategies.

La incidencia de la tuberculosis en Argentina mostró en 2003 un incremento en comparación con 2002. La grave crisis nacional a fines de los 90 ha probablemente contribuido en gran medida a esta situación. El objetivo del presente trabajo fue determinar la diversidad genética de aislamientos de Mycobacterium tuberculosis y el grado de dispersión de algunas cepas mayoritarias genéticamente relacionadas. El estudio involucró 590 aislamientos clínicos provenientes de muestras respiratorias con examen directo positivo, de pacientes atendidos en los hospitales y centros de salud que conforman la región Gran Buenos Aires Norte (NBA), de octubre de 2001 a diciembre de 2002. De 208 aislamientos que se encontraron en los 6 mayores clusters, 63 (30,2%) tenían patrones idénticos de spoligotyping y de IS6110 RFLP. En el 22,2% de los casos fue posible verificar la conexión epidemiológica con otro miembro del respectivo cluster. Concluimos que el 30,2% de estos agrupamientos principales pueden ser atribuidos a una infección reciente. Estos resultados pueden ser útiles para determinar la distribución clonal de los grupos predominantes de M. tuberculosis en Argentina, lo que puede impactar en las estrategias de control de la tuberculosis.

[Evaluation of a colorimetric micromethod for determining the minimal inhibitory concentration of antibiotics against Mycobacterium tuberculosis]. / Evaluación de un micrométodo colorimétrico para determinar la concentración inhibitoria mínima de drogas antituberculosas frente a Mycobacterium tuberculosis.

Multidrug-resistant tuberculosis (MDR) caused by strains resistant to both isoniazid and rifampin is now considered a serious sanitary problem worldwide. New technical tools for the early detection of these strains are urgently needed to avoid their spread within the community. We have evaluated a microplate colorimetric-based method to determine the minimal inhibitory concentration (MIC) of first-line antituberculosis drugs by using 3-(4, 5 dimethylthiazolyl 1-2 yl)-2,5 diphenyl tetrazolium bromide as a bacterial growth indicator (MTT) (M-MTT). A total of 603 clinical isolates, 507 from respiratory cases (84.1%) and 96 from non-respiratory cases (15.9%) were processed. The proportion method on a Löwenstein-Jensen medium (PM) with isoniazid (INH), 0.20 microg/ml; streptomycin (SM), 4.00 microg/ml; ethambutol (EMB), 2.00 microg/ml and rifampin (RMP), 40.00 microg/ml, was used as the gold standard. The drugs and the concentration range tested were: INH, 1.00-0.03 microg/ml; SM, 8.00-0.25 microg/ml; EMB, 32.00-1.00 microg/ml and RMP, 2.00-0.06 microg/ml. MIC results were obtained on an average of 8 days (range: 7-12). The cut-off values for each drug, calculated by the ROC curve method, were: INH, 0.25 microg/ml, RMP, 0.50 microg/ml, SM, 4.00 microg/ml and EMB, 4.00 microg/ml. Sensitivity and specificity for RMP were 100 %, while for INH, they were 97.8% and 99.5% respectively. The results obtained suggested that M-MTT is a low cost and easy to set up method that could be applied to MDR clinical diagnosis in developing countries.

Evaluación de un micrométodo colorimétrico para determinar la concentración inhibitoria mínima de drogas antituberculosas frente a Mycobacterium tuberculosis / Evaluation of a colorimetric micromethod for determining the minimal inhibitory concentration of antibiotics against Mycobacterium tuberculosis

La tuberculosis multidrogorresistente (MDR), originada por aislamientos de cepas simultáneamente resistentes a isoniacida y rifampicina, es reconocida en la actualidad como un problema sanitario mundial. Nuevas técnicas que permitan detectar en forma temprana cepas MDR son necesarias para evitar su dispersión en la comunidad. En este trabajo hemos evaluado el empleo de un micrométodo colorimétrico para determinar las concentraciones inhibitorias mínimas (CIM) de las drogas de primera línea frente a dichas cepas, usando el indicador: bromuro de 3-(4,5 dimetiltiazol-2-yl)-2,5 difeniltetrazolio (M-MTT). Junto a la cepa de referencia H37Rv se procesaron 603 aislamientos clínicos, 507 provenientes de casos pulmonares (84,1%) y 96 de extrapulmonares (15,9%). Como estándar de referencia se utilizó el método de proporciones en medio de Löwenstein-Jensen (MP), con isoniacida (INH), 0,20 µg/ml; estreptomicina (SM), 4,00 µg/ml; etambutol (EMB), 2,00 µg/ml y rifampicina (RMP), 40,00 µg/ml. Los intervalos de concentraciones de las drogas empleadas en el M-MTT fueron: INH, 1,00-0,03 µg/ml; SM, 8,00-0,25 µg/ml; EMB, 32,00-1,00 µg/ml y RMP: 2,00-0,06 µg/ml. El resultado de la CIM por el M-MTT fue obtenido en un tiempo promedio de 8 días (rango total: 7 a 12 días). Los puntos de corte para cada una de las drogas, calculados mediante el análisis de la curva ROC, fueron: INH, 0,25 µg/ml; RMP, 0,50 µg/ml; SM, 4,00 µg/ml y EMB, 4,00 µg/ml. Los valores de sensibilidad y especificidad fueron 100% en el caso de RMP; y 97,8% y 99,5%, respectivamente, para INH. El análisis estadístico de los resultados permitió concluir que el M-MTT es un método seguro para la rápida detección de MDR. Por su sencillez y bajo costo, podría ser aplicado en los países en vías de desarrollo.

Multidrug-resistant tuberculosis (MDR) caused by strains resistant to both isoniazid and rifampin is now considered a serious sanitary problem worldwide. New technical tools for the early detection of these strains are urgently needed to avoid their spread within the community. We have evaluated a microplate colorimetric-based method to determine the minimal inhibitory concentration (MIC) of first-line antituberculosis drugs by using 3-(4, 5 dimethylthiazolyl 1-2 yl)-2,5 diphenyl tetrazolium bromide as a bacterial growth indicator (MTT) (M-MTT). A total of 603 clinical isolates, 507 from respiratory cases (84.1%) and 96 from non-respiratory cases (15.9%) were processed. The proportion method on a Löwenstein-Jensen medium (PM) with isoniazid (INH), 0.20 µg/ml; streptomycin (SM), 4.00 µg/ml; ethambutol (EMB), 2.00 µg/ml and rifampin (RMP), 40.00 µg/ml, was used as the gold standard. The drugs and the concentration range tested were: INH, 1.00-0.03 µg/ml; SM, 8.00-0.25 µg/ml; EMB, 32.00-1.00 µg/ml and RMP, 2.00-0.06 µg/ml. MIC results were obtained on an average of 8 days (range: 7-12). The cut-off values for each drug, calculated by the ROC curve method, were: INH, 0.25 µg/ml, RMP, 0.50µg/ml, SM, 4.00 µg/ml and EMB, 4.00 µg/ml. Sensitivity and specificity for RMP were 100 %, while for INH, they were 97.8% and 99.5% respectively. The results obtained suggested that M-MTT is a low cost and easy to set up method that could be applied to MDR clinical diagnosis in developing countries.