Fas ligand-induced apoptosis of infected human macrophages reduces the viability of intracellular Mycobacterium tuberculosis.

Mycobacterium tuberculosis-specific cytolytic activity is mediated mostly by CD4+CTL in humans. CD4+CTL kill infected target cells by inducing Fas (APO-1/CD95)-mediated apoptosis. We have examined the effect of Fas ligand (FasL)-induced apoptosis of human macrophages infected in vitro with M. tuberculosis on the viability of the intracellular bacilli. Human macrophages expressed Fas and underwent apoptosis after incubation with soluble recombinant FasL. In macrophages infected either with an attenuated (H37Ra) or with a virulent (H37Rv) strain of M. tuberculosis, the apoptotic death of macrophages was associated with a substantial reduction in bacillary viability. TNF-induced apoptosis of infected macrophages was coupled with a similar reduction in mycobacterial viability, while the induction of nonapoptotic complement-induced cell death had no effect on bacterial viable counts. Infected macrophages also showed a reduced susceptibility to FasL-induced apoptosis correlating with a reduced level of Fas expression. These data suggest that apoptosis of infected macrophages induced through receptors of the TNF family could be an immune effector mechanism not only depriving mycobacteria from their growth environment but also reducing viable bacterial counts by an unknown mechanism. On the other hand, interference by M. tuberculosis with the FasL system might represent an escape mechanism of the bacteria attempting to evade the effect of apoptosis.

Database resources for the tuberculosis community.

Access to online repositories for genomic and associated "-omics" datasets is now an essential part of everyday research activity. It is important therefore that the Tuberculosis community is aware of the databases and tools available to them online, as well as for the database hosts to know what the needs of the research community are. One of the goals of the Tuberculosis Annotation Jamboree, held in Washington DC on March 7th-8th 2012, was therefore to provide an overview of the current status of three key Tuberculosis resources, TubercuList (tuberculist.epfl.ch), TB Database (www.tbdb.org), and Pathosystems Resource Integration Center (PATRIC, www.patricbrc.org). Here we summarize some key updates and upcoming features in TubercuList, and provide an overview of the PATRIC site and its online tools for pathogen RNA-Seq analysis.

Co-trimoxazole prophylaxis is associated with reduced risk of incident tuberculosis in participants in the Swiss HIV Cohort Study.

Co-trimoxazole reduces mortality in HIV-infected adults with tuberculosis (TB), and in vitro data suggest potential antimycobacterial activity of co-trimoxazole. We aimed to evaluate whether prophylaxis with co-trimoxazole is associated with a decreased risk of incident TB in Swiss HIV Cohort Study (SHCS) participants. We determined the incidence of TB per 1,000 person-years from January 1992 to December 2012. Rates were analyzed separately in participants with current or no previous antiretroviral treatment (ART) using Poisson regression adjusted for CD4 cell count, sex, region of origin, injection drug use, and age. A total of 13,431 cohort participants contributed 107,549 person-years of follow-up: 182 patients had incident TB-132 (73%) before and 50 (27%) after ART initiation. The multivariable incidence rate ratios for cumulative co-trimoxazole exposure per year for persons with no previous ART and current ART were 0.70 (95% confidence interval [CI], 0.55 to 0.89) and 0.87 (95% CI, 0.74 to 1.0), respectively. Co-trimoxazole may prevent the development of TB among HIV-positive persons, especially among those with no previous ART.

Towards a new combination therapy for tuberculosis with next generation benzothiazinones.

The benzothiazinone lead compound, BTZ043, kills Mycobacterium tuberculosis by inhibiting the essential flavo-enzyme DprE1, decaprenylphosphoryl-beta-D-ribose 2-epimerase. Here, we synthesized a new series of piperazine-containing benzothiazinones (PBTZ) and show that, like BTZ043, the preclinical candidate PBTZ169 binds covalently to DprE1. The crystal structure of the DprE1-PBTZ169 complex reveals formation of a semimercaptal adduct with Cys387 in the active site and explains the irreversible inactivation of the enzyme. Compared to BTZ043, PBTZ169 has improved potency, safety and efficacy in zebrafish and mouse models of tuberculosis (TB). When combined with other TB drugs, PBTZ169 showed additive activity against M. tuberculosis in vitro except with bedaquiline (BDQ) where synergy was observed. A new regimen comprising PBTZ169, BDQ and pyrazinamide was found to be more efficacious than the standard three drug treatment in a murine model of chronic disease. PBTZ169 is thus an attractive drug candidate to treat TB in humans.

Mycobacterium tuberculosis-specific CD8+ T cells are functionally and phenotypically different between latent infection and active disease.

Protective immunity to Mycobacterium tuberculosis (Mtb) remains poorly understood and the role of Mtb-specific CD8(+) T cells is controversial. Here we performed a broad phenotypic and functional characterization of Mtb-specific CD8(+) T cells in 326 subjects with latent Mtb infection (LTBI) or active TB disease (TB). Mtb-specific CD8(+) T cells were detected in most (60%) TB patients and few (15%) LTBI subjects but were of similar magnitude. Mtb-specific CD8(+) T cells in LTBI subjects were mostly T EMRA cells (CD45RA(+) CCR7(-)), coexpressing 2B4 and CD160, and in TB patients were mostly TEM cells (CD45RA(-) CCR7(-)), expressing 2B4 but lacking PD-1 and CD160. The cytokine profile was not significantly different in both groups. Furthermore, Mtb-specific CD8(+) T cells expressed low levels of perforin and granulysin but contained granzymes A and B. However, in vitro-expanded Mtb-specific CD8(+) T cells expressed perforin and granulysin. Finally, Mtb-specific CD8(+) T-cell responses were less frequently detected in extrapulmonary TB compared with pulmonary TB patients. Mtb-specific CD8(+) T-cell proliferation was also greater in patients with extrapulmonary compared with pulmonary TB. Thus, the activity of Mtb infection and clinical presentation are associated with distinct profiles of Mtb-specific CD8(+) T-cell responses. These results provide new insights in the interaction between Mtb and the host immune response.

Interleukin-12p40 overexpression promotes interleukin-12p70 and interleukin-23 formation but does not affect bacille Calmette-Guérin and Mycobacterium tuberculosis clearance.

Interleukin (IL)-12p40, a subunit of IL-12p70 and IL-23, has previously been shown to inhibit IL-12p70 activity and interferon-gamma (IFN-gamma) production. However, recent evidence has suggested that the role of IL-12p40 is more complex. To study the contribution of IL-12p40 to immune responses against mycobacterial infections, we have used transgenic (tg) mice overexpressing IL-12p40 under the control of a major histocompatibility complex-II promoter. The IL-12p40 transgene was expressed during steady state at concentrations of 129 +/- 25 ng/ml of serum and 75 +/- 13 ng per spleen, while endogenous IL-12p40 was hardly detectable in control littermates. Bacille Calmette-Guérin (BCG) infection strongly induced the expression of IL-12p40 transgene in infected organs, and IL-12p40 monomeric and dimeric forms were identified in spleen of IL-12p40 tg mice. Excessive production of IL-12p40 resulted in a 14-fold increase in IL-12p70 serum levels in tg mice versus non-transgenic mice. IL-23 was also strongly elevated in the serum and spleens of IL-12p40 tg mice through BCG infection. While IFN-gamma and tumour necrosis factor protein levels were similar in IL-12p40 tg and non-transgenic mice, Th2 type immune responses were reduced in IL-12p40 tg mice. The number of BCG granulomas and macrophage expressing inducible nitric oxide synthase were similar in IL-12p40 tg and non-transgenic mice. IL-12p40 tg mice were as resistant as non-transgenic mice to BCG and Mycobacterium tuberculosis infections as they could efficiently control bacillary growth. These data show that high amounts of IL-12p40 promotes IL-12p70 and IL-23 formation, but that does not affect T helper 1 type immune responses and granuloma function, thus leading to normal mycobacterial clearance in infected organs.

Cellular immune responses against mycobacterium tuberculosis

Mycobacterium tuberculosis (Mtb) infection is known to have two main outcomes: latent infection (LTBI) where the pathogen is in a dormant form or active tuberculosis disease (TB), which is, most of the time, highly transmissible. Over one-third of the world's population asymptomatically harbours a latent form of Mtb with a 10% risk of disease reactivation. Efficient vaccine strategies remain unknown and the existing BCG vaccine is believed to protect against only some forms of TB (extra-pulmonary TB in children). Moreover, timely identification of TB remains complex with the actual diagnosis based on clinical observations associated to low efficient tests. Furthermore, current therapies are expensive, heavy and long for patients, and present lesser and lesser efficiency against new drug-resistant strains of Mtb. It is thus important to develop our knowledge on host -Mtb relationship to propose new vaccines, diagnosis tools and medications for the future. This thesis aims at improving our understanding of human immunology in the field of TB. All along this work, the same algorithm has been used and points towards the discovery of new correlates of protection through the comparison of T-cell immune responses in patients with LTBI or TB. We performed a comprehensive analysis of T-cell immune responses to Mtb using polychromatic flow cytometiy to study the functional profile of Μ/ό-specific CD4 Τ cells. We observed a polyfunctional profile in LTBI where CD4 Τ cells mainly co-produced IFN-γ, TNF-α and IL-2. In contrast, in TB, Mtó-specific CD4 Τ cells were mostly single TNF-a positive. Thus, analysis of the cytokine profiles was a strong immunological measure discriminating TB and LTBI. We next analyzed Thl7 cells. Mtò-specific Thl7 cells lacked immediate {i.e. ex vivo) IL-17A effector function in both LTBI and TB individuals. Moreover, they were also absent in bronchoalveolar lavages (BALs). Interestingly, we noticed that Mtb- specific Thl7 cells from LTBI but not from TB subjects acquired the ability to produce IL- 17A following Mtb-specific T-cell expansion. We finally performed a comprehensive characterization of Mfè-specific CD8 Τ cells that were detected in most (60%) TB patients and few (15%) LTBI subjects. We observed differences in the phenotype, the cytotoxicity and the proliferative capacities but not in the cytokine profile of Mtò-specific CD8 Τ cells between LTBI and TB. We concluded that the activity of Mtb infection (i.e. latent versus active) and the clinical presentation were associated to distinct profiles of Mtó-specific CD8 T-cell responses. To conclude, a multiparametric analysis including both CD4 and CD8 T-cell responses to Mtb lead to the development of a significantly improved diagnostic test discriminating between LTBI and TB. All together, these results provide new insights into the interaction between Mtb and the host immune response and expand upon our prior knowledge of tuberculosis. - L'infection par Mycobacterium tuberculosis peut résulter en une infection tuberculeuse latente et asymptomatique ou encore en une forme active et la plupart du temps contagieuse, la tuberculose. Un tiers de la population mondiale serait infectée de manière chronique avec 10 % de risques de développer la maladie durant la vie. Il n'existe actuellement aucun vaccin efficace, le BCG ne conférant qu'une protection partielle contre certaines formes extrapulmonaires de la maladie chez l'enfant. D'autre part, il n'existe pas de méthode diagnostique fiable et rapide, celle-ci se basant dans un premier temps sur l'analyse de la situation clinique des patients. Enfin, les thérapies actuelles sont couteuses et contraignantes pour les patients et tendent à ne plus être efficaces contre les souches émergentes de mycobactérie multi-résistantes. Aussi, il est important de bien comprendre la relation hôte-pathogène de manière à pouvoir proposer de nouveaux outils vaccinaux, diagnostiques et thérapeutiques. Ce manuscrit s'inscrit dans cette direction et vise à améliorer nos connaissances de la réponse immunitaire humaine dans le cadre de la tuberculose. Nous avons suivi un algorithme similaire tout au long des études proposées en comparant les réponses immunes des patients latents à celles des patients actifs, et ce, dans le but de mettre en évidence de potentiels corrélats de protection. Nous avons réalisé par cytométrie en flux une analyse du profil fonctionnel des cellules lymphocytaires CD4 dans la réponse au pathogène. Dans le cas de la tuberculose active, les cellules CD4 sécrètent majoritairement du TNF-α quand, au contraire, elles sécrètent à la fois du TNF-α, de l'IFN-γ et de l'IL-2 (poly-fonctionnalité) dans l'infection latente. Cette observation nous a permis de proposer un nouveau test diagnostique de la maladie active. Nous avons aussi étudié les cellules CD4 Thl7, impliquées dans la réponse immunitaire cellulaire contre les pathogènes extracellulaires et les champignons. Nous avons souligné une variation dans la production d'IL-17 entre infection latente et tuberculose active qui pourrait être impliquée dans la protection de l'individu contre le pathogène. D'autre part, ce manuscrit propose une caractérisation des cellules Τ CD8 dites cytotoxiques dans la tuberculose. Des divergences dans la fréquence des réponses observées, le phénotype mais aussi les capacités prolifératives et cytotoxiques ont pu être mises en évidence entre latence et tuberculose active. Ces observations soulignent le rôle important de ce groupe cellulaire dans l'évolution de la maladie et permettent de proposer une amélioration de l'outil diagnostic précédemment proposé et se basant à la fois sur le profil fonctionnel des cellules Τ CD4 ainsi que sur la présence potentielle d'une réponse CD8 spécifique au pathogène. Ces diverses études réalisées sur les cellules Τ humaines répondant spécifiquement à Mtb nous permettent de faire un pas supplémentaire dans la compréhension de notre réponse immunitaire face à ce pathogène particulièrement dangereux qui continue à l'heure actuelle à tuer chaque année des millions de personnes. - La tuberculose (TB) résulte d'une infection bactérienne par Mycobacterium tuberculosis (Mtb) et existe sous deux formes majeures: une forme latente, lorsque la bactérie est en phase de dormance ainsi qu'une forme active durant laquelle la bactérie se divise activement, entraînant les symptômes de la maladie. La personne infectée devient alors contagieuse dans la plupart des cas. Aujourd'hui des études épidémiologiques assument que plus d'un tiers de la population mondiale serait infectée par la forme latente de la bactérie et que 10% des cas réactiveront donnant lieu à diverses présentations de la maladie. Il n'existe actuellement aucun vaccin réellement efficace chez l'adulte. D'autre part, les traitements antibiotiques utilisés sont très lourds pour les patients et les cliniciens doivent faire face à l'émergence de nouvelles souches bactériennes multi-résistantes non affectées par les thérapies existantes. Les autorités sanitaires sont, d'autre part, confrontées à l'absence d'un outil diagnostique rapide, fiable et efficace. En effet, la méthode de référence reste la culture microbiologique du pathogène qui prend généralement plusieurs semaines, pendant lesquelles le patient pourra contaminer d'autres personnes. En résumé, la lutte contre la tuberculose doit passer par l'élaboration d'un vaccin efficace, de nouvelles thérapies, mais aussi par la mise en place de nouveaux tests diagnostics plus rapides afin d'éviter la dissémination de la maladie. Aussi, la relation hôte-bactérie qui n'est actuellement que peu comprise doit être investiguée. Ce travail de thèse a pour but d'étudier la réponse immunitaire chez l'homme infecté par Mtb et vise plus particulièrement l'étude d'une population clé de cellules immunitaires: les lymphocytes T. L'étude des cellules Τ CD4 nous a permis dans un premier temps de proposer un nouveau test diagnostic de la maladie active. Nous avons aussi analysé plus en détail une population spécifique des cellules Τ CD4 (les cellules Thl7), nous permettant d'associer leur fonction avec un possible état physiologique de protection contre le pathogène. En second lieu nous avons réalisé une caractérisation des cellules Τ CD8, à la fois chez les personnes avec des infections latentes et chez les personnes malades. Nous avons mis en évidence des différences fonctionnelles chez les deux groupes de patients, nous permettant ainsi une meilleure compréhension de l'immunité contre Mtb. Enfin, nous avons combiné les différents profils immunologiques obtenus pour développer un test diagnostic plus performant et sensible que celui proposé antérieurement. Ces diverses études réalisées sur les cellules Τ humaines nous permettent de faire un pas supplémentaire dans la compréhension de la réponse immunitaire face à ce pathogène particulièrement dangereux qui continue à tuer chaque année des millions de personnes.

Tobacco and tuberculosis

Smoking is not only the most important source of avoidable disability and death, but a risk factor for TB infection, disease and death. Even passive smoking exposure may increase the risk of infection and disease in adults and children exposed to TB. Considering the increase in tobacco consumption in developing countries, where the prevalence of TB is the highest, smoking may be responsible for a large part of the burden of disease. Therefore, medical advice and counselling in smoking cessation is an important activity for all care providers engaged in management of TB