Project description:Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis (TB), is an exquisitely adapted human pathogen capable of surviving for decades in the lungs of immune competent individuals in absence of disease. The World Health Organization estimates that 2 billion people have latent TB infection (LTBI), defined by positive immunologic response to Mtb antigens with no clinical signs of disease. A better understanding of host and pathogen determinants of LTBI and subsequent reactivation would benefit TB control efforts. Animal models of LTBI have been hampered mainly by an inability to achieve complete bacillary clearance. We have characterized a rabbit model of LTBI in which, similar to most humans, complete clearance of pulmonary Mtb infection and pathology occurs spontaneously. The evidence that Mtb-CDC1551-infected rabbits achieve LTBI, rather than sterilization, is based on the ability of the bacilli to be reactivated following immune suppression. The microarray experiments involves comparison of: 1) Changes in rabbit gene expression between Mtb-CDC1551 infected and uninfected animals at 2,4,8 and 12 weeks post infection. New Zealand White rabbits were infected with Mtb CDC1551 at 3.5log10 (on day 0). Lung tissue from Mtb-infected rabbits were isolated from uninfected (control) and at 2, 4, 8 and 16 weeks post infection and used for total RNA extraction. Total rabbit lung RNA was used for microarray analysis to determine infection induced changes in host gene expression.

Project description:In our rabbit model of pulmonary tuberculosis, infection with Mtb HN878, a hyper-virulent W-Beijing strain, results in progressive cavitary disease. However, infection of rabbit lungs with Mtb CDC1551, a hyper-immunogenic strain is effectively controlled overtime, establishing latent Mtb infection. Using these two Mtb strains, we tested the hypothesis that the initial host response in the lungs within hours of infection determines later outcome. The microarray experiments was performed to identify gene expression changes in the Mtb-HN878 or CDC1551- infected rabbit lungs at 3 hours post infection, compared to uninfected naïve rabbit lungs.

Project description:In our rabbit model of pulmonary tuberculosis, infection with Mtb HN878, a hyper-virulent W-Beijing strain, results in progressive cavitary disease. However, infection of rabbit lungs with Mtb CDC1551, a hyper-immunogenic strain is effectively controlled overtime, establishing latent Mtb infection. Using these two Mtb strains, we tested the hypothesis that the initial host response in the lungs within hours of infection determines later outcome. The microarray experiments was performed to identify gene expression changes in the Mtb-HN878 or CDC1551- infected rabbit lungs at 3 hours post infection, compared to uninfected naïve rabbit lungs. New Zealand White rabbits were infected with Mtb HN878 or CDC1551 at ~3.5log10. At 3 hours post infection, lung tissue from Mtb-infected and uninfected rabbits were isolated and used for total RNA extraction. Total rabbit lung RNA was used for microarray analysis to determine infection induced changes in host gene expression.

Project description:Mycobacterium tuberculosis (Mtb) has developed specialized mechanisms to parasitize its host cell, the macrophage. These mechanisms allow it to overcome killing by oxidative burst and persist in the wake of an inflammatory response. Mtb infection in the majority of those exposed is controlled in an asymptomatic form referred to as latent tuberculosis infection (LTBI). HIV is a well-known catalyst of reactivation of LTBI to active TB infection (ATB). Through the use of nonhuman primates (NHPs) co-infected with Mtb and Simian Immunodeficiency Virus (Mtb/SIV), we are able to simulate human progression of TB/AIDS comorbidity. The advantage of NHP models is that they recapitulate the breadth of human TB outcomes, including immune control of infection, and loss of this control due to SIV co-infection. Using macaques infected with Mtb or Mtb/SIV and with different clinical outcomes we attempted to identify signatures between those that progress to active infection after SIV challenge (reactivators) and those that control the infection (non-reactivators).

Project description:Individuals exposed to Mycobacterium tuberculosis (Mtb) may become infected and are classified as with latent tuberculosis infection (LTBI) and remain whole time life in this condition or develop active tuberculosis (TB). Among the multiple factors governing the outcome of the infection, dendritic cells (DC) play a major role in dictating protective immunity. However, current knowledge on the role of the diverse components of human DC in shaping specific T cell response during Mtb infection is limited. In this study, we performed a comparative evaluation of peripheral blood circulating DC subsets along with the functional capability of monocyte-derived IFN-α DC to induce Mtb antigen-specific T cell response in patients with active TB, subjects with LTBI and healthy donors (HD). The percentage of BDCA3+ mDC2 and CD123+ pDC declined significantly in active TB patients with respect HD whereas the same subsets displayed a remarkable activation in LTBI. Simultaneously, IFN-α-driven differentiation of DC resulted profoundly impaired from monocytes of active TB patients as compared to LTBI and HD individuals. Importantly, the specific altered developmental trait of IFN-α DC from active TB patients was associated with a marked change of molecular signalings conveying antigen presentation as well as full inability to induce antigen-specific T cell response. Thus, these data unravel an unavoidable role of IFN-α in determining the induction of Mtb-specific protective immunity which is essential to control Mtb infection.

Project description:Current antibiotic regimen to treat tuberculosis (TB) is ineffective in fully eliminating the bacterial load and in alleviating disease pathology. We examined the usefulness of a phosphodiesterase-4 inhibitor (CC-11050) as an adjunctive to anti-TB drug Isoniazid (INH) to improve the outcome of treatment in a rabbit model of active pulmonary TB. Control of Mycobacterium tuberculosis (Mtb) growth, disease pathology and the global transcriptional response in Mtb-infected lungs of rabbits with or without CC-11050 treatment were studied. The microarray experiments involves comparison of changes in gene expression between uninfected and Mtb-HN878 infected (Untreated) or CC-11050 treated rabbit lungs at 8 weeks post-treatment, starting at 4 weeks of infection (i.e, 12 weeks post infection).

Project description:Increasing evidence supports a role ofthat antibodies in thecan defense protect against active tuberculosis (TB) but knowledge of potentially protective antigens, especially at in the mucosal airways level, is limited. The main objective of this study was to identify antigen-specific airway and systemic immunoglobulin isotype responses that were associated with the outcome of controlled latent Mycobacterium tuberculosis (Mtb) infection (LTBI) compared to uncontrolled infection (TB) in nonhuman primates. We investigated airway and systemic IgG, IgA, and IgM responses in paired bronchoalveolar lavage and plasma samples prior to and two- and 5-6-months post Mtb infection using an antigen-unbiased approach with Mtb glycan and proteome-wide microarrays

Project description:Increasing evidence supports a role ofthat antibodies in thecan defense protect against active tuberculosis (TB) but knowledge of potentially protective antigens, especially at in the mucosal airways level, is limited. The main objective of this study was to identify antigen-specific airway and systemic immunoglobulin isotype responses that were associated with the outcome of controlled latent Mycobacterium tuberculosis (Mtb) infection (LTBI) compared to uncontrolled infection (TB) in nonhuman primates. We investigated airway and systemic IgG, IgA, and IgM responses in paired bronchoalveolar lavage and plasma samples prior to and two- and 5-6-months post Mtb infection using an antigen-unbiased approach with Mtb glycan and proteome-wide microarrays

Project description:Increasing evidence supports a role ofthat antibodies in thecan defense protect against active tuberculosis (TB) but knowledge of potentially protective antigens, especially at in the mucosal airways level, is limited. The main objective of this study was to identify antigen-specific airway and systemic immunoglobulin isotype responses that were associated with the outcome of controlled latent Mycobacterium tuberculosis (Mtb) infection (LTBI) compared to uncontrolled infection (TB) in nonhuman primates. We investigated airway and systemic IgG, IgA, and IgM responses in paired bronchoalveolar lavage and plasma samples prior to and two- and 5-6-months post Mtb infection using an antigen-unbiased approach with Mtb glycan and proteome-wide microarrays

Project description:Increasing evidence supports a role ofthat antibodies in thecan defense protect against active tuberculosis (TB) but knowledge of potentially protective antigens, especially at in the mucosal airways level, is limited. The main objective of this study was to identify antigen-specific airway and systemic immunoglobulin isotype responses that were associated with the outcome of controlled latent Mycobacterium tuberculosis (Mtb) infection (LTBI) compared to uncontrolled infection (TB) in nonhuman primates. We investigated airway and systemic IgG, IgA, and IgM responses in paired bronchoalveolar lavage and plasma samples prior to and two- and 5-6-months post Mtb infection using an antigen-unbiased approach with Mtb glycan and proteome-wide microarrays