Vellore P. Mohan scite author profile

Reactivation of latent tuberculosis contributes significantly to the incidence of disease caused by Mycobacterium tuberculosis. The mechanisms involved in the containment of latent tuberculosis are poorly understood. Using the low-dose model of persistent murine tuberculosis in conjunction with MP6-XT22, a monoclonal antibody that functionally neutralizes tumor necrosis factor alpha (TNF-␣), we examined the effects of TNF-␣ on the immunological response of the host in both persistent and reactivated tuberculous infections. The results confirm an essential role for TNF-␣ in the containment of persistent tuberculosis. TNF-␣ neutralization resulted in fatal reactivation of persistent tuberculosis characterized by a moderately increased tissue bacillary burden and severe pulmonic histopathological deterioration that was associated with changes indicative of squamous metaplasia and fluid accumulation in the alveolar space. Analysis of pulmonic gene and protein expression of mice in the low-dose model revealed that nitric oxide synthase was attenuated during MP6-XT22-induced reactivation, but was not totally suppressed. Interleukin-12p40 and gamma interferon gene expression in TNF-␣-neutralized mice was similar to that in control mice. In contrast, interleukin-10 expression was augmented in the TNF-␣-neutralized mice. In summary, results of this study suggest that TNF-␣ plays an essential role in preventing reactivation of persistent tuberculosis, modulates the pulmonic expression of specific immunologic factors, and limits the pathological response of the host.

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Oxygenated mycolic acids are necessary for virulence of Mycobacterium tuberculosis in mice

Dubnau¹,

Chan

Raynaud

et al. 2000

Molecular Microbiology

292

289

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Members of the Mycobacterium tuberculosis group synthesize a family of long‐chain fatty acids, mycolic acids, which are located in the cell envelope. These include the non‐oxygenated α‐mycolic acid and the oxygenated keto‐ and methoxymycolic acids. The function in bacterial virulence, if any, of these various types of mycolic acids is unknown. We have constructed a mutant strain of M. tuberculosis with an inactivated hma (cmaA, mma4) gene; this mutant strain no longer synthesizes oxygenated mycolic acids, has profound alterations in its envelope permeability and is attenuated in mice.

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Depletion of Cd4+ T Cells Causes Reactivation of Murine Persistent Tuberculosis despite Continued Expression of Interferon γ and Nitric Oxide Synthase 2

et al. 2000

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Tuberculosis is a major cause of death in much of the world. Current estimates are that one-third of the world's population is infected with Mycobacterium tuberculosis. Most infected persons control the infection but in many cases may not eliminate the organism. Reactivation of this clinically latent infection is responsible for a large proportion of active tuberculosis cases. A major risk factor for reactivation of latent tuberculosis is HIV infection, suggesting a role for the CD4+ T cell subset in maintaining the latent persistent infection. In this study, we tested the requirement for CD4+ T cells in preventing reactivation in a murine model of latent tuberculosis. Antibody-mediated depletion of CD4+ T cells resulted in rapid reactivation of a persistent infection, with dramatically increased bacterial numbers in the organs, increased pathology in the lungs, and decreased survival. Although CD4+ T cells are believed to be a major source of interferon (IFN)-γ, expression of the gene for IFN-γ in the lungs of CD4+ T cell–depleted mice was similar to that in control mice. In addition, inducible nitric oxide synthase production and activity was unimpaired after CD4+ T cell depletion, indicating that macrophage activation was present even during CD4+ T cell deficiency. These data indicate that CD4+ T cells are necessary to prevent reactivation but may have roles in addition to IFN-γ production and macrophage activation in controlling a persistent tuberculous infection.

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The effects of reactive nitrogen intermediates on gene expression inMycobacterium tuberculosis

Ohno¹,

Zhu²,

Mohan³

et al. 2003

181

161

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SummaryNitric oxide (NO) and related reactive nitrogen intermediates (RNI) are effective antimycobacterial agents and signal-transducing molecules. The present study uses microarray analysis to examine the effects of RNI on Mycobacterium tuberculosis gene expression. A common set of 53 genes was regulated by two chemically distinct nitric oxide donors. For a subset of the RNI-inducible genes, evidence exists suggesting that they may play a role in promoting survival of the tubercle bacillus in the host. Results obtained from studies based on a murine experimental tuberculosis model involving nos2 -deficient mice suggest that RNI could regulate M. tuberculosis gene expression in vivo . Finally, there is a remarkable overlap between the RNI-inducible regulon and that previously reported to be regulated by hypoxia; and both reactive nitrogen species and anaerobicity upregulate the expression of one and the same putative twocomponent regulatory response system. Together, the results of this study provide evidence suggesting that (i) RNI play a role in regulating M. tuberculosis gene expression in vivo ; (ii) the reactive nitrogen species upregulate genes that may be conducive to the survival of the tubercle bacillus in the infected host; and (iii) RNI and hypoxia may regulate mycobacterial gene expression via overlapping signal transduction pathways.

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Vellore P. Mohan

Effects of Tumor Necrosis Factor Alpha on Host Immune Response in Chronic Persistent Tuberculosis: Possible Role for Limiting Pathology

Oxygenated mycolic acids are necessary for virulence of Mycobacterium tuberculosis in mice

Depletion of Cd4+ T Cells Causes Reactivation of Murine Persistent Tuberculosis despite Continued Expression of Interferon γ and Nitric Oxide Synthase 2

The effects of reactive nitrogen intermediates on gene expression inMycobacterium tuberculosis

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