Evgenyi B. Eruslanov scite author profile

The role of neutrophils in tuberculosis (TB) resistance and pathology is poorly understood. Neutrophil reactions are meant to target the offending pathogen but may lead to destruction of the host lung tissue, making the defending cells an enemy. Here, we show that mice of the I/St strain which are genetically susceptible to TB show an unusually high and prolonged neutrophil accumulation in their lungs after intratracheal infection. Compared to neutrophils from more resistant A/Sn mice, I/St neutrophils display an increased mobility and tissue influx, prolonged lifespan, low expression of the CD95 (Fas) apoptotic receptor, relative resistance to apoptosis, and an increased phagocytic capacity for mycobacteria. Segregation genetic analysis in (I/St ؋ A/Sn)F 2 hybrids indicates that the alleles of I/St origin at the chromosome 3 and 17 quantitative trait loci which are involved in the control of TB severity also determine a high level of neutrophil influx. These features, along with the poor ability of neutrophils to restrict mycobacterial growth compared to that of lung macrophages, indicate that the prevalence of neutrophils in TB inflammation contributes to the development of pathology, rather than protection of the host, and that neutrophils may play the role of a "Trojan horse" for mycobacteria.

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Comparative Analysis of T Lymphocytes Recovered from the Lungs of Mice Genetically Susceptible, Resistant, and Hyperresistant toMycobacterium tuberculosis-Triggered Disease

Lyadova

Eruslanov

Хайдуков

et al. 2000

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Genetic control of susceptibility to tuberculosis (TB) is being intensively studied, and immune responses to mycobacteria are considerably well characterized. However, it remains largely unknown which parameters of response distinguish resistant and susceptible TB phenotypes. Mice of I/St and A/Sn inbred strains and (A/Sn × I/St)F1 hybrids were previously categorized as, respectively, susceptible, resistant, and hyperresistant to Mycobacterium tuberculosis-triggered disease. In the present work we compared parameters of lung T cell activation and response following M. tuberculosis challenge. In all mice, the disease progression was accompanied by a marked accumulation in the lungs of activated CD4+ (CD44high/CD45RBlow) and CD8+ (CD44high/CD45RB+) T cells capable of secreting IFN-γ and of activating macrophages for NO production and mycobacterial growth inhibition. However, significantly more CD8+ T cells were accumulated in the lungs of resistant A/Sn and F1 compared with I/St mice. About 80% A/Sn and F1 CD8+ cells expressed CD44high/CD45RB+ phenotype, while about 40% I/St CD8+ cells did not express CD45RB marker at week 5 of infection. In contrast, in susceptible I/St mice lung CD4+ cells proliferated much more strongly in response to mycobacterial sonicate, and a higher proportion of these cells expressed CD95 and underwent apoptosis compared with A/Sn cells. Unseparated lung cells and T cells of I/St origin produced more IL-5 and IL-10, respectively, whereas their A/Sn and F1 counterparts produced more IFN-γ following infection. F1 cells overall expressed an intermediate phenotype between the two parental strains. Such a more balanced type of immune reactivity could be linked to a better TB defense.

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Intranasal BCG vaccination protects BALB/c mice against virulentMycobacterium bovisand accelerates production of IFN-γ in their lungs

Lyadova

Vordermeier

Eruslanov

et al. 2001

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SUMMARYLocal immune reactivity in the lungs of BALB/c mice was studied following (i) intranasal (i.n.) vaccination with Mycobacterium bovis BCG, (ii) intravenous (i.v.) challenge with a virulent M. bovis field isolate and (iii) i.n. vaccination with M. bovis BCG followed by i.v. challenge with an M. bovis field isolate. The results demonstrated that i.n. vaccination with BCG induced a high degree of protection against systemic M. bovis challenge, and that this protection correlated with a rapid production of IFN-g after M. bovis challenge by lung T cells from vaccinated mice.

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Mycobacterial Dissemination and Cellular Responses after 1‐Lobe Restricted Tuberculosis Infection of Genetically Susceptible and Resistant Mice

et al. 2004

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