Abstract
AbstractMechanisms underlying variability in transmission of Mycobacterium tuberculosis strains remain undefined. By characterizing high and low transmission strains of M.tuberculosis in mice, we show here that high transmission M.tuberculosis strain induce rapid IL-1R-dependent alveolar macrophage migration from the alveolar space into the interstitium and that this action is key to subsequent temporal events of early dissemination of bacteria to the lymph nodes, Th1 priming, granulomatous response and bacterial control. In contrast, IL-1R-dependent alveolar macrophage migration and early dissemination of bacteria to lymph nodes is significantly impeded in infection with low transmission M.tuberculosis strain; these events promote the development of Th17 immunity, fostering neutrophilic inflammation and increased bacterial replication. Our results suggest that by inducing granulomas with the potential to develop into cavitary lesions that aids bacterial escape into the airways, high transmission M.tuberculosis strain is poised for greater transmissibility. These findings implicate bacterial heterogeneity as an important modifier of TB disease manifestations and transmission.
Funder
U.S. Department of Health & Human Services | NIH | National Institute of Allergy and Infectious Diseases
Publisher
Springer Science and Business Media LLC
Subject
General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry,Multidisciplinary
Reference77 articles.
1. World Health Organisation. Global tuberculosis Report 2020 1–232 (World Health Organisation, 2020).
2. Riley, R. L., Wells, W. F., Mills, C. C., Nyka, W. & McLean, R. L. Air hygiene in tuberculosis: Quantitative studies of infectivity and control in a pilot ward. Am. Rev. Tuberc. 75, 420–431 (1957).
3. Riley, R. L. Aerial dissemination of pulmonary tuberculosis. Am. Rev. Tuberc. 76, 931–941 (1957).
4. Riley, R. L. et al. Aerial dissemination of pulmonary tuberculosis. A two-year study of contagion in a tuberculosis ward. 1959. Am. J. Epidemiol. 142, 3–14 (1995).
5. Dharmadhikari, A. S. et al. Natural infection of guinea pigs exposed to patients with highly drug-resistant tuberculosis. Tuberculosis 91, 329–338 (2011).