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Interactions of attenuated Mycobacterium tuberculosis phoP mutant with human macrophages.


ABSTRACT: BACKGROUND: Mycobacterium tuberculosis phoP mutant SO2 derived from a clinical isolate was shown to be attenuated in mouse bone marrow-derived macrophages and in vivo mouse infection model and has demonstrated a high potential as attenuated vaccine candidate against tuberculosis. METHODOLOGY/PRINCIPAL FINDINGS: In this study, we analyze the adhesion and the intracellular growth and trafficking of SO2 in human macrophages. Our results indicate an enhanced adhesion to phagocitic cells and impaired intracellular replication of SO2 in both monocyte-derived macrophages and human cell line THP-1 in comparison with the wild type strain, consistent with murine model. Intracellular trafficking analysis in human THP-1 cells suggest that attenuation of SO2 within macrophages could be due to an impaired ability to block phagosome-lysosome fusion compared with the parental M. tuberculosis strain. No differences were found between SO2 and the wild-type strains in the release and mycobacterial susceptibility to nitric oxide (NO) produced by infected macrophages. CONCLUSIONS/SIGNIFICANCE: SO2 has enhanced ability to bind human macrophages and differs in intracellular trafficking as to wild-type M. tuberculosis. The altered lipid profile expression of the phoP mutant SO2 and its inability to secrete ESAT-6 is discussed.

SUBMITTER: Ferrer NL 

PROVIDER: S-EPMC2945763 | biostudies-other | 2010

REPOSITORIES: biostudies-other

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Interactions of attenuated Mycobacterium tuberculosis phoP mutant with human macrophages.

Ferrer Nadia L NL   Gomez Ana B AB   Neyrolles Olivier O   Gicquel Brigitte B   Martin Carlos C  

PloS one 20100924 9


<h4>Background</h4>Mycobacterium tuberculosis phoP mutant SO2 derived from a clinical isolate was shown to be attenuated in mouse bone marrow-derived macrophages and in vivo mouse infection model and has demonstrated a high potential as attenuated vaccine candidate against tuberculosis.<h4>Methodology/principal findings</h4>In this study, we analyze the adhesion and the intracellular growth and trafficking of SO2 in human macrophages. Our results indicate an enhanced adhesion to phagocitic cells  ...[more]

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