Abstract
Here we report a novel regulatory mechanism for autophagy-mediated degradation of Mycobacterium tuberculosis (Mtb) and specific strategy exploited by the virulent Mtb to evade it. We show while both avirulent (H37Ra) and virulent (H37Rv) mycobacteria could readily localize to autophagosomes, their maturation into autolysosomes (flux) was significantly inhibited by the latter strain. The inhibition of autophagy flux by the virulent strain was highly selective, as it did not perturb the basal autophagy flux in the macrophages. Selective inhibition of flux of Mtb-containing autophagosomes required virulence regulators PhoP and ESAT-6. We show that the maturation of Mtb-containing autophagosomes into autolysosomes required recruitment of the late endosome marker RAB7, forming the intermediate compartment amphisomes. Virulent Mtb selectively evaded their targeting to the amphisomes. Thus we report a crosstalk between autophagy and phagosome maturation pathway and highlight the adaptability of Mtb, manifested by selective regulation of autophagy flux.
Highlights
Autophagy is a degradation process where cellular cargos are delivered to the lysosomes
In the present study we aimed to investigate the autophagy flux in THP-1 macrophages upon Mycobacterium tuberculosis (Mtb) infection in detail using laboratory strains H37Ra and H37Rv
We show that the inhibition of autophagy flux by H37Rv was the result of its ability to block recruitment of RAB7 on Mtb-containing autophagosomes
Summary
Autophagy is a degradation process where cellular cargos are delivered to the lysosomes. Known are the mechanisms leading to phagosome maturation arrest that help virulent Mtb escape from being targeted to lysosomes and killing[7,8]. In case of Mtb infections autophagy flux as a means of bacterial degradation were monitored[15,16,17]. In the present study we aimed to investigate the autophagy flux in THP-1 macrophages upon Mtb infection in detail using laboratory strains H37Ra (avirulent) and H37Rv (virulent). Both the virulent and avirulent strains localized to the autophagosomes. Through this study we report a RAB7-dependent autophagy pathway of mycobacterial killing in macrophages
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