Mycobacterium leprae infection of human Schwann cells depends on selective host kinases and pathogen-modulated endocytic pathways.

Mycobacterium leprae, an obligate intracellular pathogen, shows a unique tropism for Schwann cells (SC). This leads to the peripheral neuropathy disorder observed in leprosy. In this study, we investigated signal transduction events and the intracellular fate of M. leprae during the interaction of the microorganism with SC. First, we demonstrated that the human schwannoma cell line ST88-14 readily phagocytized the bacteria as observed by time-lapse microscopy, actin staining and electron microscopy. The effect of specific kinase inhibitors on M. leprae internalization was then investigated showing that functional protein tyrosine kinase, calcium-dependent protein kinase and phosphatidylinositol 3-kinase, but not cAMP-dependent protein kinase are essential for phagocytosis of the bacteria. Similar results were obtained when irradiated and live bacteria were compared and when M. leprae was pre-coated with recombinant histone-like-protein/laminin binding protein, a bacterial adhesin. In addition, experiments were performed to analyze the bacterial trafficking within the endosomal network by labeling the acidified intracellular compartments of M. leprae-infected SC with the Lysotracker acidotrophic probe. Acidification of vesicles containing live M. leprae was minimal in both RAW murine macrophages and SC, although phagosomes containing heat-killed bacteria seem to follow normal endocytic maturation. These data indicate that the invading bacteria interfere with normal endocytic pathway maturation of bacteria-containing phagosomes within SC.

The allele encoding the mycobacterial Erp protein affects lung disease in mice.

Erp (exported repetitive protein), also known as P36, Pirg and Rv3810, is a member of a mycobacteria-specific family of extracellular proteins. These proteins consist of three domains, the N- and C-terminal domains are similar in all mycobacterial species, however, the central domain contains a repeated PGLTS module and differs considerably between species. The erp knockout mutant of Mycobacterium tuberculosis displays very low levels of multiplication both in macrophage cell lines and in vivo in a mouse model of infection. The high interspecies variability of the central repeated region of the Erp protein led us to investigate whether these orthologous proteins were functionally equivalent in a mouse model of tuberculosis. We expressed a gene fusion with the erp gene of Mycobacterium smegmatis, Mycobacterium leprae or M. tuberculosis in trans in an erp-M. tuberculosis mutant and found that these three alleles restored multiplication to similar levels in the spleen of infected mice. However, these alleles gave different levels of colonization in the lung, for the early time-points. Quantitative histological analyses of the lungs of infected animals showed that the nature of the erp allele strongly affected the number and the size of lung lesions, demonstrating the importance of surface determinants for virulence and tissue damage.

Erp, an extracellular protein family specific to mycobacteria.

Erp (exported repeated protein) was originally characterized as a virulence factor in Mycobacterium tuberculosis and was thought to be present only in Mycobacterium leprae and members of the TB complex. Here it is shown that Erp is a ubiquitous extracellular protein found in all of the mycobacterial species tested. Erp proteins have a modular organization and contain three domains: a highly conserved amino-terminal domain which includes a signal sequence, a central variable region containing repeats based on the motif PGLTS, and a conserved carboxy-terminal domain rich in proline and alanine. The number and fidelity of PGLTS repeats of the central region differ considerably between mycobacterial species. This region is, however, identical in all of the clinical M. tuberculosis strains tested. In addition, it is shown here that a Mycobacterium smegmatis erp::aph mutant displays altered colony morphology which is complemented by all the Erp orthologues tested. The genome sequence flanking the erp gene includes cell-wall-related ORFs and displays extensive conservation between saprophytic and pathogenic mycobacteria.