Mutations in the drug resistance-determining region of Mycobacterium lepromatosis isolated from leprosy patients in Mexico.

Mycobacterium lepromatosis, an independent species from Mycobacterium leprae, has been found to be a causative agent for diffuse lepromatous leprosy (DLL) in Mexico, but remains poorly studied. Here, the drug resistance-determining regions (DRDR) of folP1, rpoB and gyrA (conferring resistance to dapsone, rifampicin and quinolone, respectively) in M. lepromatosis from leprosy patients in Mexico were characterized. No mutations or silent mutations were found at previously characterized major sites in DRDR of M. lepromatosis. However, a non-synonymous mutation was found in codon 54 between two major sites of the folP1 DRDR in M. lepromatosis sequences. All M. lepromatosis isolates showed CAG sequence in codon 54 of folP1. Because the next codons 53 and 55 are known as major mutation sites for drug resistance, more detailed analysis using more samples is needed to determine whether it influences susceptibility to dapsone and/or efficiency of folate biosynthesis in M. lepromatosis or not.

Effect of hsp65 DNA vaccination carrying immunostimulatory DNA sequences (CpG Motifs) against mycobacterium leprae multiplication in mice

A DNA expressing hsp65 of Mycobacterium leprae (pACB/hsp65) was constructed by using a vector containing immunostimulatory DNA sequences (pACB). At 12 weeks post-immunization, spleen cells from BALB/cA mice immunized with pACB/hsp65, produced a significantly higher amount of IFN-gamma than mice immunized with pACB in the absence of any in vitro stimulation, and further enhanced its production upon secondary in vitro stimulation with M. leprae lysate and hsp65. On the other hand, while production of IL-12 was observed in mice immunized with pACB/hsp65 12 weeks before, the cytokine production was inhibited by in vitro secondary stimulation with M. leprae or hsp65. At 18 weeks post-immunization, the production of both IFN-gamma and IL-12 was apparently down-regulated, but that of IL-10 was up-regulated. IL-10 seemed to suppress the IFN-gamma and IL-12 productions, because their production was recovered by neutralization of IL-10 with anti-IL-10 mAb. Furthermore, when the efficiency of pACB/hsp65 as a vaccine against M. leprae was evaluated in vivo, the mice immunized with pACB/hsp65 suppressed the multiplication of subsequently challenged M. leprae. These results suggest that a DNA containing M. leprae-derived hsp65 and immunostimulatory sequences might be a potent vaccine candidate against M. leprae infection.