INFLUENCE OF BCG VACCINATION ON MURINE LEPROSY IN C57BL-6 AND C3H MICE

Abstract

Cross-reactivity between Mycobacterium lepraemurium (MLM) and BCG vaccine was found and evaluated in vivo in C57BL/6 mice in terms of delayed-type hypersensitivity (DTH), local granulomatous response at the injected site and limitation of growth of the challenge inoculum in the draining node. Cross-reactive specific protection and local reactivities were transferred in syngeneic normal recipients by non-adherent lymphoid cells from immune donors. When BCG vaccine was injected i.v. or s.c. in C57BL/6 and C3H mice, it was able to induce resistance to local infection with living MLM in both strains. No alteration of the local granulomatous reaction (equivalent to local specific immune response) was observed in C3H mice compared to the control. When mice were immunized with 1 or 2 injections of heat-killed MLM after the immunomodulating effect of BCG vaccination, better immunization was not achieved. To test the presence of strain-related immunosuppressive mechanisms, mice were cyclophosphamide-treated during the immunization process. Higher specific DTH reactions were obtained in both strains but with only a slight increase of the protective mechanism. Protection was always higher in C57BL/6 than in C3H mice. The specific and non-specific immune responses to BCG vaccine were then evaluated in both strains with different parameters: in vivo lymphoproliferative response in the draining mode, delayed local granulomatous reaction at the injected site after a s.c. injection, increase in spleen index, kinetics of the immunopotentiation to a thymus-dependent antigen (sheep red blood cells) after a single i.v. injection of BCG. A striking interstrain difference was observed; C57BL/6 mice were able to mount a more rapid and marked immune response compared to C3H mice (which only developed a delayed and slight response). These differences were associated with the fact that BCG did not seem to multiply properly in C3H mice during the first 2 wk after inoculation. Thus, higher natural resistance to pathogens and cross-reactive preimmunization with related microorganisms can interfere with the artificial immunization when living microorganisms are used. Implication for vaccination to mycobacterial infection (tuberculosis and leprosy) are discussed.