Abstract

Sustained elimination of leprosy as a global health concern likely requires a vaccine. The current standard, BCG, confers only partial protection and precipitates paucibacillary (PB) disease in some instances. When injected into mice with the T helper 1 (Th1)-biasing adjuvant formulation Glucopyranosyl Lipid Adjuvant in stable emulsion (GLA-SE), a cocktail of three prioritized antigens (ML2055, ML2380 and ML2028) reduced M. leprae infection levels. Recognition and protective efficacy of a single chimeric fusion protein incorporating these antigens, LEP-F1, was confirmed in similar experiments. The impact of post-exposure immunization was then assessed in nine-banded armadillos that demonstrate a functional recapitulation of leprosy. Armadillos were infected with M. leprae 1 month before the initiation of post-exposure prophylaxis. While BCG precipitated motor nerve conduction abnormalities more rapidly and severely than observed for control infected armadillos, motor nerve injury in armadillos treated three times, at monthly intervals with LepVax was appreciably delayed. Biopsy of cutaneous nerves indicated that epidermal nerve fiber density was not significantly altered in M. leprae-infected animals although Remak Schwann cells of the cutaneous nerves in the distal leg were denser in the infected armadillos. Importantly, LepVax immunization did not exacerbate cutaneous nerve involvement due to M. leprae infection, indicating its safe use. There was no intraneural inflammation but a reduction of intra axonal edema suggested that LepVax treatment might restore some early sensory axonal function. These data indicate that post-exposure prophylaxis with LepVax not only appears safe but, unlike BCG, alleviates and delays the neurologic disruptions caused by M. leprae infection.

Highlights

  • Leprosy (Hansen’s disease) is a dermatological and peripheral neurological disorder caused by Mycobacterium leprae infection that presents as skin lesions and sensory and/or motor neuron damage

  • Following infection with M. leprae significantly fewer bacteria were recovered from the footpads of immunized mice relative to the numbers recovered from unimmunized control mice (Fig. 1a; p-values

  • Targeting at-risk populations, amongst whom many individuals may already be infected with M. leprae, with an effective vaccine appears to be more a tenable long lasting strategy

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Summary

Introduction

Leprosy (Hansen’s disease) is a dermatological and peripheral neurological disorder caused by Mycobacterium leprae infection that presents as skin lesions and sensory and/or motor neuron damage. LepVax immunization delayed the onset of Irrespective of this, our experimental data indicate that the motor nerve conduction abnormality and reduced the proportion infect ImmunizaƟon (unimmunized)

Results
Conclusion

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