Affiliation:
1. Laboratory
Research Branch, National Hansen's Disease Programs, Louisiana
State University-SVM, Baton Rouge, Louisiana 70803
Abstract
SUMMARY
Leprosy is best understood as two conjoined diseases. The first is a
chronic mycobacterial infection that elicits an extraordinary range of
cellular immune responses in humans. The second is a peripheral
neuropathy that is initiated by the infection and the accompanying
immunological events. The infection is curable but not preventable, and
leprosy remains a major global health problem, especially in the
developing world, publicity to the contrary notwithstanding.
Mycobacterium leprae
remains noncultivable, and for over a
century leprosy has presented major challenges in the fields of
microbiology, pathology, immunology, and genetics; it continues to do
so today. This review focuses on recent advances in our understanding
of
M. leprae
and the host response to it, especially
concerning molecular identification of
M. leprae
, knowledge of
its genome, transcriptome, and proteome, its mechanisms of microbial
resistance, and recognition of strains by variable-number tandem repeat
analysis. Advances in experimental models include studies in gene
knockout mice and the development of molecular techniques to explore
the armadillo model. In clinical studies, notable progress has been
made concerning the immunology and immunopathology of leprosy, the
genetics of human resistance, mechanisms of nerve injury, and
chemotherapy. In nearly all of these areas, however, leprosy remains
poorly understood compared to other major bacterial
diseases.
Publisher
American Society for Microbiology
Subject
Infectious Diseases,Microbiology (medical),Public Health, Environmental and Occupational Health,General Immunology and Microbiology,Epidemiology
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