HLA and leprosy in the pre and postgenomic eras
s.l; s.n; 2006. 7 p. graf.
Non-conventional
em En
| SES-SP, HANSEN, HANSENIASE, SESSP-ILSLACERVO, SES-SP
| ID: biblio-1241808
Biblioteca responsável:
BR191.1
Localização: [{"text": "BR191.1", "_a": "09362/S"}]
ABSTRACT
Leprosy has intrigued immunologists for many decades. Despite minimal genetic variation between Mycobacterium leprae isolates worldwide, two completely different forms of the disease can develop in the susceptible human host localized, tuberculoid, or paucibacillary leprosy, which can heal spontaneously, and disseminating, lepromatous, or multibacillary leprosy, which is progressive if untreated. The questions which host factors regulate these very different outcomes of infection, by what mechanisms, and whether these can be used to combat disease remain unanswered. Leprosy has been one of the very first human diseases in which human leukocyte antigen (HLA) genes were demonstrated to codetermine disease outcome. Jon van Rood was among the earliest researchers to recognize the potential of this ancient disease as a human model to dissect the role of HLA in disease. Decades later, it is now clear that HLA molecules display highly allele-specific peptide binding capacity. This restricts antigen presentation to M. leprae-reactive T cells and controls the magnitude of the ensuing immune response. Furthermore, specific peptide/HLA class II complexes can also determine the quality of the immune response by selectively activating regulatory (suppressor) T cells. All these factors are believed to contribute to leprosy disease susceptibility. Despite the global reduction in leprosy disease prevalence, new case detection rates remain invariably high, demonstrating that treatment alone does not block transmission of leprosy. Better tools for early detection of preclinical M. leprae infection, likely the major source of unidentified transmission, therefore is a priority. Newly developed HLA-based bioinformatic tools now provide novel opportunities to help combat this disease. Here, we describe recent work using HLA-DR peptide binding algorithms in combination with recently elucidated genome sequences of several different mycobacteria. Using this postgenomic HLA-based approach, we were able to identify 12 candidate genes that were unique to M. leprae and were predicted to contain T cell epitopes restricted via several major HLA-DR alleles. Five of these antigens (ML0576, ML1989, ML1990, ML2283, ML2567) were indeed able to induce significant T cell responses in paucibacillary leprosy patients and M. leprae-exposed healthy controls but not in most multibacillary leprosy patients, tuberculosis patients, or endemic controls...
Buscar no Google
Coleções:
06-national
/
BR
Base de dados:
HANSEN
/
HANSENIASE
/
SES-SP
/
SESSP-ILSLACERVO
Assunto principal:
Sítios de Ligação
/
Glicolipídeos
/
Linfócitos T
/
Hanseníase Virchowiana
/
Hanseníase Tuberculoide
/
Antígenos HLA-DR
/
Genoma Bacteriano
/
Genes MHC da Classe II
/
Epitopos de Linfócito T
/
Motivos de Aminoácidos
Tipo de estudo:
Diagnostic_studies
/
Prognostic_studies
/
Risk_factors_studies
/
Screening_studies
Limite:
Humans
Idioma:
En
Ano de publicação:
2006
Tipo de documento:
Non-conventional