Células T reguladoras representam um fator de  susceptibilidade na tuberculose experimental / Regulatory T Cells may represent a susceptibiliy factor in experimental tuberculosis

AUTOR(ES)

Marina Oliveira e Paula

DATA DE PUBLICAÇÃO

2009

RESUMO

Tuberculosis is responsible for the highest number of cases of bacterial infection in the world, which are frequently fatal, especially when associated with multiply drug-resistant and extremely resistant strains, treatment abandonment and immune suppression. Depending on the nature and magnitude of the host response, an excessive inflammation follows the progression of infection. In this way, it is of great interest to identify mechanisms that not only determine differences in infection outcome, but also those that are most influential in controlling host tissue damage. In this study, we used mouse strains with distinct levels of susceptibility to M. tuberculosis infection to test the hypothesis that the frequency and activity of Treg cells are influenced by genetic background and these differences might represent a susceptibility factor for tuberculosis. Our results show that either the frequency or the suppressor activity of BALB/c Treg cells was enhanced, inhibiting proliferation, IFN-g and IL-2 production by CD4+CD25- responsive cells. This suppressor activity seems not be dependent on IL-10 or TGF-b. In contrast, the frequency and suppressor capacity of C57BL/6 Treg cells decreased and, as a consequence, a more intense proliferative response, higher production of IFN-g and IL-17, and a more efficient restriction of bacterial growth compared to BALB/c mice were observed. C57BL/6 regulatory T cells up regulated TGF-b secretion. However, they did not down regulated IFN-g secretion. In addition, adoptive transfer of BALB/c Treg cells made this strain more susceptible to infection while the transfer of C57BL/6 Treg cells affected only discretely the CFU numbers in this strain. To reinforce our data, recently, it was reported by Torcia and coworkers that a functional deficiency of regulatory T cells may explain distinct resistance to malaria in different ethnic groups of Africa. In this context, activation of Treg cells may become an important issue to be addressed in the development of vaccines and immune modulators for the prophylaxis and therapy of infectious diseases in susceptible subjects.

ASSUNTO(S)

susceptibilidade tuberculose experimental susceptibility experimental tuberculosis regulatory t cells (treg) células t reguladoras (treg)

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