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Memory T cells in latent Mycobacterium tuberculosis infection are directed against three antigenic islands and largely contained in a CXCR3+CCR6+ Th1 subset.


ABSTRACT: An understanding of the immunological footprint of Mycobacterium tuberculosis (MTB) CD4 T cell recognition is still incomplete. Here we report that human Th1 cells specific for MTB are largely contained in a CXCR3(+)CCR6(+) memory subset and highly focused on three broadly immunodominant antigenic islands, all related to bacterial secretion systems. Our results refute the notion that secreted antigens act as a decoy, since both secreted proteins and proteins comprising the secretion system itself are targeted by a fully functional T cell response. In addition, several novel T cell antigens were identified which can be of potential diagnostic use, or as vaccine antigens. These results underline the power of a truly unbiased, genome-wide, analysis of CD4 MTB recognition based on the combined use of epitope predictions, high throughput ELISPOT, and T cell libraries using PBMCs from individuals latently infected with MTB.

SUBMITTER: Lindestam Arlehamn CS 

PROVIDER: S-EPMC3554618 | biostudies-literature | 2013 Jan

REPOSITORIES: biostudies-literature

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Memory T cells in latent Mycobacterium tuberculosis infection are directed against three antigenic islands and largely contained in a CXCR3+CCR6+ Th1 subset.

Lindestam Arlehamn Cecilia S CS   Gerasimova Anna A   Mele Federico F   Henderson Ryan R   Swann Justine J   Greenbaum Jason A JA   Kim Yohan Y   Sidney John J   James Eddie A EA   Taplitz Randy R   McKinney Denise M DM   Kwok William W WW   Grey Howard H   Sallusto Federica F   Peters Bjoern B   Sette Alessandro A  

PLoS pathogens 20130124 1


An understanding of the immunological footprint of Mycobacterium tuberculosis (MTB) CD4 T cell recognition is still incomplete. Here we report that human Th1 cells specific for MTB are largely contained in a CXCR3(+)CCR6(+) memory subset and highly focused on three broadly immunodominant antigenic islands, all related to bacterial secretion systems. Our results refute the notion that secreted antigens act as a decoy, since both secreted proteins and proteins comprising the secretion system itsel  ...[more]

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