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Burkholderia pseudomallei is the etiological agent of melioidosis, a serious human disease for which no vaccine is available. Immunization of susceptible BALB/c mice with the live attenuated mutant B. pseudomallei ilvI (referred to as "2D2") generated significant, although incomplete, immunity. Splenic B. pseudomallei-specific T cells, detected in immunized mice, proliferated and produced interferon-gamma in vitro in response to dead bacteria. Assessment of T cell antigen specificity indicated that subpopulations of B. pseudomallei-reactive T cells were responsive to BopE, a type III secretion system (TTSS) effector protein, and to a lesser extent to BipD, a TTSS translocator protein. Increased survival of severe combined immunodeficient mice adoptively transferred with T cells from immunized mice, compared with that of naive T cell recipients, demonstrated that immunization with 2D2 generated T cell-mediated immunity. CD4+ and CD8+ cell depletion studies demonstrated that CD4+ cells, but not CD8+ cells, mediated this protection in vivo. Thus, CD4+ T cells can mediate vaccine-induced immunity to experimental melioidosis.

the journal of infectious diseases (online. university of chicago press)/the journal of infectious diseases

A Live Experimental Vaccine against<i>Burkholderia pseudomallei</i>Elicits CD4<sup>+</sup>T Cell–Mediated Immunity, Priming T Cells Specific for 2 Type III Secretion System Proteins

A Live Experimental Vaccine againstBurkholderia pseudomalleiElicits CD4+T Cell–Mediated Immunity, Priming T Cells Specific for 2 Type III Secretion System Proteins

A Live Experimental Vaccine againstBurkholderia pseudomalleiElicits CD4⁺T Cell–Mediated Immunity, Priming T Cells Specific for 2 Type III Secretion System Proteins