Although it remains poorly understood, the processing of Ag present on the whole parasite might not only follow a
different process but that process might be more efficient and the multiple Ag could persist as a depot, which in some instances is required for the maintenance of memory T cells. ABT 888 This study points the way for further analysis of the antigen or antigens that are recognized by the expanded CD8+ TEM cells. T cell clones can be derived from the livers of γ-spz-immune mice and used to screen P. berghei Ag. Further elucidation of the Ag recognized by the Vβ-bearing T cells should provide insights into the role of these cells in protective immunity to malaria and the mechanism by which predominant TCR are selected in the immune response to immunization with radiation-attenuated spz. We thank Isaac Chalom, Gina Donofrio, Caroline Ciuni and Zahra Parker for the provision of spz from hand-dissected mosquitoes, and expert technical assistance;
the Department of Entomology, WRAIR for infected mosquitoes; Dr Robert Schwenk for critical review of this manuscript; and the entire Krzych Laboratory for many useful discussions. This work is supported in part by a grant from the NIH AI46438 (UK) and by US Army Research and Materiel Command. The opinions expressed in this article are personal and are not to be construed selleck chemical as official positions of the United Fossariinae States Departments of Army, Defense, or Health and Human Services. “
“Biomedical Advanced Research and Development Authority, Washington, DC, USA Pfizer, San Diego, CA, USA The efficacy
of multi-agent DNA vaccines consisting of a truncated gene encoding Bacillus anthracis lethal factor (LFn) fused to either Yersinia pestis V antigen (V) or Y. pestis F1 was evaluated. A/J mice were immunized by gene gun and developed predominantly IgG1 responses that were fully protective against a lethal aerosolized B. anthracis spore challenge but required the presence of an additional DNA vaccine expressing anthrax protective antigen to boost survival against aerosolized Y. pestis. Immunization against Bacillus anthracis is dependent upon the production of an effective antibody response directed against the bacterium’s tripartite exotoxin comprised of protective antigen (PA, a nontoxic cell-binding element), lethal factor (LF, a metaloprotease), and edema factor (EF, a cyclic AMP modulator; Turnbull, 1991; Baillie & Read, 2001).