The activation of T cells has been shown to require at least two signals via molecules present on professional antigen-presenting cells: signal 1 via a peptide/MHC complex, and signal 2 via a costimulatory molecule. Studies are being conducted on the impact of hyperexpression of multiple costimulatory molecules in the activation of T cells. Pox virus vectors (vaccinia and avipox) are being used because of their ability to efficiently express multiple transgenes. Murine tumor cells provided with signal 1 and infected with either recombinant vaccinia or avipox vectors containing a TRIad of COstimulatory Molecules (B7-1/ICAM-1/LFA-3, designated TRICOM) induce the activation of T cells to a far greater extent than cells infected with any one or two costimulatory molecules. Despite this T-cell """"""""hyperstimulation"""""""" using TRICOM vectors, no evidence of apoptosis above that seen using the B7-1 vector was observed. Experiments using a four-gene construct have shown that TRICOM recombinants can enhance antigen-specific T-cell responses in vivo. Studies are also ongoing to determine if dendritic cells infected with these TRICOM vectors are rendered more efficient in enhancing T-cell responses. Peptide-pulsed dendritic cells infected with rF-TRICOM or rV-TRICOM induced cytotoxic T-lymphocyte activity in vitro and in vivo to a markedly greater extent than peptide-pulsed dendritic cells. These studies thus demonstrate the ability of vectors to introduce three costimulatory molecules into cells, thereby activating T-cell populations to levels far greater than those achieved with the use of one or two costimulatory molecules. This new threshold of T-cell activation in vaccine design is currently being studied.

Agency
National Institute of Health (NIH)
Institute
Division of Basic Sciences - NCI (NCI)
Type
Intramural Research (Z01)
Project #
1Z01BC010426-04
Application #
6951741
Study Section
(LTIB)
Project Start
Project End
Budget Start
Budget End
Support Year
4
Fiscal Year
2003
Total Cost
Indirect Cost
Name
Basic Sciences
Department
Type
DUNS #
City
State
Country
United States
Zip Code
Kudo-Saito, Chie; Schlom, Jeffrey; Hodge, James W (2004) Intratumoral vaccination and diversified subcutaneous/ intratumoral vaccination with recombinant poxviruses encoding a tumor antigen and multiple costimulatory molecules. Clin Cancer Res 10:1090-9
Chakraborty, Mala; Abrams, Scott I; Coleman, C Norman et al. (2004) External beam radiation of tumors alters phenotype of tumor cells to render them susceptible to vaccine-mediated T-cell killing. Cancer Res 64:4328-37
Grosenbach, Douglas W; Schlom, Jeffrey; Gritz, Linda et al. (2003) A recombinant vector expressing transgenes for four T-cell costimulatory molecules (OX40L, B7-1, ICAM-1, LFA-3) induces sustained CD4+ and CD8+ T-cell activation, protection from apoptosis, and enhanced cytokine production. Cell Immunol 222:45-57
Hodge, James W; Grosenbach, Douglas W; Aarts, Wilhelmina M et al. (2003) Vaccine therapy of established tumors in the absence of autoimmunity. Clin Cancer Res 9:1837-49
Hodge, James W; Poole, Diane J; Aarts, Wilhelmina M et al. (2003) Modified vaccinia virus ankara recombinants are as potent as vaccinia recombinants in diversified prime and boost vaccine regimens to elicit therapeutic antitumor responses. Cancer Res 63:7942-9
Oh, SangKon; Hodge, James W; Ahlers, Jeffrey D et al. (2003) Selective induction of high avidity CTL by altering the balance of signals from APC. J Immunol 170:2523-30
Hodge, James W; Tsang, Kwong-Yok; Poole, Diane J et al. (2003) General keynote: vaccine strategies for the therapy of ovarian cancer. Gynecol Oncol 88:S97-104; discussion S110-3