Enhanced Activation of Human T Cells via Avipox Vector-mediated Hyperexpression of a Triad of Costimulatory Molecules in Human Dendritic Cells

Immunology

Enhanced Activation of Human T Cells via Avipox Vector-mediated Hyperexpression of a Triad of Costimulatory Molecules in Human Dendritic Cells

MingZhu Zhu, Hiroshi Terasawa, James Gulley, Dennis Panicali, Philip Arlen, Jeffrey Schlom¹ and Kwong Y. Tsang

Laboratory of Tumor Immunology and Biology, National Cancer Institute, NIH, Bethesda, Maryland 20892-1750 [M.Z., H.T., J.G., P.A., J.S., K.Y.T.], and Therion Biologics Corporation, Cambridge, Massachusetts 02142 [D.P.]

T-cell activation usually requires at least two signals. Thefirst signal is antigen-specific, and the second signal(s) involvesthe interaction of a T-cell costimulatory molecule(s) on theantigen-presenting cell (APC) with its ligand on the T cell.Dendritic cells (DCs) are the most potent APCs, attributable,in part, to their expression of several T-cell costimulatorymolecules. Human DCs generated in vitro, however, will varyin methods of generation and maturation and in terms of expressionof different phenotypic markers—including costimulatorymolecules—among different donors. We report here thata recombinant avipox (fowlpox, rF) vector has been constructedthat can efficiently express the transgenes for three humanT-cell costimulatory molecules (B7-1, ICAM-1, and LFA-3) asa result of individual early avipox promoters driving the expressionof each transgene. This triad of costimulatory molecules (designatedTRICOM) was selected because each has an individual ligand onT cells and each has been shown previously to prime a uniquesignaling pathway in T cells. We report here that rF-TRICOMcan efficiently infect human DCs of different states of maturityand hyperexpress each of the three costimulatory molecules onthe DC surface without affecting other DC phenotypic markers.Infection of influenza or human papilloma virus 9-mer peptide-pulsedDCs from different individuals, or at different stages of maturitywith rF-TRICOM, resulted in enhanced activation of T cells fromperipheral blood mononuclear cells of autologous donors after24 h of incubation with DCs. This enhanced activation was analyzedby both titrating the peptide and differing the DC:effectorcell ratios. No effect was observed using the control wild-typeavipox vector. No increase in apoptosis was observed in T cellshyperstimulated with the TRICOM vector, and no decrease in interleukin-12production was seen in lipopolysaccharide-stimulated DCs infectedwith rF-TRICOM. Antibody-blocking experiments demonstrated thatenhanced T-cell activation by TRICOM was attributed to eachof the three costimulatory molecules. Peptide-pulsed, rF-TRICOM-infectedDCs were also shown to be more effective than peptide-pulsedDCs in activating T cells to 9-mer peptides derived from tworelatively weak "self" immunogens, i.e., human prostate-specificantigen and human carcinoembryonic antigen. These studies thusdemonstrate for the first time that a vector that can simultaneouslyhyperexpress three costimulatory molecules can be used to efficientlyinfect human DCs, leading to enhanced peptide-specific T-cellactivation. The use of this approach for in vitro studies andclinical applications in immunotherapy is discussed.

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Cancer Research	Clinical Cancer Research
Cancer Epidemiology Biomarkers & Prevention	Molecular Cancer Therapeutics
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