Abstract

Our long-term goal is to develop new vaccination strategies in humans with an emphasis on anti-tumor immunity. The unique ability of dendritic cells (DC) to induce and sustain immune responses makes them optimal candidates for vaccination protocols. Yet, optimal strategies for the delivery of antigen(s) to human DCs still need to be identified. Recent studies demonstrate that DCs efficiently capture apoptotic cells and present MHC class I and class II-restricted epitopes. Thus, the use of tumor cell bodies as source of antigens in DC-based vaccination offers a novel strategy that allows presentation of both CTL and T helper epitopes. Our own studies show that naive CD8+ T cells can be induced to differentiate into melanoma-specific CTL when primed by DCs loaded with killed allogeneic melanoma cells. Yet, T cells require several rounds of stimulation for the tumor specific responses to be established. Therefore, it is of great importance to identify the means of increasing tumor cell immunogenicity. Because the purified heat shock proteins, gp96 and hsp7O, have been shown to play a critical role in tumor rejection in mice, it is likely that the expression level as well as the type of hsps expressed in tumor cell bodies will determine their immunogenicity. We propose that: Immunogenicity of tumor cell bodies is determined by their expression of heat shock proteins and we propose to analyze the immunogenicity of cell bodies from lines induced to overexpress hsp70 or gp96. Using human malignant melanoma as a model we will: (1) Determine whether loading DCs with tumor bodies overexpressing hsp70 or gp96 enhances TAA presentation to melanoma specific T cell lines/clones. (2) Determine whether loading DCs with tumor bodies overexpressing hsp 70 or gp96 enhances their capacity to prime naive T cells. (3) Determine whether loading DCs with tumor bodies overexpressing hsp70 or gp96 skews their capacity to prime CD4 T cells. (4) Determine whether hsp70 and gp96 account for the differential priming activity of cell bodies. These studies will permit us to produce an altered melanoma cell line, with enhanced immunogenicity, that will be used to generate tumor cell bodies to load onto DCs for vaccination protocols.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA085540-03
Application #
6633657
Study Section
Experimental Therapeutics Subcommittee 1 (ET)
Program Officer
Hecht, Toby T
Project Start
2001-03-01
Project End
2005-02-28
Budget Start
2003-03-01
Budget End
2004-02-29
Support Year
3
Fiscal Year
2003
Total Cost
$250,660
Indirect Cost

  Institution

Name
Baylor Research Institute
Department
Type
DUNS #
145745022
City
Dallas
State
TX
Country
United States
Zip Code
75204

  Publications

Banchereau, Jacques; Zurawski, Sandra; Thompson-Snipes, LuAnn et al. (2012) Immunoglobulin-like transcript receptors on human dermal CD14+ dendritic cells act as a CD8-antagonist to control cytotoxic T cell priming. Proc Natl Acad Sci U S A 109:18885-90
Banchereau, Jacques; Thompson-Snipes, LuAnn; Zurawski, Sandra et al. (2012) The differential production of cytokines by human Langerhans cells and dermal CD14(+) DCs controls CTL priming. Blood 119:5742-9
Pedroza-Gonzalez, Alexander; Xu, Kangling; Wu, Te-Chia et al. (2011) Thymic stromal lymphopoietin fosters human breast tumor growth by promoting type 2 inflammation. J Exp Med 208:479-90
Klechevsky, Eynav; Flamar, Anne-Laure; Cao, Yanying et al. (2010) Cross-priming CD8+ T cells by targeting antigens to human dendritic cells through DCIR. Blood 116:1685-97
Banchereau, Jacques; Klechevsky, Eynav; Schmitt, Nathalie et al. (2009) Harnessing human dendritic cell subsets to design novel vaccines. Ann N Y Acad Sci 1174:24-32
Frleta, Davor; Yu, Chun I; Klechevsky, Eynav et al. (2009) Influenza virus and poly(I:C) inhibit MHC class I-restricted presentation of cell-associated antigens derived from infected dead cells captured by human dendritic cells. J Immunol 182:2766-76
Klechevsky, Eynav; Morita, Rimpei; Liu, Maochang et al. (2008) Functional specializations of human epidermal Langerhans cells and CD14+ dermal dendritic cells. Immunity 29:497-510
Palucka, Anna Karolina; Ueno, Hideki; Fay, Joseph et al. (2008) Dendritic cells: a critical player in cancer therapy? J Immunother 31:793-805
Klechevsky, Eynav; Gallegos, Michael; Denkberg, Galit et al. (2008) Antitumor activity of immunotoxins with T-cell receptor-like specificity against human melanoma xenografts. Cancer Res 68:6360-7
Mantovani, Alberto; Romero, Pedro; Palucka, A Karolina et al. (2008) Tumour immunity: effector response to tumour and role of the microenvironment. Lancet 371:771-83

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