Abstract

This renewal application is focused on the investigation of afferent immune cells that make the first in vivo contact with tumor cells. Tumor cells have been gene modified to increase their in vivo immunogenicity and to serve as gene delivery devices for the in vivo transduction of pre-immune cells. The feasibility of this method has been demonstrated in the preliminary result section by the generation and injection of retroviral vector packaging tumor cell lines capable of in vivo transducing cells in syngeneic mice. Transduced cells subsequently accumulate in the regional lymph node. In vivo transduction of tumor-specific T-cells by retroviral vector packaging tumor cells will be used to pursue three goals. First, in vivo transduced and thereby gene marked, tumor specific T-cells will be analyzed. The investigator expects that this novel procedure of marking tumor-specific pre-effector cells will significantly contribute to our understanding of the afferent limb of immunity as it occurs in vivo. In particular, the factors influencing the phenotype of transduced cells and their survival are of interest. The influence of the microenvironment provided by the tumor, e.g. by expression of B7 or production of cytokines, on the nature of transduced cells will be determined. The influence of the macroenvironment provided by the host, e.g. Fas, Fas-ligand or perforin deficiency, on transduced T-cell survival will be evaluated. Second, a novel method will be tested to control gene activity of genes previously transduced into tumor-specific T-cells by pharmacological means. The transduced gene product, to be activated by drug administration in vivo is the intracellular domain of CD28 fused to the drug responsive gene product, gyrase B or FK506 binding protein 12. The pharmacological drugs to be used to induce CD28 signaling are coumermycin or the dimer of FK506, FK1012. Third, in vivo activation of CD28 in combination with a CTLA-4 blocker or with apoptotic protease blocking genes expressed on a dicistronic transcript will be used to test the hypothesis that apoptosis is the rate limiting event in tumor immunity in vivo.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA057904-08
Application #
2894975
Study Section
Special Emphasis Panel (ZRG2-IMS (03))
Program Officer
Mccarthy, Susan A
Project Start
1992-09-01
Project End
2001-08-31
Budget Start
1999-09-01
Budget End
2001-08-31
Support Year
8
Fiscal Year
1999
Total Cost
Indirect Cost

  Institution

Name
University of Miami School of Medicine
Department
Microbiology/Immun/Virology
Type
Schools of Medicine
DUNS #
City
Miami
State
FL
Country
United States
Zip Code
33146

  Publications

Merger, M; Viney, J L; Borojevic, R et al. (2002) Defining the roles of perforin, Fas/FasL, and tumour necrosis factor alpha in T cell induced mucosal damage in the mouse intestine. Gut 51:155-63
Jiang, Z; Podack, E; Levy, R B (2001) Major histocompatibility complex-mismatched allogeneic bone marrow transplantation using perforin and/or Fas ligand double-defective CD4(+) donor T cells: involvement of cytotoxic function by donor lymphocytes prior to graft-versus-host disease pathogenes Blood 98:390-7
Muta, H; Boise, L H; Fang, L et al. (2000) CD30 signals integrate expression of cytotoxic effector molecules, lymphocyte trafficking signals, and signals for proliferation and apoptosis. J Immunol 165:5105-11
Podack, E R (1999) How to induce involuntary suicide: the need for dipeptidyl peptidase I. Proc Natl Acad Sci U S A 96:8312-4
Lee, R K; Cai, J P; Deyev, V et al. (1999) Azidothymidine and interferon-alpha induce apoptosis in herpesvirus-associated lymphomas. Cancer Res 59:5514-20
Yamazaki, K; Spruill, G; Rhoderick, J et al. (1999) Small cell lung carcinomas express shared and private tumor antigens presented by HLA-A1 or HLA-A2. Cancer Res 59:4642-50
Rukavina, D; Laskarin, G; Rubesa, G et al. (1998) Age-related decline of perforin expression in human cytotoxic T lymphocytes and natural killer cells. Blood 92:2410-20
Spielman, J; Lee, R K; Podack, E R (1998) Perforin/Fas-ligand double deficiency is associated with macrophage expansion and severe pancreatitis. J Immunol 161:7063-70
Baker, M B; Riley, R L; Podack, E R et al. (1997) Graft-versus-host-disease-associated lymphoid hypoplasia and B cell dysfunction is dependent upon donor T cell-mediated Fas-ligand function, but not perforin function. Proc Natl Acad Sci U S A 94:1366-71
Nishio, M; Spielman, J; Lee, R K et al. (1996) CD80 (B7.1) and CD54 (intracellular adhesion molecule-1) induce target cell susceptibility to promiscuous cytotoxic T cell lysis. J Immunol 157:4347-53

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