Abstract

The identification and cloning of tumor associated antigens (TAA) has led to vaccination strategies designed to elicit anti-tumor immune responses resulting in host rejection of their tumor. These strategies include vaccination with antigenic peptides alone or with cytokines, recombinant vaccinia or adenoviruses encoding TAA genes, and peptide loaded dendritic cells. Despite overwhelming evidence of successful vaccination against several melanoma TAA=s, few objective clinical responses have been observed. In animal models, effective treatment correlates with vaccines that elicit high avidity t cells. The lack of clinical responses could be due to failure to elicit immune effectors with sufficient avidity to mediate tumor regression. We have reported that the T cell receptor (TCR) repertoire used by MART-1:27-35 and gp100:209-217 reactive T cell clones is quite diverse. This diversity leads to differences in how T cells recognize antigen which in turn can influence T cell avidity. Therefore, the ability to select high avidity T cells based on their TCR might lead to more effective therapeutic cells. Alternatively, we have reported using TCR genes to redirect the specificity of normal PBL- derived T cells to recognize melanoma cell lines. Using a retroviral gene transfer system, both CD4+ and CD8+ T cells could be redirected to recognize MART-1:27-35 peptide loaded cells and CD8+ T cells could recognize HLA-A2+, MART-1+ tumor cells. Although this TCR could generate MHC class I restricted helper T cells, its dependence on CD* meant it was unable to transfer tumor cell reactivity to the CD4+ T cells. The objective of this proposal is to determine which functions of the C8 coreceptor are required for efficient tumor cell recognition. Based on this knowledge, it might be possible to isolate or engineer TCR=s which do not require CD8 for tumor cell recognition. These CD8 independent TCR=s may not only permit us to engineer CD4+ T cells to provide MHC class I restricted T cell help, they may produce CD8+ T cells with enhanced avidity resulting in greater anti-tumor effector function.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA090873-03
Application #
6634027
Study Section
Experimental Therapeutics Subcommittee 1 (ET)
Program Officer
Howcroft, Thomas K
Project Start
2001-05-11
Project End
2005-04-30
Budget Start
2003-05-01
Budget End
2004-04-30
Support Year
3
Fiscal Year
2003
Total Cost
$313,325
Indirect Cost

  Institution

Name
University of Chicago
Department
Surgery
Type
Schools of Medicine
DUNS #
005421136
City
Chicago
State
IL
Country
United States
Zip Code
60637

  Publications

Foley, Kendra C; Nishimura, Michael I; Moore, Tamson V (2018) Combination immunotherapies implementing adoptive T-cell transfer for advanced-stage melanoma. Melanoma Res 28:171-184
Moore, Tamson; Wagner, Courtney Regan; Scurti, Gina M et al. (2018) Clinical and immunologic evaluation of three metastatic melanoma patients treated with autologous melanoma-reactive TCR-transduced T cells. Cancer Immunol Immunother 67:311-325
Spear, Timothy T; Wang, Yuan; Smith Jr, Thomas W et al. (2018) Altered Peptide Ligands Impact the Diversity of Polyfunctional Phenotypes in T Cell Receptor Gene-Modified T Cells. Mol Ther 26:996-1007
Spear, Timothy T; Wang, Yuan; Foley, Kendra C et al. (2017) Critical biological parameters modulate affinity as a determinant of function in T-cell receptor gene-modified T-cells. Cancer Immunol Immunother 66:1411-1424
Spear, Timothy T; Callender, Glenda G; Roszkowski, Jeffrey J et al. (2016) TCR gene-modified T cells can efficiently treat established hepatitis C-associated hepatocellular carcinoma tumors. Cancer Immunol Immunother 65:293-304
Spear, Timothy T; Nagato, Kaoru; Nishimura, Michael I (2016) Strategies to genetically engineer T cells for cancer immunotherapy. Cancer Immunol Immunother 65:631-49
Spear, Timothy T; Riley, Timothy P; Lyons, Gretchen E et al. (2016) Hepatitis C virus-cross-reactive TCR gene-modified T cells: a model for immunotherapy against diseases with genomic instability. J Leukoc Biol 100:545-57
Moore, Tamson V; Lyons, Gretchen E; Brasic, Natasha et al. (2009) Relationship between CD8-dependent antigen recognition, T cell functional avidity, and tumor cell recognition. Cancer Immunol Immunother 58:719-28
Voelkl, Simon; Moore, Tamson V; Rehli, Michael et al. (2009) Characterization of MHC class-I restricted TCRalphabeta+ CD4- CD8- double negative T cells recognizing the gp100 antigen from a melanoma patient after gp100 vaccination. Cancer Immunol Immunother 58:709-18
Duval, Lone; Schmidt, Henrik; Kaltoft, Keld et al. (2006) Adoptive transfer of allogeneic cytotoxic T lymphocytes equipped with a HLA-A2 restricted MART-1 T-cell receptor: a phase I trial in metastatic melanoma. Clin Cancer Res 12:1229-36

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