Abstract

This revised Program Project Application describes the research objectives of three experienced investigators who are working on the long-term goal of improving immunotherapy of cancer by working within the unifying theme of the study of heat and heat shock proteins and their effects on the immune response. The overall hypothesis is that both thermal stimuli and heat shock proteins, if better understood at the immunological level, can be manipulated therapeutically to promote the regression of human malignancies and allow induction of long-lived immune responses. This hypothesis has as its roots the recognition by the Project Leaders of the fundamental, long-conserved biological significance that both hsps and fever have on survival and the regulation of the immune response. The overall research efforts are focused toward determining whether hsps and/or thermal stimuli can serve as adjuvants and result in changes in well-defined immunological parameters that are known to be important in development of effective anti-tumor immunity. These include vaccine potency and anti-tumor immune responses, and homing of effector cytolytic T cells to the site of tumor. These analyses will thus provide the foundation for future studies in humans. The three Projects address the following questions in an integrated fashion: How can we improve the potential of heat shock proteins td serve as part of cancer vaccines? 2. How does the thermal environment of the immune system influence the efficacy of vaccines and adoptive T cell therapy of cancer? How do thermal stimuli influence clinically measurable immune parameters such as alterations in the adhesive and homing potential of cytotoxic immune effector cells, and cytokine function? These projects will be supported by two scientific Cores and an Administrative Core that will contribute to the successful progression of efforts in each of these three projects. This Program application represents the recognition that the Project Leaders need to work together as a team to enhance the more rapid achievement of the ultimate goal to develop novel approaches to cancer therapy. This group has already interacted extensively at the scientific level and has developed clinical collaborations, thereby providing the experience needed to realistically bring future laboratory findings to the cancer clinic.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Program Projects (P01)
Project #
5P01CA094045-03
Application #
6893689
Study Section
Subcommittee G - Education (NCI)
Program Officer
Wong, Rosemary S
Project Start
2003-07-20
Project End
2008-06-30
Budget Start
2005-07-01
Budget End
2006-06-30
Support Year
3
Fiscal Year
2005
Total Cost
$1,389,197
Indirect Cost

  Institution

Name
Roswell Park Cancer Institute Corp
Department
Type
DUNS #
824771034
City
Buffalo
State
NY
Country
United States
Zip Code
14263

  Publications

Zynda, Evan R; Grimm, Melissa J; Yuan, Min et al. (2015) A role for the thermal environment in defining co-stimulation requirements for CD4(+) T cell activation. Cell Cycle 14:2340-54
Winslow, Timothy B; Eranki, Annu; Ullas, Soumya et al. (2015) A pilot study of the effects of mild systemic heating on human head and neck tumour xenografts: Analysis of tumour perfusion, interstitial fluid pressure, hypoxia and efficacy of radiation therapy. Int J Hyperthermia 31:693-701
Brackett, Craig M; Muhitch, Jason B; Evans, Sharon S et al. (2013) IL-17 promotes neutrophil entry into tumor-draining lymph nodes following induction of sterile inflammation. J Immunol 191:4348-57
Dayanc, Baris E; Bansal, Sanjay; Gure, Ali Osmay et al. (2013) Enhanced sensitivity of colon tumour cells to natural killer cell cytotoxicity after mild thermal stress is regulated through HSF1-mediated expression of MICA. Int J Hyperthermia 29:480-90
Lee, Chen-Ting; Zhong, Lingwen; Mace, Thomas A et al. (2012) Elevation in body temperature to fever range enhances and prolongs subsequent responsiveness of macrophages to endotoxin challenge. PLoS One 7:e30077
Lee, Chen-Ting; Repasky, Elizabeth A (2012) Opposing roles for heat and heat shock proteins in macrophage functions during inflammation: a function of cell activation state? Front Immunol 3:140
Sen, Arindam; Capitano, Maegan L; Spernyak, Joseph A et al. (2011) Mild elevation of body temperature reduces tumor interstitial fluid pressure and hypoxia and enhances efficacy of radiotherapy in murine tumor models. Cancer Res 71:3872-80
Fisher, Daniel T; Chen, Qing; Skitzki, Joseph J et al. (2011) IL-6 trans-signaling licenses mouse and human tumor microvascular gateways for trafficking of cytotoxic T cells. J Clin Invest 121:3846-59
Wang, Xiang-Yang; Sun, Xiaolei; Chen, Xing et al. (2010) Superior antitumor response induced by large stress protein chaperoned protein antigen compared with peptide antigen. J Immunol 184:6309-19
Kokolus, Kathleen M; Hong, Chi-Chen; Repasky, Elizabeth A (2010) Feeling too hot or cold after breast cancer: is it just a nuisance or a potentially important prognostic factor? Int J Hyperthermia 26:662-80

Showing the most recent 10 out of 37 publications