Abstract

Peptide antigens recognized by human melanoma-reactive T cells can be incorporated in vaccines to induce immune responses against melanoma. To date, most vaccine regimens have been limited to the use of single antigens, or a few antigens targeting the activation of CD8+ T cells. While CD8+ T-cell responses following vaccination have been noted, they are often low in magnitude, and objective clinical responses are limited. To improve vaccine strategies, it may help to increase the number of antigens targeted, to increase the magnitude of responses, to target both CD4 and CD8* T cells, and to increase persistence of the immune response through induction of memory. CD4 responses appear to be critical for immunologic memory, and for dendritic cell activation. With the recent identification of melanoma-associated MHC class ll-restricted peptides, it is feasible to assess their immunogenicity, and to determine whether they have an impact, on the magnitude and persistence of CD8+ T-cell responses. The immunologic effects of vaccination with a multipeptide vaccine targeting CD4+ and CD8+ T cells will be evaluated in the proposed clinical trial. Furthermore, we will address whether pre-treatment with a single dose of cyclophosphamide (CY) augments immunogenicity of a multipeptide vaccine. When administered at a dose inferior to that used for tumor lysis, CY has been shown to augment immune responses against KLH and cellular immunogens in humans. The proposed study is unique in that we will be evaluating the effects of this dose of drug in the setting where specific immune responses against target antigens can be quantified and measured. The peptide antigens used in this trial include (i) a cocktail of 12 melanoma peptides restricted by Class I MHC molecules HLA-A1, A2, or A3 (12MP), (ii) a cocktail of 6 melanoma helper peptides restricted by HLA-DR molecules (6MHP), and (iii) a modified tetanus peptide restricted by HLA-DR molecules (tet-p). Patients with resected IIB-IV melanoma will be randomized to one of four vaccine strategies: (a) 12MP + tet-p, (b) CY + 12MP + tet-p, (c) 12MP + 6MHP, and (d) CY + 12MP + 6MHP. The following specific aims will be addressed: 1) Determine whether addition of melanoma-associated helper peptides to a vaccine containing multiple Class I MHCrestricted peptides augments T-cell responses to the Class I MHC-restricted peptides, in patients treated in the adjuvant setting, 2) Determine the CD4+ T-cell response to helper peptides included in this vaccine, 3) Determine whether pre-treatment with a single dose of cyclophosphamide augments immunogenicity of a multipeptide vaccine, and 4) Obtain preliminary estimates of the impact of vaccination and vaccine responses on clinical outcome. ? ? ? ? ? ? ? ?

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Project (R01)
Project #
5R01CA118386-02
Application #
7285244
Study Section
Subcommittee G - Education (NCI)
Program Officer
Xie, Heng
Project Start
2006-09-11
Project End
2011-07-31
Budget Start
2007-08-01
Budget End
2008-07-31
Support Year
2
Fiscal Year
2007
Total Cost
$550,016
Indirect Cost

  Institution

Name
University of Virginia
Department
Surgery
Type
Schools of Medicine
DUNS #
065391526
City
Charlottesville
State
VA
Country
United States
Zip Code
22904

  Publications

Hu, Yinin; Kim, Helen; Blackwell, Christopher M et al. (2015) Long-term outcomes of helper peptide vaccination for metastatic melanoma. Ann Surg 262:456-64; discussion 462-4
Ramirez, Adriana G; Wages, Nolan A; Hu, Yinin et al. (2015) Defining the effects of age and gender on immune response and outcomes to melanoma vaccination: a retrospective analysis of a single-institution clinical trials' experience. Cancer Immunol Immunother 64:1531-9
Hu, Yinin; Petroni, Gina R; Olson, Walter C et al. (2014) Immunologic hierarchy, class II MHC promiscuity, and epitope spreading of a melanoma helper peptide vaccine. Cancer Immunol Immunother 63:779-86
Hu, Yinin; Smolkin, Mark E; White, Emily J et al. (2014) Inflammatory adverse events are associated with disease-free survival after vaccine therapy among patients with melanoma. Ann Surg Oncol 21:3978-84
Slingluff Jr, Craig L; Lee, Sandra; Zhao, Fengmin et al. (2013) A randomized phase II trial of multiepitope vaccination with melanoma peptides for cytotoxic T cells and helper T cells for patients with metastatic melanoma (E1602). Clin Cancer Res 19:4228-38
Harris, Rebecca C; Chianese-Bullock, Kimberly A; Petroni, Gina R et al. (2012) The vaccine-site microenvironment induced by injection of incomplete Freund's adjuvant, with or without melanoma peptides. J Immunother 35:78-88
Slingluff Jr, Craig L (2011) The present and future of peptide vaccines for cancer: single or multiple, long or short, alone or in combination? Cancer J 17:343-50
Olson, Walter C; Smolkin, Mark E; Farris, Erin M et al. (2011) Shipping blood to a central laboratory in multicenter clinical trials: effect of ambient temperature on specimen temperature, and effects of temperature on mononuclear cell yield, viability and immunologic function. J Transl Med 9:26
Slingluff Jr, Craig L; Petroni, Gina R; Chianese-Bullock, Kimberly A et al. (2011) Randomized multicenter trial of the effects of melanoma-associated helper peptides and cyclophosphamide on the immunogenicity of a multipeptide melanoma vaccine. J Clin Oncol 29:2924-32
Slingluff, Craig L; Petroni, Gina R; Smolkin, Mark E et al. (2010) Immunogenicity for CD8+ and CD4+ T cells of 2 formulations of an incomplete freund's adjuvant for multipeptide melanoma vaccines. J Immunother 33:630-8

Showing the most recent 10 out of 11 publications