In Vitro/IN Vivo Activated Dendritic Cells for Melanoma
Weber, Jeffrey S.   
University of Southern California, Los Angeles, CA, United States

In this four year clinical trial submission, he will test two hypotheses based on pre-clinical data from the Pi's and the co-investigator's labs that: 1. treatment of human dendritic cells (DC) derived from peripheral blood monocytes with CD40 ligand (CD4oL) will induce DC maturation, provide T-cell helper signals and augment the ability of DC to achieve clinical anti-tumor and immune responses in patients with metastatic melanoma; 2. treatment of patients receiving peptide-pulsed DC with IL-2 will augment the clinical activity and immunogenicity of the DC. Patients with metastatic melanoma that are HLA-A2 positive will be treated with autologous DC pulsed with peptides derived from three tumor antigens. The MART-1 27-35, gp100 209-217 (210M) and tyrosinase 368-376 (370D) peptides will be pulsed onto DC derived from ficolled PBMC treated with GM-CSF and IL-4. Patients will be treated on successive phase II trials with a two-part Simon design. In an initial trial 21 patients will be treated intravenously with DC treated with a preparation of helper peptides and IL-4/GM-CSF to which CD40 ligand/gamma interferon are added. If 2 or more responses are seen then a further 20 patients will be added to the initial trial. If 5 or more responses of 41 are observed, then the DC regimen will be felt worthy of further study and a second phase II study will be performed with IL-2 therapy added to the DC regimen. The principal endpoint of the phase II trials to be conducted as a collaboration between USC/Norris Cancer Center and the University of Michigan Cancer Center is the achievement of objective clinical responses. As a secondary endpoint, immune responses will be assessed by detection of cytokine release from peripheral blood T cells restimulated with epitope peptides in ELISA or ELISPOT assays, and by flow cytometric detection of peptide specific T cells using MHC class I tetramers bound to specific peptides. Patients will receive one hundred million DC every two weeks for three infusions. Patients in the 2nd trial receiving IL-2 SC will be treated daily for 5 days after each DC infusion. Leucopheresis will be performed to obtain PBMC for production of DC and to cryopreserve PBMC for immune assays. Four weeks after 3 infusions of DC, another pheresis will be performed to cryopreserve PBMC for post-treatment immune assays, and to provide DC for a second treatment cycle if there is disease stability or regression. The goal of this proposal is to develop an """"""""optimum"""""""" regimen for DC therapy by provision of maturation and T-helper signals through CD40 ligand and IL-2 pathways that are necessary for generation of strong CTL responses by DC grown in IL-4 and GM-CSF and pulsed with class I restricted epitope peptides.