Phase I trial of intravenous peptide-pulsed dendritic cells in patients with metastatic melanoma.

Sixteen patients with metastatic stage IV melanoma were treated with use of intravenous infusions of dendritic cells (DC) derived by incubation of plastic-adherent peripheral blood mononuclear cells (PBMC) with IL-4 and GM-CSF for 8 days in serumless AIM-V medium, followed by overnight pulsing with peptides. The tyrosinase368-376 (370D) and gp100(209-217 (210M)) peptides restricted to HLA class I A*0201 each differed from wild type by one amino acid modified to increase HLA binding. Median age was 49, with nine men and seven women. All patients, except one, had visceral disease. Patients received escalating doses of peptide-pulsed DCs at 10e7, 3 x 10e7, and 10e8 cells/dose twice at 2 weeks apart, with toxicity and clinical and immune responses as the principal endpoints. The first infusion of DCs was fresh, and frozen DCs were given for the second infusion of each cycle. Mean DC purity by flow cytometry was 49%, with a mean HLA-DR level of 57%, CD86 of 41%, CD58 of 46%, and mean CD14 cells of 0.9%. Toxicity was minimal, with two patients having transient grade III DC-related toxicity. Ten patients received one cycle of treatment and six patients received two cycles of treatment. One patient had a complete remission (CR) of lung and pleural disease after two cycles of DC therapy. Two additional patients had stable disease and two patients had mixed responses. Overall immunity was assessed by recall skin testing with peptides, gamma interferon ELISA assays of peptide specific cytolytic T cell (CTL) stimulated twice with peptide, IL-2, and IL-7 over 24 days, and peptide-specific tetramer assays performed before and after vaccination. Five of 16 patients had an immune response to gp100 or tyrosinase by gamma interferon ELISA assay; four of five were clinically stable or had tumor regression. These data suggest that melanoma antigen peptide-pulsed DC given intravenously are not toxic, and regression or stability of tumor appeared to correlate with the detection of a peptide-specific immune response in the peripheral blood.

A Phase I study of active immunotherapy with carcinoembryonic antigen peptide (CAP-1)-pulsed, autologous human cultured dendritic cells in patients with metastatic malignancies expressing carcinoembryonic antigen.

Dendritic cells (DCs), antigen-presenting cells capable of priming naive T cells to specific antigens in an HLA-restricted fashion, have been demonstrated to induce protective T cell-mediated immunity in tumor-bearing animals. We performed this study to test the safety, feasibility, and clinical response of immunizations with in vitro-generated DCs, loaded with an HLA-A2-restricted peptide fragment of the tumor antigen carcinoembryonic antigen (CEA), for the treatment of patients with advanced CEA-expressing malignancies. Cell preparations enriched for autologous DCs were generated from the patients' plastic adherent peripheral blood mononuclear cells in serum-free media supplemented with granulocyte macrophage colony-stimulating factor and interleukin-4. Within the cell preparation, 66% of the cells expressed the phenotype typical for DCs (CD86high, HLA-DRhigh, and CD14low). The DCs were loaded with the CEA peptide CAP-1 and cryopreserved. Groups of three to six patients received four weekly or biweekly i.v. infusions of the CAP-1-loaded DC in escalating dose levels of 1 x 10(7), 3 x 10(7), and 1 x 10(8) cells/dose. A subset of the patients in the last group also received intradermal injections of 1 x 10(6) DCs. There were no toxicities directly referable to the treatments. One patient had a minor response, and one had stable disease. Skin punch biopsy at DC injection sites demonstrated pleomorphic infiltrates in the three patients evaluated. We conclude that it is feasible and safe to generate and administer large numbers of previously cryopreserved DCs loaded with CAP-1 peptide to patients with advanced malignancies.