Dendritic cells (DCs) are major antigen-presenting cells. They are capable of capturing and processing tumor antigens, expressing lymphocyte costimulatory molecules, and secreting cytokines to initiate immune responses. Here, the authors tested the effect of cytokine-induced killer (CIK) cells, a population that includes CD3+CD56+ cells (natural killer T cells), with regard to their capacity to immunomodulate DCs. Cytokine-induced killer cells were cocultured with autologous DCs generated from peripheral blood mononuclear cells. Expression of markers typical for both populations was measured using flow cytometry, and secretion of interleukin (IL)-12 was determined using enzyme-linked immunosorbent assays. Cytotoxicity assays were performed to investigate the role of IL-12 and the importance of cell-cell interactions. Considering this, receptors for IL-12 and CD40 were blocked and cocultures were performed with cell culture inserts. Coculture of CIK cells led to a significant increase of DC-specific, costimulatory, and antigen-presenting molecules in DC cultures. In addition, coculture resulted in a dramatically increase of IL-12 secretion by DCs and to a significant increase in cytotoxic activity of CIK cells toward carcinoma cells. Blockage of IL-12 uptake decreased the cytolytic activity of CIK cells. Cytokine secretion was shown to be important for activation of CIK cells, and also cellular interactions between DCs and effector cells caused a higher cytolytic capacity. Interactions between DCs and CIK cells caused changes in the surface molecule expression of both populations, led to an increase of IL-12 secretion, and rendered an improved cytotoxic activity. The natural killer T cell subpopulation seems to be responsible for this effect. Therefore, coculture of DCs with CIK cells may have a major impact on immunotherapeutic protocols for patients with cancer.
In this study we have presented in vitro data and results of a preliminary clinical trial using dendritic cells (DC) in patients with progressive metastatic renal cell carcinoma. DC precursor cells were obtained from peripheral blood mononuclear cells (PBMC). DC were pulsed with autologous tumor cell lysate if available. In total, 15 patients were treated with a median of 3.95 x 10(6) DC administered and ultrasound-guided into a lymph node or into adjacent tissue. Seven patients remained with progressive disease (PD), 7 patients showed stable disease (SD), and one patient displayed a partial response (PR). Most interestingly, the patient who was treated with the highest number of DC (14.4 x 10(6) DC/vaccine) displayed a PR. Delayed-type hypersensitivity (DTH) reaction using autologous tumor lysate was positive in 3 out of 13 patients, including the patient with PR. Two out of 3 patients receiving additional treatment with keyhole limpet hemocyanin (KLH) showed reactivity to KLH after vaccination. CD3+CD4+ and CD3+CD28+ cells as well as the proliferation rate of peripheral blood lymphocytes (PBL) increased significantly in the blood of patients during therapy. In conclusion, our observations confirm the capability of tumor-lysate pulsed autologous DC vaccines to stimulate an immune response in patients with metastatic renal cell carcinoma even in the presence of a large tumor burden. The lack of adverse effects together with immunologic effects support further investigation of this novel therapeutic approach. Further studies are necessary to demonstrate clinical effectiveness in cancer patients, in particular in patients with less advanced disease.
Therapeutic vaccination of tumor patients with cytokine gene-transfected tumor cells leads to tumor regression in animal models but has so far not resulted in significant clinical benefit. We and others demonstrated that tumor cells transfected to mediate overexpression of a cytokine gene activate immunologic effector cells for an improved proliferation rate and significantly higher antitumoral cytotoxic activity. Here, we performed a pilot study of therapeutic vaccination in patients with metastatic disease. Autologous tumor cells were simultaneously transfected with novel minimalistic, immunogenically defined, gene expression constructs (MIDGE) for overexpression of the two cytokines interleukin 7 (IL-7) and GM-CSF and newly designed double stem-loop immunomodulating oligodeoxyribonucleotides (d-SLIM) as a Th1-promoting and NK cell-stimulating adjuvant. Transfection was performed ex vivo by ballistomagnetic gene transfer. Patients received four subcutaneous injections of at least 1 x 10(6) of their expression-modulated and immunomodified autologous tumor cells. Ten patients have been enrolled in the study protocol. In all patients no adverse effects could be detected. IL-7 and interferon gamma levels were elevated in the serum of the patients after treatment. Interestingly, cytotoxicity of patient-derived PBLs increased significantly during treatment. All 10 patients had progressive disease when entering our protocol. One complete, one partial, and one mixed response with progression of abdominal metastases and regression of lung metastases were observed. Two patients showed a stable disease after treatment and five patients remained in progressive disease. Our observations confirm the capability of autologous expression-modified and immunomodulated tumor cell vaccines to stimulate a strong immune response in patients with metastatic cancer even in the presence of a large tumor burden.
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