Abstract
Background
The application of DC-CIK in the field of cancer immunotherapy has been shown to be an effective treatment. However, the cost of DC-CIK treatment is prohibitive for many patients, and the lack of standard manufacturing processes and treatment strategies are the main limitations.
Material and Methods
Our experiments used tumor lysate instead of tumor cell line as tumor-associated antigen source with DCs co-culture. We provide the most efficient method for obtaining autologous DC-CIK cells from peripheral blood. Flow cytometry was used to evaluate DCs activation, CBA assay was used to quantify cytokines secreted by CIK cells, and the antitumor activity of DC-CIK was evaluated in vitro by K562 cell line.
Results
We demonstrate that the manufacturing process of employing frozen Peripheral Blood Mononuclear Cells (PBMCs) can balance patient’s comfort and economic benefits. DC-CIK can effectively upgrade the immunological specificity of CIK cells to tumors in the presence of tumor-associated antigen. In vitro experiments showed that when the number of DC: CIK cells was co-cultured in 1:20 ratio on the 14th day, the amount of cytokine secreted by CIK cells was the largest, and the anti-tumor immune effect was the most potent. When the number of CIK: K562 cells was in 25:1 ratio, the cytotoxic activity of CIK on K562 cells was the highest.
Conclusion
We developed an efficient activated fashion of DC:CIK, established the optimal ratio of DC-CIK immunologic activity and the best cytotoxic model of CIK to K562 cells.