AI Article Synopsis
- This study developed a chimeric CD40 molecule that targets the ErbB2 antigen to enhance dendritic cell (DC) vaccines for cancer treatment.
- The modified DCs showed improved activation and migration to tumors, where they effectively stimulated immune responses in laboratory experiments.
- In mouse models, the treatment not only inhibited tumor growth but also prevented future tumor development, suggesting that this approach could be a promising strategy for treating human cancers.
Article Abstract
Modest clinical outcomes of dendritic cell (DC) vaccine trials call for novel strategies. In this study, we have created a chimeric CD40 molecule that incorporates a single chain Fv (scFv) molecule specific for human ErbB2 antigen and fusing to the membrane spanning and cytosolic domains of murine CD40. After adenoviral transfer to bone marrow-derived DC, this chimeric receptor (CR) induced nuclear factor-kappaB (NF-kappaB)-dependent DC activation and effector function when cultured with immobilized ErbB2 protein or ErbB2-positive tumor cells in vitro. In vivo migration assays showed that approximately 40% injected CR-modified DC (scFv-CD40-DC) effectively migrated to ErbB2-positive tumors, where they were activated after ErbB2 antigen stimulation, and sequentially homed into the draining lymph nodes. In murine ErbB2-positive D2F2/E2 breast tumor (BALB/c) and EL4/E2 thymoma (C57BL/6) models, i.v. injection of 1 x 10(6) scFv-CD40-DC significantly inhibited tumor growth and cured established tumors. Importantly, the cured mice treated by injection of scFv-CD40-DC were effective in preventing both ErbB2-positive and parental ErbB2-negative tumor rechallenge. Analysis of the underlying mechanism revealed that i.v. infusion of scFv-CD40-DC elicited tumor-specific CTL responses, and the transfer of CTLs from scFv-CD40-DC-treated mice protected naive mice against a subsequent tumor challenge. These results support the concept that genetic modification of DC with tumor-associated antigen-specific CD40 chimeric receptor might be a useful strategy for treatment of human cancers.
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| http://dx.doi.org/10.1158/0008-5472.CAN-07-6051 | DOI Listing |
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