Combined encapsulation of a tumor antigen and immune cells using a self-assembling immunostimulatory DNA hydrogel to enhance antigen-specific tumor immunity.
These results suggest it is possible to observe some features of a patient's antigen-specific T cell repertoire via an antibody surrogate, which has implications for tumor antigen discovery and clinical monitoring of antigen-specific anti-tumor immunity.
We hypothesized that local delivery of anti-CTLA-4 and anti-GITR mAbs to the sites where T cells and tumor antigen-loaded DC vaccines interact would enhance the induction of anti-tumor immunity while avoiding autoimmunity.
This study is based on the hypothesis that in vivo genetic modification of tumor cells to express CD40L will trigger CD40 on local antigen-presenting cells to present tumor antigen to the cellular immune systems, thus eliciting anti-tumor immunity to suppress growth of the tumor.
The gene therapy approaches being employed can be divided into three major categories: (1) enzyme/prodrug systems (HSVtk/ganciclovir; CD/5-fluorocytosine); (2) tumor suppressor gene replacement therapy with wild-type p53; and (3) immune-gene therapy which is based on cytokine or tumor antigen expression to induce tumor immunity (e.g., CEA).