Melanoma B16-F1 cells coated with fusion protein of mouse calreticulin and virus G-protein coupled receptor induced the antitumor immune response in Balb/C mice.

In apoptotic progress of tumor cells stimulated by special agents, the calreticulin (CRT) was relocated from endoplasmic reticulum onto the cell surface. When used as cellular antigen to immunize experimental animals, these CRT-coated apoptotic tumor cells could initiate effective anti-tumor immunoresponse against homologous tumor cells, indicating the value of CRT in anti-tumor immunotherapy. In order to develop an universal technique that could make CRT-coating more efficiently in the tumor cells, in this study, a mouse CRT recombinant gene with virus G-protein coupled receptor (vGPCR) was constructed and cloned into vector pcDNA3.1(+). When resulted plasmid pcDNA3.1(+)-mCRT/ vGPCR was stably transfected into the mouse melanoma B16-F1 cells, the mCRT-vGPCR recombinant protein was synthesized. With the membrane-locating ability of vGPCR in the recombinant protein, mCRT-vGPCR was carried onto the surface of B16-F1 cells efficiently. Overexpression of mCRT-vGPCR on the cell surface could enhance the phagocytosis of B16-F1 by macrophages in vitro. When mCRT-vGPCR coated B16-F1 cells were used as a cell-antigen to immunize mice, the specific anti-tumor immune response against the homologous tumor cells was initiated efficiently. Our data in this study may provide a new possibility for CRT-mediated tumor immune prevention and treatment.