Enhancing the efficacy of a weak allogeneic melanoma vaccine by viral fusogenic membrane glycoprotein-mediated tumor cell-tumor cell fusion.

We have investigated how to make K1735 cells, a poor allogeneic melanoma vaccine, more effective for protection against B16 in vivo. To promote antigen release in an immunologically effective manner, tumor cells were transfected with a viral fusogenic membrane glycoprotein (vesicular stomatitis virus G glycoprotein), which kills cells through the formation, and degeneration, of large multinucleated syncytia. Vaccines consisting of a 1:1 mix of fusing allogeneic and autologous cells led to dramatic increases in survival of mice in both prophylactic and therapy models, dependent upon T cells, the mechanism of tumor-tumor cell fusion, and the nature of the fusion partner. Syncytia activate macrophages and fusogenic membrane glycoprotein-mediated cell killing very efficiently promotes cross-priming of immature dendritic cells with a model tumor antigen. Our data suggest that the unique manner in which syncytia develop and die provides a highly effective pathway for tumor antigen release and presentation to the immune system and offers a novel mechanism by which cancer cell vaccines may be prepared for clinical use.