Administration of subtumor regression dosage of TNF-alpha to mice with pre-existing parental tumors augments the vaccination effect of TNF gene-modified tumor through the induction of MHC class I molecule.

One obstacle in treating pre-existing parental tumors by vaccination with cytokine gene-modified tumor cells is the impaired expression of immune-related molecules such as MHC class I. In this study, to enhance MHC class I expression on pre-inoculated parental tumors, low dose TNF (300 U, 500 U, 1000 U), that is, TNF at levels shown to cause neither tumor regression nor any severe adverse reaction, was systemically injected into parental tumors bearing mice before vaccination with TNF gene-modified Meth-A cells or B-16 cells. Since the class I expression was confirmed to continue for at least 24 h following administration of TNF, TNF was administered 6 h before vaccination. Complete regression of relatively large parental tumors (M0) (8.0-10.0 mm in diameter) was observed in five of eight mice treated with 1000 U TNF, partial regression was observed in mice treated with 500 U, and a lesser yet significant regression was observed in mice treated with only 300 U. Contrarily, in the mice which had received vaccination without the TNF pretreatment, no complete regression was observed. This effect was inhibited with the anti-class I antibody or anti-CD8 antibody. Growth of a re-established, B16 tumor was significantly suppressed with a combination of TNF preadministration and vaccination of TNF gene-modified B16. These results indicate that pre-administration of low-dose TNF may be promising for enhancing vaccination effects of TNF gene-modified tumor cells.