Defective antitumor immune responses are frequent consequences of defects in the expression of major histocompatibility complex (MHC) class I and costimulatory molecules. We demonstrated that statins, inhibitors of HMGCoA reductase, enhance mIFN-gamma induced expression of MHC class I antigens on murine B16F10 melanoma. GGTI-298, a geranylgeranyl transferase I inhibitor, but not FTI-277, a farnesyl transferase inhibitor, mimics this effect of statins. This effect is related to peptide transporter protein TAP1 up-regulation. Simultaneously, GGTI-298 induces the expression of CD80 and CD86 costimulatory molecules. C3 exoenzyme, which selectively inactivates Rho proteins, phenocopies the effects of GGTI-298, indicating a role for Rho proteins in these events. Furthermore, the treatment of B16F10 cells with GGTI-298 or C3 exoenzyme associated with mIFN-gamma induces in vivo tumor growth slowing down in immunocompetent but not in nu/nu syngeneic mice. Both in vivo injections and in vitro restimulation of splenocytes with GGTI-298- and mIFN-gamma-treated B16F10 cells induces an enhancement of specific CD8 T lymphocytes labeled by TRP-2/H-2K(b) tetramers. Finally, these effects are not limited to mouse models since they were also reproduced in two human melanoma cell lines. These observations indicate that protein geranylgeranylation as well as Rho protein are critical for costimulatory and IFN-gamma-dependent MHC class I molecule expression in melanoma.
One of the strategies to promote an antitumor response is the genetic modification of tumor cells to induce expression of costimulatory molecules. We have tested the capacity of a soluble form of CD70 molecule (sCD70). After construction of a vector carrying the sCD70, we obtained stable sCD70-secreting TS/A tumor cells and allogenic MC57 fibroblasts. In all, 45% of wild-type (wt) tumors were rejected in immunocompetent mice when transfected sCD70-secreting cells were injected three times in the periphery of the wt tumors. Furthermore, the sCD70-secreting TS/A cells induced a protective memory against wt TS/A tumor growth: 70% of the wt tumors used for the challenge were rejected by mice, which had rejected tumors 45 days before in the presence of sCD70-secreting TS/A cells. It was also shown that in vitro mock TS/A tumor cell proliferation was inhibited by splenocytes harvested from mice injected with TS/A cells expressing CD70. Growth kinetics of wt TS/A tumors in immunocompetent versus nude mice suggested that T lymphocytes were implicated in the antitumor response, which was confirmed by membrane expression of specific markers. The data suggest that injection of genetically transfected cells secreting sCD70 in the periphery of wt TS/A tumors induces T-cell-mediated inhibition of tumor growth and builds up a protective antitumor memory.
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