Ras inhibition by FTS attenuates brain tumor growth in mice directly and by enhancing reactivity of cytotoxic lymphocytes

A major concern in targeted drug therapy is that the inhibition of receptors and signaling molecules in tumor cells may also affect similar components in the tumor microenvironment or in the immune system, with undefined consequences for inhibition of tumor growth. One example is given by the Ras inhibitor salirasib (Farnesythiosalycilic acid, FTS), which in addition to its antitumor activity in mice and humans also exhibits anti-inflammatory activity. Here we show three major effects through which Ras inhibition by FTS provides a favorable antitumor environment in immune-competent mice with subcutaneous or intracranial tumors. First, FTS exhibited antitumor activity in intracranial immune-competent tumor-bearing mice and increased their survival relative to tumor-bearing immune-compromised mice. Second, FTS induced an increase in regulatory T cells in mouse splenocytes, in which Foxp3+ T cells did not interfere with the tumor growth inhibitory effects of FTS. Third, FTS induced an increase in antitumor cytotoxic T-cell reactivity in glioma cells by downregulating their own expression of Foxp3. This downregulation induced a TGF-β-associated mechanism in glioma cells altering the tumor microenvironment and causing reduced resistance of the tumor to the immune system. These results are important as they might explain some of the major beneficial effects of Ras inhibitors. They may provide an experimental framework for examination of the impact of other anticancer drugs on cancer and the immune system.