The redox-active RRx-001 and aliphatic acids such as valproic aci

The redox-active RRx-001 and aliphatic acids such as valproic acid (VPA) exemplify this strategy. With an iconoclastic pedigree from the aerospace industry and a chemical structure and mechanism of action that clearly differentiate it from the

classic epigenetic agents, compelling preliminary clinical evidence suggests that the pan-epigenetic modulator, RRx-001, which inhibits DNA MTases and HDACs, resensitizes tumors to previously tried—and failed—therapies. In a multicenter phase 1 dose escalation study, RRx-001 demonstrated an acceptable safety profile at the maximal dose of 83 mg/m2 and evidence of anticancer activity including one partial response and disease stabilization in five patients lasting > 16 weeks. At 16.8 months, 50% of patients were still alive. Like the observation in the azacytidine and entinostat combination non–small cell lung

cancer trial, the prolonged selleckchem but nonsignificant overall survival significantly exceeded what was expected on the basis of the regorafenib CORRECT trial in which the median OS was 6.4 months. The increase in survival is attributed to robust clinical responses with subsequent post-progression treatments, including radiation, suggesting that the state of the tumors were changed epigenetically, rendering them hypersensitive to multiple cytotoxics. In addition, the drug enhanced Raf pathway susceptibility Anacetrapib to anticancer agents in five patients, four with colorectal cancer and one with non–small cell lung cancer that had previously demonstrated resistance. A case report that reviews the clinical course of two refractory colorectal patients with documented chemoresensitization after treatment with RRx-001 has been published [25]. RRx-001 allosterically modifies hemoglobin and maximally

catalyzes the reduction of nitrite to bioavailable nitric oxide under hypoxia, which accumulates in poorly oxygenated tumors [26]. Nitric oxide rapidly combines with excess superoxide (O2•−) in the tumor, outcompeting superoxide dismutase, to produce high levels of potent peroxynitrite (ONOO–), in the proverbial “Devil’s Triangle” of oxidative stress [27]. In this way, RRx-001 channels its activity through redox and metabolic stress on the tumor, (refer to Figure 1), resulting in the oxidation of critical cysteine residues at catalytic sites of the enzymes DNA MTases 1 and 3a and HDACs, inhibiting their activity and resulting in global hypomethylation (RadioRx unpublished data). This inhibition of DNA MTases, in particular, results in the de-repression p53 and p21 expression, which are dramatically upregulated, presumably due to the demethylation of their regulatory regions, leading to cell cycle arrest and apoptosis [28].

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