Dichloroacetate (DCA) is an inhibitor of pyruvate dehydrogenase kinase (PDK) that has been shown to reverse the Warburg effect and cause tumor cell death. Clinical research into the anti-cancer activity of DCA revealed high dosage requirements and reports of toxicity. While there have been subsequent mechanistic investigations, a search for DCA alternatives could result in a safer and more effective anticancer therapy. This study evaluates eight small compounds with a conserved dichloric terminal and their in vitro and in vivo potential for anticancer activity. Initial viability screening across six cancer cell lines reveals even at 10 mg/mL, compound treatments do not result in complete cell death which suggests minimal compound cytotoxicity. Furthermore, in vivo data demonstrates that cationic dichloric compounds DCAH and DCMAH, which were selected for further testing based on highest in vitro viability impact, inhibit tumor growth in the U87 model of glioblastoma, suggesting their clinical potential as accessible anti-cancer drugs. Immunoblotting signaling data from tumor lysates demonstrates that the mechanism of actions of cationic DCAH and DCMAH are unlikely to be consistent with that of the terminally carboxylic DCA and warrants further independent investigation.
Keywords: Cancer; dichloroacetate; hypoxia; mitochondria; pyruvate.