Abstract
Cancer specific inhibitors reflective of unique metabolic needs, are rare. We describe a novel small molecule, Gboxin, that specifically inhibits primary mouse and human glioblastoma (GBM) cell growth but not mouse embryo fibroblasts or neonatal astrocytes. Gboxin rapidly and irreversibly compromises GBM oxygen consumption. Reliant on its positive charge, Gboxin associates with mitochondrial oxidative phosphorylation complexes in a proton gradient dependent manner and inhibits F0F1 ATP synthase activity. Gboxin resistant cells require a functional mitochondrial permeability transition pore that regulates pH impeding matrix accumulation. Administration of a pharmacologically stable Gboxin analog inhibits GBM allografts and patient derived xenografts. Gboxin toxicity extends to established human cancer cell lines of diverse organ origin and exposes the elevated proton gradient pH in cancer cell mitochondria as a new mode of action for antitumor reagent development.
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