Abstract
Pyrvinium pamoate (PP) is an FDA-approved classical anthelmintic, but is now attracting particular attention as an anti-cancer drug after recent findings of its potent cytotoxicity against various cancer cell lines only during glucose starvation, as well as its anti-tumor activity against hypovascular pancreatic cancer cells transplanted in mice. The molecular mechanisms by which PP promotes such preferential toxicity against cancer cells are currently under extensive investigation. PP suppressed the NADH-fumarate reductase system that mediates a reverse reaction of the mitochondrial electron-transport chain complex II in anaerobic organisms such as parasitic helminthes or mammalian cells under tumor microenvironment-mimicking hypoglycemic/hypoxic conditions, thereby inhibiting efficient ATP production. PP also inhibited the unfolded protein response induced by glucose starvation, thereby inhibiting the proliferation of pancreatic cancer cells. Even under normoglycemic/normoxic conditions, PP suppressed the mitochondrial electron-transport chain complex I and thereby STAT3, inhibiting the proliferation of myeloma/erythroleukemia cells. Here, we review accumulating knowledge on its working mechanisms and evaluate PP as a novel anti-cancer drug that targets mitochondrial respiration.
Highlights
Cancer cells can adapt to various environments under either sufficient or insufficient nutrient/oxygen conditions, and are often subjected to the latter because of their excessive demand for nutrients/oxygen and immature vascularization
ATP is mainly generated by oxidative phosphorylation in normal cells, this mainly occurs by glycolysis in most cancer cells, even if oxygen is plentiful, as observed by the increase in glucose uptake and lactate production
Recent investigations demonstrated that the Warburg effect may not account for the metabolic diversity that has been observed among some types of cancer cells (Gogvadze et al, 2010; Barbi de Moura et al, 2012; Nakajima and Van Houten, 2012)
Summary
Cancer cells can adapt to various environments under either sufficient or insufficient nutrient (glucose)/oxygen conditions, and are often subjected to the latter because of their excessive demand for nutrients/oxygen and immature vascularization. ANTI-CANCER EFFECTS OF PP VIA COMPLEX II UNDER HYPOGLYCEMIC/HYPOXIC CONDITIONS Esumi et al (2004) found that PP exerts cytotoxic activity against PANC-1 human pancreatic cancer cells in glucose-deprived www.frontiersin.org
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