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Disrupting proton dynamics and energy metabolism for cancer therapy.

Nature reviews. Cancer (2013-08-24)
Scott K Parks, Johanna Chiche, Jacques Pouysségur
ABSTRACT

Intense interest in the 'Warburg effect' has been revived by the discovery that hypoxia-inducible factor 1 (HIF1) reprogrammes pyruvate oxidation to lactic acid conversion; lactic acid is the end product of fermentative glycolysis. The most aggressive and invasive cancers, which are often hypoxic, rely on exacerbated glycolysis to meet the increased demand for ATP and biosynthetic precursors and also rely on robust pH-regulating systems to combat the excessive generation of lactic and carbonic acids. In this Review, we present the key pH-regulating systems and synthesize recent advances in strategies that combine the disruption of pH control with bioenergetic mechanisms. We discuss the possibility of exploiting, in rapidly growing tumours, acute cell death by 'metabolic catastrophe'.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Carbonic Anhydrase from bovine erythrocytes, lyophilized powder, ≥2,000 W-A units/mg protein