Pyruvate dehydrogenase kinase (PDK) is a pivotal enzyme in cellular energy metabolism that has previously been implicated in cancer through both RNAi based studies and clinical correlations with poor prognosis in several cancer types.Here, we report the discovery of a novel and selective ATP competitive pan-isoform inhibitor of PDK, VER-246608. Consistent with a PDK mediated MOA, VER-246608 increased pyruvate dehydrogenase complex (PDC) activity, oxygen consumption and attenuated glycolytic activity. However, these effects were only observed under D-glucose-depleted conditions and required almost complete ablation of PDC E1α subunit phosphorylation. VER-246608 was weakly anti-proliferative to cancer cells in standard culture media; however, depletion of either serum or combined D-glucose/L-glutamine resulted in enhanced cellular potency. Furthermore, this condition-selective cytostatic effect correlated with reduced intracellular pyruvate levels and an attenuated compensatory response involving deamination of L-alanine. In addition, VER-246608 was found to potentiate the activity of doxorubicin. In contrast, the lipoamide site inhibitor, Nov3r, demonstrated sub-maximal inhibition of PDK activity and no evidence of cellular activity.These studies suggest that PDK inhibition may be effective under the nutrient-depleted conditions found in the tumour microenvironment and that combination treatments should be explored to reveal the full potential of this therapeutic strategy.
Pyruvate dehydrogenase kinase (PDK) regulates the activity of the pyruvate dehydrogenase complex (PDC) through phosphorylation of three serine residues on the E1α subunit, resulting in decreased activity. The expression of all four mammalian isoforms of PDK have been shown to be up-regulated either under tumour relevant conditions (PDK-1 & PDK-3 by hypoxia) or by the loss of function of common tumour suppressor genes (PDK-2 by p53; PDK-4 by pRB). Furthermore, PDK-1 expression has been clinically correlated with poor prognosis in Gastric, HNSCC and Colon cancer. Previous studies employing RNAi have provided evidence for a survival role for PDK-1 as well as its importance in maintaining the glycolytic phenotype of cancer cells. DCA, a weak inhibitor of PDK, has also been used to study the role of PDK in cancer; however, interpretation of these studies has been complicated by conflicting data and the lack of specificity of this agent for PDK. Here we report the discovery of a novel, potent and selective pan-isoform inhibitor of PDK, VER-246608. Consistent with a PDK mediated MOA, treatment of PC-3 cells with VER-246608 resulted in increased PDC activity and oxygen consumption as well as reduced lactate production and glucose consumption. Interestingly, modulation of glycolytic activity required compound concentrations which achieved > 90 % reduction in E1α phosphorylation and this was only observed under glucose depleted conditions. Under normal culture conditions, VER-246608 showed little cytotoxicity to cancer cells. We hypothesised that the supraphysiological glucose concentrations present in cell culture media may limit the effect of PDK inhibition due to elevated intracellular pyruvate levels. We therefore performed cytotoxicity studies under conditions of limited nutrient availability. We found that combined depletion of glucose and glutamine or serum alone resulted in enhanced cytotoxicity vs normal media; however, hypoxic conditions had no effect. Furthermore, this differential cytotoxicity correlated with reduced pyruvate levels in the compound treated cells cultured in the above ‘austere’ conditions. VER-246608 also inhibited the growth of tumour spheroids with a potency that was comparable to cells grown in 2D culture. In addition, combination treatment studies revealed that VER-246608 potentiated anti-cancer agents which are known to influence mitochondrial function. In contrast, the lipoamide binding site inhibitor, Nov3r, showed no evidence of cytotoxicity under any of the above conditions and was ineffective in altering glycolytic activity. These studies suggest that PDK inhibition may be effective under the nutrient depleted conditions found in the tumour microenvironment and that combination treatments should be explored to reveal the full potential of this therapeutic strategy. Citation Information: Mol Cancer Ther 2013;12(11 Suppl):B155. Citation Format: Jonathan Moore, Anna Staniszewska, Terence Shaw, Jalanie D'Alessandro, Ben Davis, Alan Surgenor, Lisa Baker, Natalia Massanova, James Murray, Alba Macias, Paul Brough, Mike Wood, Patrick C. Mahon. VER-246608, a novel pan-isoform ATP competitive inhibitor of pyruvate dehydrogenase kinase, disrupts Warburg metabolism and demonstrates context-dependent cytotoxicity to cancer cells. [abstract]. In: Proceedings of the AACR-NCI-EORTC International Conference: Molecular Targets and Cancer Therapeutics; 2013 Oct 19-23; Boston, MA. Philadelphia (PA): AACR; Mol Cancer Ther 2013;12(11 Suppl):Abstract nr B155.
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