Ca sub(V) channels and cancer: canonical functions indicate benefits of repurposed drugs as cancer therapeutics

Ca sub(V) channels and cancer: canonical functions indicate benefits of repurposed drugs as cancer therapeutics

The importance of ion channels in the hallmarks of many cancers is increasingly recognised. This article reviews current knowledge of the expression of members of the voltage-gated calcium channel family (Ca sub(V)) in cancer at the gene and protein level and discusses their potential functional rol...

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Bibliographic Details
Published in:European biophysics journal Vol. 45; no. 7; pp. 621 - 633
Main Authors: Buchanan, Paul J, McCloskey, Karen D
Format: Journal Article
Language:English
Published: 01-10-2016
Online Access:Get full text
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Summary:The importance of ion channels in the hallmarks of many cancers is increasingly recognised. This article reviews current knowledge of the expression of members of the voltage-gated calcium channel family (Ca sub(V)) in cancer at the gene and protein level and discusses their potential functional roles. The ten members of the Ca sub(V) channel family are classified according to expression of their pore-forming alpha -subunit; moreover, co-expression of accessory alpha 2 delta , beta and gamma confers a spectrum of biophysical characteristics including voltage dependence of activation and inactivation, current amplitude and activation/inactivation kinetics. Ca sub(V) channels have traditionally been studied in excitable cells including neurones, smooth muscle, skeletal muscle and cardiac cells, and drugs targeting the channels are used in the treatment of hypertension and epilepsy. There is emerging evidence that several Ca sub(V) channels are differentially expressed in cancer cells compared to their normal counterparts. Interestingly, a number of Ca sub(V) channels also have non-canonical functions and are involved in transcriptional regulation of the expression of other proteins including potassium channels. Pharmacological studies show that Ca sub(V) canonical function contributes to the fundamental biology of proliferation, cell-cycle progression and apoptosis. This raises the intriguing possibility that calcium channel blockers, approved for the treatment of other conditions, could be repurposed to treat particular cancers. Further research will reveal the full extent of both the canonical and non-canonical functions of Ca sub(V) channels in cancer and whether calcium channel blockers are beneficial in cancer treatment.
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ISSN:0175-7571
1432-1017
DOI:10.1007/s00249-016-1144-z