Potassium ion channels are expressed on the cell membranes, implicated in wide variety of cell functions and intimately linked to cancer cell behaviors. This work reports the first bioplatform described to date allowing simple and rapid detection of ion channel activity and the effect of their inhibitors in cancer cells. The methodology involves interrogation of the channel of interest from cells specifically captured on magnetic immunoconjugates using specific detection antibodies that are labeled with horseradish peroxidase enzyme. The channel activity is reflected by an amperometric signal transduction of the resulting magnetic bioconjugates onto screen-printed carbon electrodes. The bioplatform feasibility was proven for the detection of the Kv channels in U87 human glioblastoma cells and their blocking by scorpion venom KAaH1 and KAaH2 peptides. The obtained results confirm the high sensitivity (detection of 5 U87 cells⋅mL-1 and 0.06 μg mL-1 of KAaH2) of the proposed bioplatform and their versatility to detect both potassium channel activity and their potential inhibitors, in a given cancer cell line, with high sensitivity in a simple and fast way. This bioplatform presents potential applications in cancer and theranostic of channelopathies.
Keywords: Cancer cells; Electrochemical immunoplatform; Ion channel; Kv blocking.
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