Our study on the wild-type and mutants of the voltage-dependent sodium channel in the rat skeletal muscle Na(v) 1.4 was to examine the possible binding site of primaquine PQ by using an experimental approach. We used a standard voltage-clamp in oocytes. Previously, we had demonstrated that PQ blocks the voltage-dependent sodium current in rat myocytes and that this blocking is concentration-dependent and voltage-independent. The direct-site mutagenesis in the P-loop segment W402C, W756C, W1239C, W1531A at the outer tryptophan-rich lip, and D400C, E758C, K1237C, A1529C of the DEKA locus helped us to identify residues playing a key role in aminoquinoline binding. In full agreement with our computed results, where a 1000-fold reduction of inhibition was measured, the tryptophan 756 is crucial for the reversible modulating effects of PQ. The W756C decreased the blocking effect of PQ in voltage-clamp assays. This new binding site may be important to the development of new drugs that modulate sodium inward currents.
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