• NaV1.4

    Effects of BmK AGP-SYPU1 on the Na+ peak current of hNaV1.4, analyzed on the Port-a-Patch

    Meng et al. (2015)

2018 - Non-blocking modulation contributes to sodium channel inhibition by a covalently attached photoreactive riluzole analog

icon pap   Port-a-Patch publication in Nature Scientific Reports (2018)

Lukacs P., Mátyás F.C., Valánszki L., Casanova E., Biri-Kovács B., Nyitray L., Málnási-Csizmadia A., Mike A.


Nature Scientific Reports 8, Article number: 8110 (2018) DOI:10.1038/s41598-018-26444-y


Sodium channel inhibitor drugs decrease pathological hyperactivity in various diseases including pain syndromes, myotonia, arrhythmias, nerve injuries and epilepsies. Inhibiting pathological but not physiological activity, however, is a major challenge in drug development. Sodium channel inhibitors exert their efects by a dual action: they obstruct ion fow (“block”), and they alter the energetics of channel opening and closing (“modulation”). Ideal drugs would be modulators without blocking effect, because modulation is inherently activity-dependent, therefore selective for pathological hyperactivity. Can block and modulation be separated? It has been difficult to tell, because the effect of modulation is obscured by conformation-dependent association/dissociation of the drug. To eliminate dynamic association/dissociation, we used a photoreactive riluzole analog which could be covalently bound to the channel; and found, unexpectedly, that drug-bound channels could still conduct ions, although with modulated gating. The finding that non-blocking modulation is possible, may open a novel avenue for drug development because non-blocking modulators could be more specifc in treating hyperactivity-linked diseases.

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