In vivo spatiotemporal control of voltage-gated ion channels by using photoactivatable peptidic toxins.
Jérôme MontnachLaila Ananda BlömerLudivine LopezLuiza FilipisHervé MeudalAude LafouxSébastien NicolasDuong ChuCécile CaumesRémy BéroudChris JoplingFrank BosmansCorinne HuchetCéline LandonMarco CanepariMichel De WaardPublished in: Nature communications (2022)
Photoactivatable drugs targeting ligand-gated ion channels open up new opportunities for light-guided therapeutic interventions. Photoactivable toxins targeting ion channels have the potential to control excitable cell activities with low invasiveness and high spatiotemporal precision. As proof-of-concept, we develop HwTxIV-Nvoc, a UV light-cleavable and photoactivatable peptide that targets voltage-gated sodium (Na V ) channels and validate its activity in vitro in HEK293 cells, ex vivo in brain slices and in vivo on mice neuromuscular junctions. We find that HwTxIV-Nvoc enables precise spatiotemporal control of neuronal Na V channel function under all conditions tested. By creating multiple photoactivatable toxins, we demonstrate the broad applicability of this toxin-photoactivation technology.