Structures of human Na v 1.7 channel in complex with auxiliary subunits and animal toxins
Copyright policy )Structures of human Na v 1.7 channel in complex with auxiliary subunits and animal toxins
Targeting sodium channels Voltage-gated sodium (Na v ) channels have been implicated in cardiac and neurological disorders. There are many subtypes of these channels, making it challenging to develop specific therapeutics. A core α subunit is sufficient for voltage sensing and ion conductance, but function is modulated by β subunits and by natural toxins that can either act as pore blockers or gating modifiers (see the Perspective by Chowdhury and Chanda). Shen et al. present the structures of Na v 1.7 in complex with both β1 and β2 subunits and with animal toxins. Pan et al. present the structure of Na v 1.2 bound to β2 and a toxic peptide, the µ-conotoxin KIIIA. The structure shows why KIIIA is specific for Na v 1.2. These and other recently determined Na v structures provide a framework for targeted drug development. Science , this issue p. 1303 , p. 1309 ; see also p. 1278
- Tsinghua University China (People's Republic of)
- Beijing Chao-Yang Hospital China (People's Republic of)
- State Key Laboratory of Membrane Biology China (People's Republic of)
- Capital Medical University China (People's Republic of)
Voltage-Gated Sodium Channel Blockers, Binding Sites, Protein Conformation, Voltage-Gated Sodium Channel beta-2 Subunit, Cryoelectron Microscopy, NAV1.7 Voltage-Gated Sodium Channel, Spider Venoms, Tetrodotoxin, Voltage-Gated Sodium Channel beta-1 Subunit, HEK293 Cells, Animals, Humans, Amino Acid Sequence, Peptides, Saxitoxin
Voltage-Gated Sodium Channel Blockers, Binding Sites, Protein Conformation, Voltage-Gated Sodium Channel beta-2 Subunit, Cryoelectron Microscopy, NAV1.7 Voltage-Gated Sodium Channel, Spider Venoms, Tetrodotoxin, Voltage-Gated Sodium Channel beta-1 Subunit, HEK293 Cells, Animals, Humans, Amino Acid Sequence, Peptides, Saxitoxin
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