Voltage-sensing domains enable membrane proteins to sense and react to changes in membrane voltage. Although identifiable S1-S4 voltage-sensing domains are found in an array of conventional ion channels and in other membrane proteins that lack pore domains, the extent to which their voltage sensing mechanisms are conserved is unknown. We have discovered that the voltage-sensor paddle, a motif composed of S3b and S4 helices, can drive channel opening with membrane depolarization when transplanted from an archaebacterial voltage-activated potassium (Kv) channel (KvAP) or voltage-sensing domain proteins (Hv1 and Ci-VSP) into eukaryotic Kv channels. Tarantula toxins that partition into membranes can interact with these paddle motifs at the protein-lipid interface and similarly perturb voltage sensor activation in both ion channels and voltage-sensing domain proteins. Our results show that paddle motifs are modular, that their functions are conserved in voltage sensors, and that they move in the relatively unconstrained environment of the lipid membrane. The widespread targeting of voltage-sensor paddles by toxins demonstrates that this modular structural motif is an important pharmacological target.

Project Start
Project End
Budget Start
Budget End
Support Year
13
Fiscal Year
2009
Total Cost
$1,044,375
Indirect Cost
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Ballesteros, Angela; Swartz, Kenton J (2018) Lipids surf the groove in scramblases. Proc Natl Acad Sci U S A 115:7648-7650
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