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Dual receptor-sites reveal the structural basis for hyperactivation of sodium channels by poison-dart toxin batrachotoxin.

Lige TongguGoragot WisedchaisriTamer M Gamal El-DinMichael J LenaeusMatthew M LoganTatsuya TomaJustin Du BoisNing ZhengWilliam A Catterall
Published in: Nature communications (2024)
The poison dart toxin batrachotoxin is exceptional for its high potency and toxicity, and for its multifaceted modification of the function of voltage-gated sodium channels. By using cryogenic electron microscopy, we identify two homologous, but nonidentical receptor sites that simultaneously bind two molecules of toxin, one at the interface between Domains I and IV, and the other at the interface between Domains III and IV of the cardiac sodium channel. Together, these two bound toxin molecules stabilize α/π helical conformation in the S6 segments that gate the pore, and one of the bound BTX-B molecules interacts with the crucial Lys1421 residue that is essential for sodium conductance and selectivity via an apparent water-bridged hydrogen bond. Overall, our structure provides insight into batrachotoxin's potency, efficacy, and multifaceted functional effects on voltage-gated sodium channels via a dual receptor site mechanism.
Keyphrases
  • escherichia coli
  • structural basis
  • electron microscopy
  • oxidative stress
  • heart failure
  • magnetic resonance imaging
  • computed tomography
  • single cell
  • dna repair
  • genome wide
  • crystal structure