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Computational design of peptides to target Na V 1.7 channel with high potency and selectivity for the treatment of pain.

Phuong T NguyenHai M NguyenKaren M WagnerRobert G StewartVikrant SinghParashar ThapaYi-Je ChenMark W LillyaAnh Tuan TonRichard KondoAndre GhettiMichael W PenningtonBruce D HammockTheanne N GriffithJon T SackHeike WulffVladimir Yarov-Yarovoy
Published in: eLife (2022)
The voltage-gated sodium Na V 1.7 channel plays a key role as a mediator of action potential propagation in C-fiber nociceptors and is an established molecular target for pain therapy. ProTx-II is a potent and moderately selective peptide toxin from tarantula venom that inhibits human Na V 1.7 activation. Here we used available structural and experimental data to guide Rosetta design of potent and selective ProTx-II-based peptide inhibitors of human Na V 1.7 channels. Functional testing of designed peptides using electrophysiology identified the PTx2-3127 and PTx2-3258 peptides with IC 50 s of 7 nM and 4 nM for hNa V 1.7 and more than 1000-fold selectivity over human Na V 1.1, Na V 1.3, Na V 1.4, Na V 1.5, Na V 1.8, and Na V 1.9 channels. PTx2-3127 inhibits Na V 1.7 currents in mouse and human sensory neurons and shows efficacy in rat models of chronic and thermal pain when administered intrathecally. Rationally designed peptide inhibitors of human Na V 1.7 channels have transformative potential to define a new class of biologics to treat pain.
Keyphrases
  • endothelial cells
  • chronic pain
  • induced pluripotent stem cells
  • pain management
  • stem cells
  • pluripotent stem cells
  • neuropathic pain
  • oxidative stress
  • mesenchymal stem cells
  • combination therapy
  • chemotherapy induced