Literature DB >> 27311819

Interaction of Tarantula Venom Peptide ProTx-II with Lipid Membranes Is a Prerequisite for Its Inhibition of Human Voltage-gated Sodium Channel NaV1.7.

Sónia Troeira Henriques1, Evelyne Deplazes2, Nicole Lawrence3, Olivier Cheneval3, Stephanie Chaousis3, Marco Inserra3, Panumart Thongyoo3, Glenn F King3, Alan E Mark2, Irina Vetter4, David J Craik3, Christina I Schroeder5.   

Abstract

ProTx-II is a disulfide-rich peptide toxin from tarantula venom able to inhibit the human voltage-gated sodium channel 1.7 (hNaV1.7), a channel reported to be involved in nociception, and thus it might have potential as a pain therapeutic. ProTx-II acts by binding to the membrane-embedded voltage sensor domain of hNaV1.7, but the precise peptide channel-binding site and the importance of membrane binding on the inhibitory activity of ProTx-II remain unknown. In this study, we examined the structure and membrane-binding properties of ProTx-II and several analogues using NMR spectroscopy, surface plasmon resonance, fluorescence spectroscopy, and molecular dynamics simulations. Our results show a direct correlation between ProTx-II membrane binding affinity and its potency as an hNaV1.7 channel inhibitor. The data support a model whereby a hydrophobic patch on the ProTx-II surface anchors the molecule at the cell surface in a position that optimizes interaction of the peptide with the binding site on the voltage sensor domain. This is the first study to demonstrate that binding of ProTx-II to the lipid membrane is directly linked to its potency as an hNaV1.7 channel inhibitor.
© 2016 by The American Society for Biochemistry and Molecular Biology, Inc.

Entities:  

Keywords:  NaV1.7; analgesic; gating modifier toxin; membrane bilayer; peptide-lipid interactions; peptides; sodium channel; toxin; transmembrane domain; voltage-gated ion channel

Mesh:

Substances:

Year:  2016        PMID: 27311819      PMCID: PMC5016110          DOI: 10.1074/jbc.M116.729095

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  73 in total

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6.  Molecular Dynamics Simulation Reveals Unique Interplays Between a Tarantula Toxin and Lipid Membranes.

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7.  Heterogeneous-Backbone Foldamer Mimics of a Computationally Designed, Disulfide-Rich Miniprotein.

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9.  Pharmacological Inhibition of the Voltage-Gated Sodium Channel NaV1.7 Alleviates Chronic Visceral Pain in a Rodent Model of Irritable Bowel Syndrome.

Authors:  Yan Jiang; Joel Castro; Linda V Blomster; Akello J Agwa; Jessica Maddern; Gudrun Schober; Volker Herzig; Chun Yuen Chow; Fernanda C Cardoso; Paula Demétrio De Souza França; Junior Gonzales; Christina I Schroeder; Steffen Esche; Thomas Reiner; Stuart M Brierley; Glenn F King
Journal:  ACS Pharmacol Transl Sci       Date:  2021-06-07

10.  Insensitivity to pain induced by a potent selective closed-state Nav1.7 inhibitor.

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