Abstract

The irritating, pungent compound, capsaicin (10-20 microM), induces the formation of non-selective ion channels with a wide variety of conductances in protein-free lipid bilayers form from a mixture of zwitterionic phospholipids. The channel-forming activity of capsaicin and four of its analogs followed the sequence: resiniferatoxin > capsaicin = pelargonic acid vanillylamide > methylcapsaicin >> veratrylamine. The ability to form channels correlated with the biological activity of these compounds observed in other studies that measured 45Ca uptake into rat dorsal root ganglion cells. The correlation obtained suggests that an interaction with the lipid bilayer may be an important component of the biological activity of capsaicin.

Keywords

ResiniferatoxinCapsaicinChemistryLipid bilayerBiophysicsIon channelDorsal root ganglionTRPV1BiochemistryMembraneDorsumTransient receptor potential channelAnatomyBiologyReceptor

MeSH Terms

BenzylaminesCapsaicinDiterpenesElectric ConductivityFatty AcidsIon ChannelsLipid Bilayers

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Publication Info

Year
1995
Type
article
Volume
6
Issue
16
Pages
2134-2136
Citations
32
Access
Closed

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Cite This

A. M. Feǐgin, Evgeney V. Aronov, Bruce P. Bryant et al. (1995). Capsaicin and its analogs induce ion channels in planar lipid bilayers. Neuroreport , 6 (16) , 2134-2136. https://doi.org/10.1097/00001756-199511000-00009

Identifiers

DOI
10.1097/00001756-199511000-00009
PMID
8595187

Data Quality

Data completeness: 81%