Veratridine modifies the TTX-resistant Na channels in rat vagal afferent neurons

A number of neurotoxins from venoms of invertebrates and plants are ligands for voltage-gated Na⁺ channels and are useful tools for studying Na⁺ channel function and structure. Using whole-cell recordings from vagal afferent nodose neurons, we studied neurotoxins that target Na⁺ channels. We asked whether Ts3 (an α-scorpion toxin) and/or veratridine (a lipid-soluble toxin), could modify the TTX-resistant Na⁺ current generated by vagal afferent nodose neurons. Nodose TTX-resistant current was not affected by Ts3, whereas Ts3 slowed inactivation of the current generated by TTX-sensitive current component. We found that veratridine inhibited the TTX-resistant Na⁺ currents on rat nodose neurons. Interestingly, veratridine-modified Na⁺ channels developed a persistent current that accounted for the large tail current observed. We propose that veratridine modifies TTX-resistant Na⁺ channels through a mechanism distinct from its actions on other voltage-gated Na⁺ channels.