Monoterpenoid terpinen-4-ol inhibits voltage-dependent Na+ channels of small dorsal root ganglia rat neurons

The monoterpenoid terpinen-4-ol (4TERP) is known to inhibit cell excitability, has low toxicity and important pharmacological activities, which are likely related to neural excitability, such as anti-inflammatory, antiepileptic and antinociceptive effects. However, the pharmacological characteristics and mechanisms underlying the effects of 4TERP on blockade of neural action potential are not completely elucidated. Since Na+ current (INa) through voltage-dependent Na+ channels (NaV) is a major mechanism for excitability, the present study investigated the pharmacological characteristics and mechanisms of the action of 4TERP on INa through NaV. For this aim, dissociated small neurons of dorsal root ganglia of adult rats were used for whole cell patch-clamp recordings. 4TERP concentration-dependently inhibits INa (IC50 0.8 ± 0.3 mM; pharmacological efficacy 42.89 ± 5.54%). 4TERP interfered with INa through a mechanism with various components, which includes predominantly channel pore block and sensitivity to frequency of use. In presence of 4TERP (3 mM), decreasing stimulation from 5 Hz to very low frequency (75 s of quiescence previously to stimulation) induced INa decrease to 65.17 ± 5.86% of control. 4TERP also altered (left shift) voltage sensitivity of the steady state activation of NaV. Data are discussed aiming to interpret the importance of blockade of INa through NaV as participant of 4TERP-induced inhibition of membrane excitability. •4TERP concentration-dependently inhibits voltage-dependent Na+ channels activation.•4TERP inhibits INa predominantly through the mechanism of channel pore blockade.•4TERP blockade showed sensitivity to use-dependence.•This effect is coherent with 4TERP-induced blockade of neuronal excitability.