Abstract
The Nav1.7 sodium channel is preferentially expressed in most nociceptive dorsal root ganglion neurons and in sympathetic neurons. Inherited erythromelalgia (IEM, also known as erythermalgia), an autosomal dominant neuropathy characterized by burning pain in the extremities in response to mild warmth, has been linked to mutations in Nav1.7. Recently, a substitution of Ser-241 by threonine (S241T) in the domain I S4-S5 linker of Nav1.7 was identified in a family with IEM. To investigate the possible causative role of this mutation in the pathophysiology of IEM, we used whole-cell voltage-clamp analysis to study the effects of S241T on Nav1.7 gating in HEK293 cells. We found a hyperpolarizing shift of activation midpoint by 8.4 mV, an accelerated time to peak, slowing of deactivation, and an increase in the current in response to small, slow depolarizations. Additionally, S241T produced an enhancement of slow inactivation, shifting the midpoint by -12.3 mV. Because serine and threonine have similar biochemical properties, the S241T substitution suggested that the size of the side chain at this position affected channel gating. To test this hypothesis, we investigated the effect of S241A and S241L substitutions on the gating properties of Nav1.7. Although S241A did not alter the properties of the channel, S241L mimicked the effects of S241T. We conclude that the linker between S4 and S5 in domain I of Nav1.7 modulates gating of this channel, and that a larger side chain at position 241 interferes with its gating mechanisms.
Highlights
The Nav1.7 sodium channel is preferentially expressed in most nociceptive dorsal root ganglion neurons and in sympathetic neurons
We show in this study that the IEM mutation Ser-241 by threonine (S241T) of the human voltage-gated sodium channel
All these changes would be expected to increase the excitability of nociceptive dorsal root ganglion neurons harboring the mutation, contributing to the pain in IEM [8, 17]
Summary
Plasmids and Stable Cell Lines—The S241T, S241A, and S241L mutations were introduced individually into hNav1.7R,. The current density for cell lines expressing all three mutant derivatives of Nav1.7 were lower (318.7 Ϯ 29.8 pA/pF for S241T, 210.8 Ϯ 21.7 pA/pF for S241A, and 344.0 Ϯ 39.0 pA/pF for S241L) than for wild type Nav1.7R (556.2 Ϯ 41.6 pA/pF), likely because of the site of integration of the plasmid within the HEK293 genome; we cannot rule out the possibility that these substitutions affect single channel properties or stability of the channel within the cell membrane. Tetrodotoxin was added to the bath solution to block all endogenous voltage-gated sodium currents, which might be present in HEK293 cells [21] and thereby study Nav1.7R in isolation. Protocols for assessing steady-state fast inactivation consisted of a series of prepulses (Ϫ130 to Ϫ10 mV) lasting 500 ms from the holding potential of Ϫ100 mV followed by a 40 ms depolarization to Ϫ10 mV to assess the noninactivated transient current. The normalized curves were fitted using a Boltzmann distribution equation, INa INa,max ϭ ϩ
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