Sensory neuron-derived NaV1.7 contributes to dorsal horn neuron excitability.

Sascha R A Alles, Filipe Nascimento, Rafael Luján, Ana P Luiz, Queensta Millet, M Ali Bangash, Sonia Santana-Varela, Xuelong Zhou, James J Cox, Andrei L Okorokov, Marco Beato, Jing Zhao, John N Wood

Science advances 2020 Feb

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Expression of the voltage-gated sodium channel NaV1.7 in sensory neurons is required for pain sensation. We examined the role of NaV1.7 in the dorsal horn of the spinal cord using an epitope-tagged NaV1.7 knock-in mouse. Immuno-electron microscopy showed the presence of NaV1.7 in dendrites of superficial dorsal horn neurons, despite the absence of mRNA. Rhizotomy of L5 afferent nerves lowered the levels of NaV1.7 in the dorsal horn. Peripheral nervous system-specific NaV1.7 null mutant mice showed central deficits, with lamina II dorsal horn tonic firing neurons more than halved and single spiking neurons more than doubled. NaV1.7 blocker PF05089771 diminished excitability in dorsal horn neurons but had no effect on NaV1.7 null mutant mice. These data demonstrate an unsuspected functional role of primary afferent neuron-generated NaV1.7 in dorsal horn neurons and an expression pattern that would not be predicted by transcriptomic analysis. Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution License 4.0 (CC BY).

Citation

Sascha R A Alles, Filipe Nascimento, Rafael Luján, Ana P Luiz, Queensta Millet, M Ali Bangash, Sonia Santana-Varela, Xuelong Zhou, James J Cox, Andrei L Okorokov, Marco Beato, Jing Zhao, John N Wood. Sensory neuron-derived NaV1.7 contributes to dorsal horn neuron excitability. Science advances. 2020 Feb;6(8):eaax4568