Tetrodotoxin‐resistant voltage‐gated sodium channel Nav1.8 constitutively interacts with ankyrin G

The tetrodotoxin‐resistant (TTX‐R) voltage‐gated sodium channel Na_v1.8 is predominantly expressed in peripheral afferent neurons, but in case of neuronal injury an ectopic and detrimental expression of Na_v1.8 occurs in neurons of the CNS. In CNS neurons, Na_v1.2 and Na_v1.6 channels accumulate at the axon initial segment, the site of the generation of the action potential, through a direct interaction with the scaffolding protein ankyrin G (ankG). This interaction is regulated by protein kinase CK2 phosphorylation. In this study, we quantitatively analyzed the interaction between Na_v1.8 and ankG. GST pull‐down assay and surface plasmon resonance technology revealed that Na_v1.8 strongly and constitutively interacts with ankG, in comparison to what observed for Na_v1.2. An ion channel bearing the ankyrin‐binding motif of Na_v1.8 displaced the endogenous Na_v1 accumulation at the axon initial segment of hippocampal neurons. Finally, Na_v1.8 and ankG co‐localized in skin nerves fibers. Altogether, these results indicate that Na_v1.8 carries all the information required for its localization at ankG micro‐domains. The constitutive binding of Na_v1.8 with ankG could contribute to the pathological aspects of illnesses where Na_v1.8 is ectopically expressed in CNS neurons.