Reduction of Nav1.1 in the dorsal striatum preferentially increases hyperthermia-induced generalized seizures compared with the neocortex and nucleus accumbens

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Abstract

Mutations in SCN1A , which encodes the voltage-gated sodium channel Nav1.1 (αI subunit), are the major cause of Dravet syndrome, a severe developmental and epileptic encephalopathy. Although Nav1.1 haploinsufficiency preferentially impairs inhibitory interneuron function, the region-specific contributions of distributed brain circuits to seizure susceptibility, particularly in subcortical structures that have received less attention than the neocortex and hippocampus, remain unclear. Here, we examined the effects of region-specific Nav1.1 deficiency on hyperthermia-induced seizures by selectively deleting Scn1a in the neocortex, nucleus accumbens (NAc), and dorsal striatum (caudate–putamen, CPu) of adult mice using an adeno-associated virus-mediated Cre-loxP approach. Contrary to expectations based on prior cortical studies, homozygous Scn1a deletion in the neocortex produced only modest effects on seizure generalization. In contrast, homozygous deletion in the NAc and CPu induced generalized seizures to varying degrees. Notably, heterozygous Scn1a deletion in the CPu alone was sufficient to trigger generalized seizures, whereas similar manipulations in the neocortex or NAc were not. Seizure threshold temperatures were largely comparable across regions. These findings identify the dorsal striatum as particularly vulnerable to partial Nav1.1 loss and reveal functional heterogeneity within striatal circuits. Our results underscore a previously underappreciated role of striatal inhibitory networks in hyperthermia-induced seizure susceptibility and provide new insights into the circuit mechanisms underlying Dravet syndrome.

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europepmc
last seen: 2026-05-20T01:45:00.602351+00:00
unpaywall
last seen: 2026-05-22T02:00:06.705733+00:00
License: CC-BY-NC-ND-4.0