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Scn1a-GFP transgenic mouse revealed Nav1.1 expression in neocortical pyramidal tract projection neurons

Tetsushi Yamagata, Ikuo Ogiwara, Tetsuya Tatsukawa, Toshimitsu Suzuki, Yuka Otsuka, Nao Imaeda, Emi Mazaki, Ikuyo Inoue, Natsuko Tokonami, Yurina Hibi, Shigeyoshi Itohara, Kazuhiro Yamakawa

2023eLife18 citationsDOIOpen Access PDF

Abstract

Expressions of voltage-gated sodium channels Nav1.1 and Nav1.2, encoded by SCN1A and SCN2A genes, respectively, have been reported to be mutually exclusive in most brain regions. In juvenile and adult neocortex, Nav1.1 is predominantly expressed in inhibitory neurons while Nav1.2 is in excitatory neurons. Although a distinct subpopulation of layer V (L5) neocortical excitatory neurons were also reported to express Nav1.1, their nature has been uncharacterized. In hippocampus, Nav1.1 has been proposed to be expressed only in inhibitory neurons. By using newly generated transgenic mouse lines expressing Scn1a promoter-driven green fluorescent protein (GFP), here we confirm the mutually exclusive expressions of Nav1.1 and Nav1.2 and the absence of Nav1.1 in hippocampal excitatory neurons. We also show that Nav1.1 is expressed in inhibitory and a subpopulation of excitatory neurons not only in L5 but all layers of neocortex. By using neocortical excitatory projection neuron markers including FEZF2 for L5 pyramidal tract (PT) and TBR1 for layer VI (L6) cortico-thalamic (CT) projection neurons, we further show that most L5 PT neurons and a minor subpopulation of layer II/III (L2/3) cortico-cortical (CC) neurons express Nav1.1 while the majority of L6 CT, L5/6 cortico-striatal (CS), and L2/3 CC neurons express Nav1.2. These observations now contribute to the elucidation of pathological neural circuits for diseases such as epilepsies and neurodevelopmental disorders caused by SCN1A and SCN2A mutations.

Topics & Concepts

NeocortexExcitatory postsynaptic potentialInhibitory postsynaptic potentialNAV1Hippocampal formationNeuroscienceBiologyHippocampusNeuronGenetically modified mouseCellular neuroscienceSodium channelTransgeneChemistryGeneGeneticsSodiumOrganic chemistryNeuroscience and Neuropharmacology ResearchEpilepsy research and treatmentReceptor Mechanisms and Signaling