SCN1A gain-of-function in early infantile encephalopathy (Berecki et al 2019)


"OBJECTIVE: To elucidate the biophysical basis underlying the distinct and severe clinical presentation in patients with the recurrent missense SCN1A variant, p.Thr226Met. Patients with this variant show a well-defined genotype-phenotype correlation and present with developmental and early infantile epileptic encephalopathy that is far more severe than typical SCN1A Dravet syndrome. METHODS: Whole cell patch clamp and dynamic action potential clamp were used to study T226M Nav 1.1 channels expressed in mammalian cells. Computational modeling was used to explore the neuronal scale mechanisms that account for altered action potential firing. RESULTS: T226M channels exhibited hyperpolarizing shifts of the activation and inactivation curves and enhanced fast inactivation. Dynamic action potential clamp hybrid simulation showed that model neurons containing T226M conductance displayed a left shift in rheobase relative to control. At current stimulation levels that produced repetitive action potential firing in control model neurons, depolarization block and cessation of action potential firing occurred in T226M model neurons. Fully computationally simulated neuron models recapitulated the findings from dynamic action potential clamp and showed that heterozygous T226M models were also more susceptible to depolarization block. ..."

Model Type: Realistic Network

Currents: I Sodium

Genes: Nav1.1 SCN1A

Model Concept(s): Action Potentials; Epilepsy; Depolarization block; Development

Simulation Environment: NEURON; Python; BluePyOpt

Implementer(s): Bryson, Alex [alexander.bryson at florey.edu.au]

References:

Berecki G et al. (2019). SCN1A gain of function in early infantile encephalopathy. Annals of neurology. 85 [PubMed]


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