Altered cardiac excitability and arrhythmia in models of SCN1B-linked developmental and epileptic encephalopathy
Roberto Ramos-Mondragon, Shuyun Wang, Nnamdi Edokobi, Qinghua Liu, Xiaotan Qiao, Maya Shih, Louis T. Dang, Yao-Chang Tsan, Katalin Štěrbová, Adam S. Helms, Sarah Weckhuysen, Luis F. Lopez-Santiago, Jack M. Parent, Lori L. Isom
Roberto Ramos-Mondragon, Shuyun Wang, Nnamdi Edokobi, Qinghua Liu, Xiaotan Qiao, Maya Shih, Louis T. Dang, Yao-Chang Tsan, Katalin Štěrbová, Adam S. Helms, Sarah Weckhuysen, Luis F. Lopez-Santiago, Jack M. Parent, Lori L. Isom
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Research Article Cardiology Stem cells

Altered cardiac excitability and arrhythmia in models of SCN1B-linked developmental and epileptic encephalopathy

Abstract

Biallelic variants in SCN1B, which encodes the voltage-gated sodium channel β1/β1B subunits, are linked to DEE52, a developmental and epileptic encephalopathy with a high risk of sudden unexpected death in epilepsy (SUDEP). DEE52 patients present clinically with Dravet syndrome or the more severe early infantile DEE. SCN1B is expressed in brain and heart in humans and in mice. Thus, we have proposed that, in addition to generalized seizures, cardiac arrhythmia may play a role in SUDEP. Mice with homozygous expression of the DEE52 variant Scn1b-c.265C>T, predicting p.R89C, have spontaneous and hyperthermia-induced generalized seizures and SUDEP. Here we conducted cardiac characterization of Scn1b-c.265C>T mice and studied induced pluripotent stem cell cardiomyocytes (iPSC-CMs) derived from 2 SCN1B-c.265C>T DEE52 patients. Scn1bC89/C89 mouse CMs showed increased transient outward potassium current (Ito) density and heart sections revealed ventricular fibrosis. Scn1bC89/C89 mice were susceptible to pacing-induced cardiac arrhythmias. Patient-derived iPSC-CMs with biallelic SCN1B-c.265C>T variant expression showed increased sodium current (INa), late INa, and Ito current densities. We conclude that, while mouse and human cardiac AP waveforms have critical differences, increased Ito is common to both models of DEE52. Overall, our data suggest that electrical and structural substrates may lead to arrhythmias and contribute to SUDEP in DEE52.

Authors

Roberto Ramos-Mondragon, Shuyun Wang, Nnamdi Edokobi, Qinghua Liu, Xiaotan Qiao, Maya Shih, Louis T. Dang, Yao-Chang Tsan, Katalin Štěrbová, Adam S. Helms, Sarah Weckhuysen, Luis F. Lopez-Santiago, Jack M. Parent, Lori L. Isom

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Figure 9

IK and ICaL properties of control and Pt. 1 iPSC-CMs.

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IK and ICaL properties of control and Pt. 1 iPSC-CMs. (A) Representative...
(A) Representative recordings of Ito in SCN1BR89/R89 control and SCN1BC89/C89 Pt. 1 iPSC-CMs. Pt. 1 iPSC-CMs showed higher Ito density. (B) Representative recordings of IK1 in SCN1BR89/R89 control and and SCN1BC89/C89 Pt.1 iPSC-CMs. Only currents obtained at –120 mV and –70 mV for IK1, are shown. Pt. 1 iPSC-CMs showed lower IK1 density. (C) Representative recordings for ICaL in SCN1BR89/R89 control and SCN1BC89/C89 Pt. 1 iPSC-CMs. Only ICaL obtained at –50 and 10 mV are shown. Pt. 1 iPSC-CMs showed lower ICaL density. (D) Current-voltage relationships for Ito. Higher Ito values were found in Pt. 1 iPSC-CMs than control iPSC-CMs at 30, 40, and 50 mV. (E) Current-voltage relationships for IKSUS. No significant changes in IKSUS were found between genotypes. (F) Current-voltage relationship for IK1. Significantly smaller IK1 in Pt. 1 iPSC-CMs was observed from –120 mV to –90 mV (G) Current-voltage relationship for ICaL. Significantly smaller ICaL in Pt. 1 iPSC-CMs was observed at 0 mV and 10 mV. Values represent mean ± SEM. Ito and IKSUS: n = 15 cells from SCN1BR89/R89 control and n = 15 cells from SCN1BC89/C89 Pt. 1. IK1: n = 8 cells from SCN1BR89/R89 control and n = 6 cells from SCN1BC89/C89 Pt. 1. ICaL: n = 16 cells from SCN1BR89/R89 control and n = 16 cells from SCN1BC89/C89 Pt. 1. All cells were derived from at least 3 independent hiPSC differentiation batches. *P < 0.05 using a 1-way ANOVA with Tukey’s post hoc comparison test.