Please use this identifier to cite or link to this item: https://doi.org/10.1038/s41598-018-29574-5
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dc.titleIdentification of an I Na-dependent and I to-mediated proarrhythmic mechanism in cardiomyocytes derived from pluripotent stem cells of a Brugada syndrome patient
dc.contributor.authorMa D.
dc.contributor.authorLiu Z.
dc.contributor.authorLoh L.J.
dc.contributor.authorZhao Y.
dc.contributor.authorLi G.
dc.contributor.authorLiew R.
dc.contributor.authorIslam O.
dc.contributor.authorWu J.
dc.contributor.authorChung Y.Y.
dc.contributor.authorTeo W.S.
dc.contributor.authorChing C.K.
dc.contributor.authorTan B.Y.
dc.contributor.authorChong D.
dc.contributor.authorHo K.L.
dc.contributor.authorLim P.
dc.contributor.authorYong R.Y.Y.
dc.contributor.authorPanama B.K.
dc.contributor.authorKaplan A.D.
dc.contributor.authorBett G.C.L.
dc.contributor.authorWare J.
dc.contributor.authorBezzina C.R.
dc.contributor.authorVerkerk A.O.
dc.contributor.authorCook S.A.
dc.contributor.authorRasmusson R.L.
dc.contributor.authorWei H.
dc.date.accessioned2018-12-27T03:19:56Z
dc.date.available2018-12-27T03:19:56Z
dc.date.issued2018
dc.identifier.citationMa D., Liu Z., Loh L.J., Zhao Y., Li G., Liew R., Islam O., Wu J., Chung Y.Y., Teo W.S., Ching C.K., Tan B.Y., Chong D., Ho K.L., Lim P., Yong R.Y.Y., Panama B.K., Kaplan A.D., Bett G.C.L., Ware J., Bezzina C.R., Verkerk A.O., Cook S.A., Rasmusson R.L., Wei H. (2018). Identification of an I Na-dependent and I to-mediated proarrhythmic mechanism in cardiomyocytes derived from pluripotent stem cells of a Brugada syndrome patient. Scientific Reports 8 (1) : 11246. ScholarBank@NUS Repository. https://doi.org/10.1038/s41598-018-29574-5
dc.identifier.issn20452322
dc.identifier.urihttp://scholarbank.nus.edu.sg/handle/10635/150226
dc.description.abstractBrugada syndrome (BrS) is an inherited cardiac arrhythmia commonly associated with SCN5A mutations, yet its ionic mechanisms remain unclear due to a lack of cellular models. Here, we used human induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs) from a BrS patient (BrS1) to evaluate the roles of Na+ currents (INa) and transient outward K+ currents (Ito) in BrS induced action potential (AP) changes. To understand the role of these current changes in repolarization we employed dynamic clamp to “electronically express” IK1 and restore normal resting membrane potentials and allow normal recovery of the inactivating currents, INa, ICa and Ito. HiPSC-CMs were generated from BrS1 with a compound SCN5A mutation (p. A226V & p. R1629X) and a healthy sibling control (CON1). Genome edited hiPSC-CMs (BrS2) with a milder p. T1620M mutation and a commercial control (CON2) were also studied. CON1, CON2 and BrS2, had unaltered peak INa amplitudes, and normal APs whereas BrS1, with over 75% loss of INa, displayed a loss-of-INa basal AP morphology (at 1.0 Hz) manifested by a reduced maximum upstroke velocity (by ~80%, p < 0.001) and AP amplitude (p < 0.001), and an increased phase-1 repolarization pro-arrhythmic AP morphology (at 0.1 Hz) in 25% of cells characterized by marked APD shortening (65% shortening, p < 0.001). Moreover, Ito densities of BrS1 and CON1 were comparable and increased from 1.0 Hz to 0.1 Hz by 100%. These data indicate that a repolarization deficit could be a mechanism underlying BrS. © 2018, The Author(s).
dc.publisherNature Research
dc.sourceScopus
dc.typeArticle
dc.contributor.departmentDUKE-NUS MEDICAL SCHOOL
dc.contributor.departmentMICROBIOLOGY AND IMMUNOLOGY
dc.description.doi10.1038/s41598-018-29574-5
dc.description.sourcetitleScientific Reports
dc.description.volume8
dc.description.issue1
dc.description.page11246
dc.published.statepublished
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