Atp1a3-encoded sodium-potassium atpase subunit alpha 3 d801n variant is associated with shortened qt interval and predisposition to ventricular fibrillation preceded by bradycardia

Mary E. Moya-Mendez, Chiagoziem Ogbonna, Jordan E. Ezekian, Michael B. Rosamilia, Lyndsey Prange, Caridad de la Uz, Jeffrey J. Kim, Taylor Howard, John Garcia, Robert Nussbaum, Rebecca Truty, Thomas E. Callis, Emily Funk, Matthew Heyes, Guy de Lisle Dear, Michael P. Carboni, Salim F. Idriss, Mohamad A. Mikati, Andrew P. Landstrom

Research output: Contribution to journalArticlepeer-review

Abstract

BACKGROUND: Pathogenic variation in the ATP1A3-encoded sodium-potassium ATPase, ATP1A3, is responsible for alternating hemiplegia of childhood (AHC). Although these patients experience a high rate of sudden unexpected death in epilepsy, the pathophysiologic basis for this risk remains unknown. The objective was to determine the role of ATP1A3 genetic variants on cardiac outcomes as determined by QT and corrected QT (QTc) measurements. METHODS AND RESULTS: We analyzed 12-lead ECG recordings from 62 patients (male subjects=31, female subjects=31) referred for AHC evaluation. Patients were grouped according to AHC presentation (typical versus atypical), ATP1A3 variant status (positive versus negative), and ATP1A3 variant (D801N versus other variants). Manual remeasurements of QT intervals and QTc calculations were performed by 2 pediatric electrophysiologists. QTc measurements were significantly shorter in patients with positive ATP1A3 variant status (P<0.001) than in patients with genotype-negative status, and significantly shorter in patients with the ATP1A3-D801N variant than patients with other variants (P<0.001). The mean QTc for ATP1A3-D801N was 344.9 milliseconds, which varied little with age, and remained <370 milliseconds throughout adulthood. ATP1A3 genotype status was significantly associated with shortened QTc by multivariant regression analysis. Two patients with the ATP1A3D801N variant experienced ventricular fibrillation, resulting in death in 1 patient. Rare variants in ATP1A3 were identified in a large cohort of genotype-negative patients referred for arrhythmia and sudden unexplained death. CONCLUSIONS: Patients with AHC who carry the ATP1A3-D801N variant have significantly shorter QTc intervals and an increased likelihood of experiencing bradycardia associated with life-threatening arrhythmias. ATP1A3 variants may represent an independent cause of sudden unexplained death. Patients with AHC should be evaluated to identify risk of sudden death.

Original languageEnglish (US)
Article numbere019887
JournalJournal of the American Heart Association
Volume10
Issue number17
DOIs
StatePublished - Sep 1 2021

Keywords

  • AHC
  • ATP1A3
  • Alternating hemiplegia of childhood
  • D801N
  • Sudden unexpected death in epilepsy

ASJC Scopus subject areas

  • Cardiology and Cardiovascular Medicine

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