The Kir2.1E299V mutation increases atrial fibrillation vulnerability while protecting the ventricles against arrhythmias in a mouse model of Short QT Syndrome type 3.
Ana I Moreno-ManuelÁlvaro MacíasFrancisco M CruzLilian K GutiérrezFernando MartínezAndrés González-GuerraIsabel Martínez CarrascosoFrancisco José Bermúdez-JimenezPatricia Sánchez-PérezMaría Linarejos Vera-PedrosaJuan Manuel RuizJuan A BernalJosé JalifePublished in: Cardiovascular research (2024)
The first in-vivo mouse model of cardiac-specific SQTS3 recapitulates the electrophysiological phenotype of a patient with the Kir2.1E299V mutation. Kir2.1E299V eliminates rectification in both cardiac chambers but protects against ventricular arrhythmias by increasing excitability in both Purkinje-fiber network and ventricles. Consequently, the predominant arrhythmias are supraventricular likely due to the lack of inward rectification and atrial-specific reduced pore diameter of the Kir2.1E299V-Kir2.2WT heterotetramer.