RyR2R420Q catecholaminergic polymorphic ventricular tachycardia mutation induces bradycardia by disturbing the coupled clock pacemaker mechanism
Yue Yi Wang, … , Jean-Pierre Benitah, Ana María Gómez
Yue Yi Wang, … , Jean-Pierre Benitah, Ana María Gómez
Published April 20, 2017
Citation Information: JCI Insight. 2017;2(8):e91872. https://doi.org/10.1172/jci.insight.91872.
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Research Article Cardiology

RyR2R420Q catecholaminergic polymorphic ventricular tachycardia mutation induces bradycardia by disturbing the coupled clock pacemaker mechanism

Abstract

Catecholaminergic polymorphic ventricular tachycardia (CPVT) is a lethal genetic arrhythmia that manifests syncope or sudden death in children and young adults under stress conditions. CPVT patients often present bradycardia and sino-atrial node (SAN) dysfunction. However, the mechanism remains unclear. We analyzed SAN function in two CPVT families and in a novel knock-in (KI) mouse model carrying the RyR2R420Q mutation. Humans and KI mice presented slower resting heart rate. Accordingly, the rate of spontaneous intracellular Ca2+ ([Ca2+]i) transients was slower in KI mouse SAN preparations than in WT, without any significant alteration in the “funny” current (If ). The L-type Ca2+ current was reduced in KI SAN cells in a [Ca2+]i-dependent way, suggesting that bradycardia was due to disrupted crosstalk between the “voltage” and “Ca2+” clock, and the mechanisms of pacemaking was induced by aberrant spontaneous RyR2- dependent Ca2+ release. This finding was consistent with a higher Ca2+ leak during diastolic periods produced by long-lasting Ca2+ sparks in KI SAN cells. Our results uncover a mechanism for the CPVT-causing RyR2 N-terminal mutation R420Q, and they highlight the fact that enhancing the Ca2+ clock may slow the heart rhythm by disturbing the coupling between Ca2+ and voltage clocks.

Authors

Yue Yi Wang, Pietro Mesirca, Elena Marqués-Sulé, Alexandra Zahradnikova Jr., Olivier Villejoubert, Pilar D’Ocon, Cristina Ruiz, Diana Domingo, Esther Zorio, Matteo E. Mangoni, Jean-Pierre Benitah, Ana María Gómez

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Figure 6

Caffeine-evoked inward current was significantly smaller in KI than in WT SAN cells, without changes in NCX1 or RyR2 protein expression, nor RyR2 phosphorylation level.

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Caffeine-evoked inward current was significantly smaller in KI than in W...
(A) Averaged transient inward current evoked by rapid caffeine application to 17 WT SAN cells and 16 KI cells, with example traces on top. (B) NCX expression in dissected SAN is unchanged between KI and WT. WT, n = 4 SAN cells, and KI, n = 4 SAN cells. (C) Examples of blots obtained for total or phosphorylated RyR2 and GAPDH. (D–F) Total RyR2 expression (C) and phosphorylated (S2814 [E] and S2808 [F]) RyR2 expressions are unaltered. n = 4 SAN cells each. White bars are for WT, and gray bars for KI, representing the mean ± SEM with individual data on the columns. **P < 0.01.