CPVT-associated Cardiac Ryanodine Receptor Mutation G357S with Reduced Penetrance Impairs Ca2+ Release Termination and Diminishes Protein Expression

Overview

Journal PLoS One

Specialties General Medicine
Science

Date 2017 Sep 30

PMID 28961276

Citations 10

Authors

Yingjie Liu

Jinhong Wei

Siobhan M Wong King Yuen

Bo Sun

Yijun Tang

Ruiwu Wang

Filip Van Petegem

S R Wayne Chen

Affiliations

Soon will be listed here.

Abstract

Catecholaminergic polymorphic ventricular tachycardia (CPVT) is one of the most lethal inherited cardiac arrhythmias mostly linked to cardiac ryanodine receptor (RyR2) mutations with high disease penetrance. Interestingly, a novel RyR2 mutation G357S discovered in a large family of more than 1400 individuals has reduced penetrance. The molecular basis for the incomplete disease penetrance in this family is unknown. To gain insights into the variable disease expression in this family, we determined the impact of the G357S mutation on RyR2 function and expression. We assessed spontaneous Ca2+ release in HEK293 cells expressing RyR2 wildtype and the G357S mutant during store Ca2+ overload, also known as store overload induced Ca2+ release (SOICR). We found that the G357S mutation reduced the percentage of RyR2-expressing cells that showed SOICR. However, in cells that displayed SOICR, G357S reduced the thresholds for the activation and termination of SOICR. Furthermore, G357S decreased the thermal stability of the N-terminal domain of RyR2, and markedly reduced the protein expression of the full-length RyR2. On the other hand, the G357S mutation did not alter the Ca2+ activation of [3H]ryanodine binding or the Ca2+ induced release of Ca2+ from the intracellular stores in HEK293 cells. These data indicate that the CPVT-associated G357S mutation enhances the arrhythmogenic SOICR and reduces RyR2 protein expression, which may be attributable to the incomplete penetrance of CPVT in this family.

Citing Articles

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Correction: "Ryanopathies" and RyR2 dysfunctions: can we further decipher them using in vitro human disease models?.

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