Screening for novel RyR2 inhibitors by ER Ca2+monitoring

Author:

Takenaka Mai,Kodama Masami,Murayama TakashiORCID,Ishigami-Yuasa Mari,Mori Shuichi,Ishida Ryosuke,Suzuki Junji,Kanemaru Kazunori,Sugihara Masami,Iino Masamitsu,Miura Aya,Nishio Hajime,Morimoto Sachio,Kagechika Hiroyuki,Sakurai Takashi,Kurebayashi NagomiORCID

Abstract

AbstractType 2 ryanodine receptor (RyR2) is a Ca2+release channel on the endoplasmic/sarcoplasmic reticulum (ER/SR) that plays a central role in the excitation-contraction coupling in the heart. Hyperactivity of RyR2 has been linked to ventricular arrhythmias in patients with catecholaminergic polymorphic ventricular tachycardia (CPVT) and heart failure, where spontaneous Ca2+release via hyperactivated RyR2 depolarizes diastolic membrane potential to induce triggered activity. In such cases, drugs that suppress RyR2 activity are expected to prevent the arrhythmias, but there is no clinically available RyR2 inhibitors at present. In this study, we searched for RyR2 inhibitors from a well-characterized compound library using a recently developed ER Ca2+-based assay, where the inhibition of RyR2 activity was detected by the increase in ER Ca2+signals from R-CEPIA1er, a genetically encoded ER Ca2+indicator, in RyR2-expressing HEK293 cells. By screening 1535 compounds in the library, we identified three compounds (chloroxylenol, methyl orsellinate and riluzole) that greatly increased the ER Ca2+signal. All of the three compounds suppressed spontaneous Ca2+oscillations in RyR2-expressing HEK293 cells and correspondingly reduced the Ca2+-dependent [3H]ryanodine binding activity. In cardiomyocytes from RyR2-mutant mice, the three compounds effectively suppressed abnormal Ca2+waves without substantial effects on the action-potential-induced Ca2+transients. These results confirm that ER Ca2+-based screening is useful for identifying modulators of ER Ca2+release channels and suggest that RyR2 inhibitors have potential to be developed as a new category of antiarrhythmic drugs.Significance statementWe successfully identified three compounds having RyR2 inhibitory action from a well-characterized compound library using an ER Ca2+-based assay, and demonstrated that these compounds suppressed arrhythmogenic Ca2+wave generation without substantially affecting physiological action-potential induced Ca2+transients in cardiomyocytes. This study will facilitate the development of RyR2 specific inhibitors as a potential new class of drugs for life-threatening arrhythmias induced by hyperactivation of RyR2.

Publisher

Cold Spring Harbor Laboratory

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