RESUMO
BACKGROUND AND PURPOSE: Ca²âº leak from the sarcoplasmic reticulum (SR) via ryanodine receptors (RyR2s) contributes to cardiomyocyte dysfunction. RyR2 Ca²âº leak has been related to RyR2 phosphorylation. In these conditions, JTV519 (K201), a 1,4-benzothiazepine derivative and multi-channel blocker, stabilizes RyR2s and decrease SR Ca²âº leak. We investigated whether JTV519 stabilizes RyR2s without increasing RyR2 phosphorylation in mice and in non-failing human myocardium and explored underlying mechanisms. EXPERIMENTAL APPROACH: SR Ca²âº leak was induced by ouabain in murine cardiomyocytes. [Ca²âº]-transients, SR Ca²âº load and RyR2-mediated Ca²âº leak (sparks/waves) were quantified, with or without JTV519 (1 µmol·L⻹). Contribution of Ca²âº -/calmodulin-dependent kinase II (CaMKII) was assessed by KN-93 and Western blot (RyR2-Ser(2814) phosphorylation). Effects of JTV519 on contractile force were investigated in non-failing human ventricular trabeculae. KEY RESULTS: Ouabain increased systolic and diastolic cytosolic [Ca²âº](i) , SR [Ca²âº], and SR Ca²âº leak (Ca²âº spark (SparkF) and Ca²âº wave frequency), independently of CaMKII and RyR-Ser(2814) phosphorylation. JTV519 decreased SparkF but also SR Ca²âº load. At matched SR [Ca²âº], Ca²âº leak was significantly reduced by JTV519, but it had no effect on fractional Ca²âº release or Ca²âº wave propagation velocity. In human muscle, JTV519 was negatively inotropic at baseline but significantly enhanced ouabain-induced force and reduced its deleterious effects on diastolic function. CONCLUSIONS AND IMPLICATIONS: JTV519 was effective in reducing SR Ca²âº leak by specifically regulating RyR2 opening at diastolic [Ca²âº](i) in the absence of increased RyR2 phosphorylation at Ser(2814) , extending the potential use of JTV519 to conditions of acute cellular Ca²âº overload.
