Chelko Stephen P, Asimaki Angeliki, Andersen Peter, Bedja Djahida, Amat-Alarcon Nuria, DeMazumder Deeptankar, Jasti Ravirasmi, MacRae Calum A, Leber Remo, Kleber Andre G, Saffitz Jeffrey E, Judge Daniel P
Department of Medicine/Cardiology, Johns Hopkins University School of Medicine, Baltimore, Maryland, USA.
Department of Pathology, Beth Israel Deaconess Medical Center and Harvard Medical School, Boston, Massachusetts, USA.
JCI Insight. 2016 Apr 21;1(5). doi: 10.1172/jci.insight.85923.
Arrhythmogenic cardiomyopathy (ACM) is characterized by redistribution of junctional proteins, arrhythmias, and progressive myocardial injury. We previously reported that SB216763 (SB2), annotated as a GSK3β inhibitor, reverses disease phenotypes in a zebrafish model of ACM. Here, we show that SB2 prevents myocyte injury and cardiac dysfunction in vivo in two murine models of ACM at baseline and in response to exercise. SB2-treated mice with desmosome mutations showed improvements in ventricular ectopy and myocardial fibrosis/inflammation as compared with vehicle-treated (Veh-treated) mice. GSK3β inhibition improved left ventricle function and survival in sedentary and exercised mice compared with Veh-treated mice and normalized intercalated disc (ID) protein distribution in both mutant mice. GSK3β showed diffuse cytoplasmic localization in control myocytes but ID redistribution in ACM mice. Identical GSK3β redistribution is present in ACM patient myocardium but not in normal hearts or other cardiomyopathies. SB2 reduced total GSK3β protein levels but not phosphorylated Ser 9-GSK3β in ACM mice. Constitutively active GSK3β worsens ACM in mutant mice, while GSK3β shRNA silencing in ACM cardiomyocytes prevents abnormal ID protein distribution. These results highlight a central role for GSKβ in the complex phenotype of ACM and provide further evidence that pharmacologic GSKβ inhibition improves cardiomyopathies due to desmosome mutations.
致心律失常性心肌病(ACM)的特征是连接蛋白重新分布、心律失常和进行性心肌损伤。我们之前报道过,SB216763(SB2),被标注为一种糖原合成酶激酶3β(GSK3β)抑制剂,可在ACM斑马鱼模型中逆转疾病表型。在此,我们表明SB2在两种ACM小鼠模型中,在基线状态及运动反应下,均可预防体内的心肌细胞损伤和心脏功能障碍。与接受载体处理(Veh处理)的小鼠相比,接受SB2处理的患有桥粒突变的小鼠在室性早搏以及心肌纤维化/炎症方面有所改善。与Veh处理的小鼠相比,抑制GSK3β可改善久坐和运动小鼠的左心室功能及生存率,并使两种突变小鼠的闰盘(ID)蛋白分布正常化。在对照心肌细胞中,GSK3β呈弥漫性胞质定位,但在ACM小鼠中ID会重新分布。在ACM患者心肌中存在相同的GSK3β重新分布情况,但在正常心脏或其他心肌病中则不存在。在ACM小鼠中,SB2降低了GSK3β总蛋白水平,但未降低磷酸化的丝氨酸9-GSK3β水平。组成型活性GSK3β会使突变小鼠的ACM恶化,而在ACM心肌细胞中沉默GSK3β的短发夹RNA可防止ID蛋白异常分布。这些结果凸显了GSKβ在ACM复杂表型中的核心作用,并提供了进一步的证据,表明药理学上抑制GSKβ可改善由桥粒突变引起的心肌病。
