Enhanced myofilament calcium sensitivity aggravates abnormal calcium handling and diastolic dysfunction in patient-specific induced pluripotent stem cell-derived cardiomyocytes with MYH7 mutation

IF 4.3 2区 生物学 Q2 CELL BIOLOGY Cell calcium Pub Date : 2023-11-08 DOI:10.1016/j.ceca.2023.102822
Guangli Guo , Lu Wang , Xiaowei Li , Wanrong Fu , Jinhua Cao , Jianchao Zhang , Yangyang Liu , Mengduan Liu , Mengyu Wang , Guojun Zhao , Xi Zhao , Yangfan Zhou , Shaohui Niu , Gangqiong Liu , Yanzhou Zhang , Jianzeng Dong , Hailong Tao , Xiaoyan Zhao
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Abstract

Hypertrophic cardiomyopathy (HCM), the most common inherited heart disease, is frequently caused by mutations in the β-cardiac myosin heavy chain gene (MYH7). Abnormal calcium handling and diastolic dysfunction are archetypical features of HCM caused by MYH7 gene mutations. However, the mechanism of how MYH7 mutations leads to these features remains unclear, which inhibits the development of effective therapies. Initially, cardiomyocytes were generated from induced pluripotent stem cells from an eight-year-old girl diagnosed with HCM carrying a MYH7(C.1063 G>A) heterozygous mutation(mutant-iPSC-CMs) and mutation-corrected isogenic iPSCs(control-iPSC-CMs) in the present study. Next, we compared phenotype of mutant-iPSC-CMs to that of control-iPSC-CMs, by assessing their morphology, hypertrophy-related genes expression, calcium handling, diastolic function and myofilament calcium sensitivity at days 15 and 40 respectively. Finally, to better understand increased myofilament Ca2+ sensitivity as a central mechanism of central pathogenicity in HCM, inhibition of calcium sensitivity with mavacamten can improveed cardiomyocyte hypertrophy. Mutant-iPSC-CMs exhibited enlarged areas, increased sarcomere disarray, enhanced expression of hypertrophy-related genes proteins, abnormal calcium handling, diastolic dysfunction and increased myofilament calcium sensitivity at day 40, but only significant increase in calcium sensitivity and mild diastolic dysfunction at day 15. Increased calcium sensitivity by levosimendan aggravates cardiomyocyte hypertrophy phenotypes such as expression of hypertrophy-related genes, abnormal calcium handling and diastolic dysfunction, while inhibition of calcium sensitivity significantly improves cardiomyocyte hypertrophy phenotypes in mutant-iPSC-CMs, suggesting increased myofilament calcium sensitivity is the primary mechanisms for MYH7 mutations pathogenesis. Our studies have uncovered a pathogenic mechanism of HCM caused by MYH7 gene mutations through which enhanced myofilament calcium sensitivity aggravates abnormal calcium handling and diastolic dysfunction. Correction of the myofilament calcium sensitivity was found to be an effective method for treating the development of HCM phenotype in vitro.

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患者特异性诱导多能干细胞衍生的心肌细胞发生 MYH7 突变时,肌丝钙敏感性增强会加剧钙处理异常和舒张功能障碍
肥厚性心肌病(HCM)是最常见的遗传性心脏病,通常由β-心肌肌球蛋白重链基因(MYH7)突变引起。钙处理异常和舒张功能障碍是由MYH7基因突变引起的HCM的典型特征。然而,MYH7突变如何导致这些特征的机制尚不清楚,这抑制了有效治疗方法的发展。最初,从一名被诊断为HCM的8岁女孩的诱导多能干细胞中产生心肌细胞,该女孩携带MYH7(C.1063)基因G>A)杂合突变(突变- ipsc - cms)和突变校正的等基因ipsc(对照- ipsc - cms)。接下来,我们分别在第15天和第40天通过评估形态学、肥大相关基因表达、钙处理、舒张功能和肌丝钙敏感性来比较突变型ipsc - cms与对照ipsc - cms的表型。最后,为了更好地理解肌丝Ca2+敏感性增加作为HCM中心致病性的中心机制,用马伐卡坦抑制钙敏感性可以改善心肌细胞肥厚。突变型ipsc - cms在第40天表现出面积增大、肌节紊乱增加、肥厚相关基因蛋白表达增强、钙处理异常、舒张功能障碍和肌丝钙敏感性增加,但在第15天仅出现钙敏感性显著增加和轻度舒张功能障碍。左西孟丹增加钙敏感性加重心肌细胞肥厚表型,如肥厚相关基因的表达、钙处理异常和舒张功能障碍,而抑制钙敏感性可显著改善突变型ipsc - cms中心肌细胞肥厚表型,提示肌丝钙敏感性增加是MYH7突变发病的主要机制。我们的研究揭示了MYH7基因突变引起HCM的致病机制,通过MYH7基因突变,肌丝钙敏感性增强加重了钙处理异常和舒张功能障碍。纠正肌丝钙敏感性是体外治疗HCM表型发展的有效方法。
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来源期刊
Cell calcium
Cell calcium 生物-细胞生物学
CiteScore
8.70
自引率
5.00%
发文量
115
审稿时长
35 days
期刊介绍: Cell Calcium covers the field of calcium metabolism and signalling in living systems, from aspects including inorganic chemistry, physiology, molecular biology and pathology. Topic themes include: Roles of calcium in regulating cellular events such as apoptosis, necrosis and organelle remodelling Influence of calcium regulation in affecting health and disease outcomes
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