Hypoxia-responsive zinc finger E-box-binding homeobox 2 (ZEB2) regulates a network of calcium-handling genes in the injured heart.

IF 10.2 1区 医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS Cardiovascular Research Pub Date : 2024-09-23 DOI:10.1093/cvr/cvae163
Monika M Gladka, Arwa Kohela, Anne E de Leeuw, Bas Molenaar, Danielle Versteeg, Lieneke Kooijman, Mariska van Geldorp, Willem B van Ham, Rocco Caliandro, Jody J Haigh, Toon A B van Veen, Eva van Rooij
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Abstract

Aims: Intracellular calcium (Ca2+) overload is known to play a critical role in the development of cardiac dysfunction. Despite the remarkable improvement in managing the progression of heart disease, developing effective therapies for heart failure (HF) remains a challenge. A better understanding of molecular mechanisms that maintain proper Ca2+ levels and contractility in the injured heart could be of therapeutic value.

Methods and results: Here, we report that transcription factor zinc finger E-box-binding homeobox 2 (ZEB2) is induced by hypoxia-inducible factor 1-alpha (HIF1α) in hypoxic cardiomyocytes and regulates a network of genes involved in Ca2+ handling and contractility during ischaemic heart disease. Gain- and loss-of-function studies in genetic mouse models revealed that ZEB2 expression in cardiomyocytes is necessary and sufficient to protect the heart against ischaemia-induced diastolic dysfunction and structural remodelling. Moreover, RNA sequencing of ZEB2-overexpressing (Zeb2 cTg) hearts post-injury implicated ZEB2 in regulating numerous Ca2+-handling and contractility-related genes. Mechanistically, ZEB2 overexpression increased the phosphorylation of phospholamban at both serine-16 and threonine-17, implying enhanced activity of sarcoplasmic reticulum Ca2+-ATPase (SERCA2a), thereby augmenting SR Ca2+ uptake and contractility. Furthermore, we observed a decrease in the activity of Ca2+-dependent calcineurin/NFAT signalling in Zeb2 cTg hearts, which is the main driver of pathological cardiac remodelling. On a post-transcriptional level, we showed that ZEB2 expression can be regulated by the cardiomyocyte-specific microRNA-208a (miR-208a). Blocking the function of miR-208a with anti-miR-208a increased ZEB2 expression in the heart and effectively protected from the development of pathological cardiac hypertrophy.

Conclusion: Together, we present ZEB2 as a central regulator of contractility and Ca2+-handling components in the mammalian heart. Further mechanistic understanding of the role of ZEB2 in regulating Ca2+ homeostasis in cardiomyocytes is an essential step towards the development of improved therapies for HF.

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缺氧反应锌指E-盒结合同源染色体2(ZEB2)调控损伤心脏中的钙处理基因网络。
目的:众所周知,细胞内钙(Ca2+)超载在心脏功能障碍的发展过程中起着至关重要的作用。尽管在控制心脏病进展方面取得了显著进展,但开发有效的心力衰竭(HF)疗法仍是一项挑战。更好地了解在受伤心脏中维持适当 Ca2+ 水平和收缩力的分子机制可能具有治疗价值:在此,我们报告了转录因子锌指E-盒结合同工酶2(ZEB2)在缺氧心肌细胞中由缺氧诱导因子1-α(HIF1α)诱导,并在缺血性心脏病期间调控涉及钙离子处理和收缩力的基因网络。在遗传小鼠模型中进行的功能增益和功能缺失研究表明,ZEB2 在心肌细胞中的表达是保护心脏免受缺血引起的舒张功能障碍和结构重塑的必要且充分条件。此外,对损伤后表达 ZEB2 的心脏(Zeb2 cTg)进行的 RNA 测序表明,ZEB2 与调节众多 Ca2+ 处理和收缩相关基因有关。从机制上讲,ZEB2 的过表达增加了磷脂酰班在丝氨酸-16 和苏氨酸-17 的磷酸化,这意味着肌质网 Ca2+-ATP 酶(SERCA2a)的活性增强,从而提高了 SR Ca2+ 摄取和收缩力。此外,我们还观察到 Zeb2 cTg 心脏中 Ca2+ 依赖性钙神经蛋白/NFAT 信号的活性降低,而这正是病理性心脏重塑的主要驱动因素。在转录后水平,我们发现 ZEB2 的表达可受心肌细胞特异性 microRNA-208a (miR-208a)的调控。用抗miR-208a阻断miR-208a的功能可增加ZEB2在心脏中的表达,并有效防止病理性心肌肥厚的发生:综上所述,我们发现 ZEB2 是哺乳动物心脏收缩力和 Ca2+ 处理元件的核心调节因子。进一步从机理上了解 ZEB2 在调节心肌细胞 Ca2+ 平衡中的作用,是开发更好的高房颤症疗法的重要一步。
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来源期刊
Cardiovascular Research
Cardiovascular Research 医学-心血管系统
CiteScore
21.50
自引率
3.70%
发文量
547
审稿时长
1 months
期刊介绍: Cardiovascular Research Journal Overview: International journal of the European Society of Cardiology Focuses on basic and translational research in cardiology and cardiovascular biology Aims to enhance insight into cardiovascular disease mechanisms and innovation prospects Submission Criteria: Welcomes papers covering molecular, sub-cellular, cellular, organ, and organism levels Accepts clinical proof-of-concept and translational studies Manuscripts expected to provide significant contribution to cardiovascular biology and diseases
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