Targeting Zfp36 to combat cardiac hypertrophy: Insights into ferroptosis pathways

IF 6.8 1区医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL Clinical and Translational Medicine Pub Date : 2025-02-25 DOI:10.1002/ctm2.70247

Mingyu Zhang, Xiaoxiang Guan, Zheng Dong, Chenxu Yang, Chao Xiong, Wenzheng Cheng, Aijing Shang, Yaru Liu, Xiaofei Guo, Bowen Zhang, Bo Zhang, Saidi Jin, Wenyi Qi, Berezhnova Tatjana Alexandrovna, Yuan Jiang, Zhimin Du, Chaoqian Xu

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Abstract

Background

Cardiac hypertrophy is a precursor to heart failure and represents a significant global cause of mortality, thereby necessitating timely and effective therapeutic interventions. Zinc finger protein 36 (Zfp36) is recognised as a critical regulator of ferroptosis; however, its role and underlying mechanisms in cardiac hypertrophy remain largely unexplored. This study aims to investigate the regulatory function of Zfp36 in ferroptosis within the context of cardiac hypertrophy.

Methods and results

Single-cell sequencing analysis demonstrated a reduction in Zfp36 expression associated with cardiac hypertrophy. Zfp36 was observed to mitigate ferroptosis and reduce hypertrophic phenotypes in cardiomyocytes subjected to Angiotensin II (Ang II) and in myocardial tissues induced by transverse aortic constriction. The ferroptosis inhibitor Ferrostatin-1 was shown to alleviate hypertrophy when co-incubated with si-Zfp36 and Ang II. Mechanistically, Zfp36 binds to the 3′ untranslated region (3′UTR) of Ythdc2 mRNA, facilitating its degradation. Ythdc2 subsequently binds to SLC7A11 mRNA, enhancing its decay, which leads to a reduction in glutathione (GSH) levels, thereby exacerbating ferroptosis and cardiac hypertrophy. Furthermore, overexpression of Ythdc2 reversed the protective effects conferred by Zfp36, while silencing of Ythdc2 counteracted the effects of Zfp36 knockdown.

Conclusions

This study elucidates the role of Zfp36 in cardiac hypertrophy, specifically detailing its modulatory mechanism via the Ythdc2/SLC7A11/GSH ferroptosis pathway. These insights lay the groundwork for innovative approaches to understanding the pathological mechanisms underlying cardiac hypertrophy and enhancing clinical interventions.

Key points

Zfp36 was initially demonstrated to attenuate cardiac hypertrophy through the inhibition of ferroptosis in cardiomyocytes, providing a new target for therapeutic strategies targeting ferroptosis.
Zfp36 facilitated the degradation of Ythdc2 mRNA by binding to it, subsequently inhibiting Ythdc2-mediated degradation of SLC7A11 mRNA, and maintaining GSH levels. This elucidates a previously unrecognized regulatory pathway in the context of cardiac hypertrophy.

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靶向 Zfp36 对抗心脏肥大：洞察铁蛋白沉积途径

背景：心脏肥厚是心力衰竭的前兆，是全球死亡的重要原因，因此需要及时有效的治疗干预。锌指蛋白36 （Zfp36）被认为是铁下垂的关键调节因子；然而，其在心脏肥厚中的作用和潜在机制在很大程度上仍未被探索。本研究旨在探讨Zfp36在心肌肥厚情况下对铁下垂的调节功能。方法和结果单细胞测序分析显示Zfp36表达减少与心脏肥厚相关。观察到Zfp36在血管紧张素II （Ang II）诱导的心肌细胞和主动脉横缩诱导的心肌组织中减轻铁下垂和肥厚表型。当与si-Zfp36和Ang II共孵育时，铁下垂抑制剂Ferrostatin-1被证明可以减轻肥厚。从机制上讲，Zfp36与Ythdc2 mRNA的3 ‘非翻译区（3 ’ utr）结合，促进其降解。Ythdc2随后与SLC7A11 mRNA结合，增强其衰变，导致谷胱甘肽（GSH）水平降低，从而加剧铁下垂和心脏肥厚。此外，Ythdc2的过表达逆转了Zfp36赋予的保护作用，而Ythdc2的沉默抵消了Zfp36敲低的作用。本研究阐明了Zfp36在心肌肥厚中的作用，详细阐述了其通过Ythdc2/SLC7A11/GSH铁质凋亡通路的调控机制。这些见解为理解心脏肥厚的病理机制和加强临床干预的创新方法奠定了基础。Zfp36最初通过抑制心肌细胞的铁下垂来减轻心肌肥厚，为针对铁下垂的治疗策略提供了新的靶点。Zfp36通过与Ythdc2 mRNA结合促进其降解，进而抑制Ythdc2介导的SLC7A11 mRNA降解，维持GSH水平。这阐明了在心脏肥厚的背景下一个以前未被认识的调节途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Clinical and Translational Medicine Multiple-

CiteScore

15.90

自引率

1.90%

发文量

450

审稿时长

4 weeks

期刊介绍： Clinical and Translational Medicine (CTM) is an international, peer-reviewed, open-access journal dedicated to accelerating the translation of preclinical research into clinical applications and fostering communication between basic and clinical scientists. It highlights the clinical potential and application of various fields including biotechnologies, biomaterials, bioengineering, biomarkers, molecular medicine, omics science, bioinformatics, immunology, molecular imaging, drug discovery, regulation, and health policy. With a focus on the bench-to-bedside approach, CTM prioritizes studies and clinical observations that generate hypotheses relevant to patients and diseases, guiding investigations in cellular and molecular medicine. The journal encourages submissions from clinicians, researchers, policymakers, and industry professionals.