Fast Degradation of MecciRNAs by SUPV3L1/ELAC2 Provides a Novel Opportunity to Tackle Heart Failure With Exogenous MecciRNA.

IF 35.5 1区医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS

Circulation Pub Date : 2025-04-29 Epub Date: 2025-02-20 DOI:10.1161/CIRCULATIONAHA.124.070840

Xu Liu, Qinwei Wang, Xinya Li, Yan Yang, Yuqi Deng, Xiaolin Wang, Peipei Wang, Liang Chen, Likun Ma, Ge Shan

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引用次数: 0

Abstract

Background: Circular RNAs derived from both nuclear and mitochondrial genomes are identified in animal cells. Mitochondria-encoded circular RNAs (mecciRNAs) are attracting more attention, and several members of mecciRNAs have already been recognized in regulating mitochondrial functions. Mitochondria dysfunctions are well-known to participate in heart failure (HF). This study was designed to investigate the RNA metabolism of mecciRNAs and the relevant roles and potential application of mecciRNAs in HF.

Methods: Compared with highly stable nuclear genome-encoded circular RNAs, the fast degradation feature of mecciRNAs is identified by RNA sequencing and a series of molecular, biochemical, and cellular experiments. The substantial protective effects of in vitro synthesized mecciRNAs were tested in both doxorubicin- and pressure overload-induced mouse models of HF.

Results: We discover that mecciRNAs are promptly degraded by an animal-conserved complex of helicase SUPV3L1 (suppressor of var1, 3-like protein 1) and endoribonuclease ELAC2 (elaC ribonuclease Z 2). MecciRNA degradation complex and mecciRNAs interact with mitochondrial permeability transition pore and its regulators including TRAP1 (TNF receptor-associated protein 1) and CypD (cyclophilin D). MecciRNAs regulate mitochondrial levels of TRAP1 and CypD to modulate the opening of mitochondrial permeability transition pore and the release of mitochondrial reactive oxygen species. Exogenously applied mecciRNAs interact with cytosolic TRAP1 and increase mitochondrial levels of TRAP1, and lead to a more closed state of mitochondrial permeability transition pore to constrain deleterious reactive oxygen species release. HF conditions lead to stimulated mecciRNA degradation, and administration of in vitro synthesized mecciRNAs exhibits substantial protective effects in both doxorubicin- and pressure overload-induced mouse models of HF.

Conclusions: This study demonstrates the fast degradation of mecciRNAs and the associated regulations of mitochondrial reactive oxygen species release of mitochondrial permeability transition pore by mecciRNAs. HF conditions lead to dysregulated mecciRNA degradation, and exogenous mecciRNAs demonstrate treatment potential in mouse models of HF.

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SUPV3L1/ELAC2对MecciRNA的快速降解为外源性MecciRNA治疗心力衰竭提供了新的机会。

背景：在动物细胞中发现了来自核基因组和线粒体基因组的环状rna。线粒体编码的环状rna （mecciRNAs）越来越受到人们的关注，一些mecciRNAs成员已经被发现在调节线粒体功能。众所周知，线粒体功能障碍与心力衰竭（HF）有关。本研究旨在探讨mecciRNAs的RNA代谢以及mecciRNAs在HF中的相关作用和潜在应用。方法：与高度稳定的核基因组编码环状RNA相比，通过RNA测序和一系列分子、生化和细胞实验鉴定mecciRNAs的快速降解特性。体外合成的meccirna在阿霉素和压力过载诱导的HF小鼠模型中均具有实质性的保护作用。结果:我们发现meccirna被动物保守的解旋酶SUPV3L1 （var1的抑制因子）复合体迅速降解。MecciRNA降解复合体和mecciRNAs与线粒体通透性过渡孔及其调节因子TRAP1 （TNF受体相关蛋白1）和CypD（亲环蛋白D）相互作用。mecciRNAs调节线粒体TRAP1和CypD的水平，调节线粒体通透性过渡孔的打开和线粒体活性氧的释放。外源应用的mecciRNAs与细胞质TRAP1相互作用，增加线粒体TRAP1水平，导致线粒体通透性过渡孔更加封闭，从而限制有害活性氧的释放。HF条件导致受刺激的mecciRNA降解，体外合成的mecciRNA在阿霉素和压力过载诱导的HF小鼠模型中均显示出明显的保护作用。结论：本研究证实了mecciRNAs的快速降解以及mecciRNAs对线粒体通透性过渡孔中活性氧释放的相关调控。HF条件导致mecciRNA降解失调，外源性mecciRNA在HF小鼠模型中显示出治疗潜力。

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来源期刊

Circulation 医学-外周血管病

CiteScore

45.70

自引率

2.10%

发文量

1473

审稿时长

2 months

期刊介绍： Circulation is a platform that publishes a diverse range of content related to cardiovascular health and disease. This includes original research manuscripts, review articles, and other contributions spanning observational studies, clinical trials, epidemiology, health services, outcomes studies, and advancements in basic and translational research. The journal serves as a vital resource for professionals and researchers in the field of cardiovascular health, providing a comprehensive platform for disseminating knowledge and fostering advancements in the understanding and management of cardiovascular issues.