靶向心脏丰富的成纤维细胞特异性 piRNA (CFRPi),减轻和逆转压力过大型心力衰竭的心脏纤维化

IF 6.4 2区 医学 Q1 MEDICAL LABORATORY TECHNOLOGY
Bo Chen , Bozhong Shi , Zijie Zhou , Yue Cui , Guowei Zeng , Lingyan Cheng , Xiaoyang Zhang , Kai Luo , Cong Li , Zhongqun Zhu , Zhifang Zhang , Jinghao Zheng , Xiaomin He
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引用次数: 0

摘要

慢性压力过载导致的心脏纤维化是心脏重塑的终末阶段。然而,目前的心衰治疗几乎不关注抗纤维化,且效果有限。我们的目的是寻找一种心脏丰富且具有心脏纤维化特异性的 piRNA,探索其潜在机制和治疗潜力。通过全转录组测序和随后的验证实验,我们发现了一种在横纹肌收缩(TAC)小鼠、TAC猪和心衰患者样本中高度上调的piRNA(piRNA-000691),它在心脏中含量丰富,并在心脏成纤维细胞中特异表达。CFRPi随着心衰的进展而逐渐增高,体外和体内的功能增益和缺失实验表明它能促进心脏纤维化。在小鼠体内敲除CFRPi可减轻心脏纤维化,逆转从TAC 6周到8周收缩和舒张功能的下降。从机理上讲,CFRPi抑制了APLN,APLN是一种保护性肽,在早期反应中会增加,在晚期反应中会耗竭。体外敲除 APLN 会明显加剧心脏成纤维细胞的活化和增殖。体外和体内证据均表明,Pi3k-AKT-mTOR 是 CFRPi-APLN 相互作用的下游效应途径。总之,我们在此确定了 CFPPi 是一种心脏丰富且具有心脏纤维化特异性的 piRNA。以 CFRPi 为靶点可持续增加 APLN,在缓解纤维化、挽救晚期心脏功能障碍和预防心力衰竭方面具有广阔的治疗前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Targeting a cardiac abundant and fibroblasts-specific piRNA (CFRPi) to attenuate and reverse cardiac fibrosis in pressure-overloaded heart failure

Cardiac fibrosis under chronic pressure overload is an end-stage adverse remodeling of heart. However, current heart failure treatments barely focus on anti-fibrosis and the effects are limited. We aimed to seek for a cardiac abundant and cardiac fibrosis specific piRNA, exploring its underlying mechanism and therapeutic potential. Whole transcriptome sequencing and the following verification experiments identified a highly upregulated piRNA (piRNA-000691) in transverse aortic constriction (TAC) mice, TAC pig, and heart failure human samples, which was abundant in heart and specifically expressed in cardiac fibroblasts. CFRPi was gradually increased along with the progression of heart failure, which was illustrated to promote cardiac fibrosis by gain- and loss-of-function experiments in vitro and in vivo. Knockdown of CFRPi in mice alleviated cardiac fibrosis, reversed decline of systolic and diastolic functions from TAC 6 weeks to 8 weeks. Mechanistically, CFRPi inhibited APLN, a protective peptide that increased in early response and became exhausted at late stage. Knockdown of APLN in vitro notably aggravated cardiac fibroblasts activation and proliferation. In vitro and in vivo evidence both indicated Pi3k-AKT-mTOR as the downstream effector pathway of CFRPi-APLN interaction. Collectively, we here identified CFPPi as a heart abundant and cardiac fibrosis specific piRNA. Targeting CFRPi resulted in a sustainable increase of APLN and showed promising therapeutical prospect to alleviate fibrosis, rescue late-stage cardiac dysfunction, and prevent heart failure.

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来源期刊
Translational Research
Translational Research 医学-医学:内科
CiteScore
15.70
自引率
0.00%
发文量
195
审稿时长
14 days
期刊介绍: Translational Research (formerly The Journal of Laboratory and Clinical Medicine) delivers original investigations in the broad fields of laboratory, clinical, and public health research. Published monthly since 1915, it keeps readers up-to-date on significant biomedical research from all subspecialties of medicine.
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