中性粒细胞对心力衰竭的心脏重塑起着不可或缺的作用。

IF 4.9 2区 医学 Q1 CARDIAC & CARDIOVASCULAR SYSTEMS Journal of molecular and cellular cardiology Pub Date : 2024-02-22 DOI:10.1016/j.yjmcc.2024.02.005
Sergey Antipenko , Nicolas Mayfield , Miki Jinno , Matthias Gunzer , Mohamed Ameen Ismahil , Tariq Hamid , Sumanth D. Prabhu , Gregg Rokosh
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引用次数: 0

摘要

持续的免疫激活在很大程度上导致了左心室(LV)功能障碍和心力衰竭(HF)的不良重塑。众所周知,中性粒细胞在急性心肌梗死(MI)中发挥着至关重要的作用,它们是清除死亡细胞并促进巨噬细胞随后修复性极化的第一反应者,与此形成鲜明对比的是,中性粒细胞在慢性缺血性心力衰竭的病理生物学中的作用却鲜为人知。为了确定中性粒细胞在缺血性心肌病进展中的重要性,我们在永久性冠状动脉结扎和大面积心肌梗死后 8 周的慢性高频模型小鼠中测量了中性粒细胞的产生、水平和活化情况。在高频小鼠中,中性粒细胞在衰竭心肌局部(更多位于边缘区)和全身血液、脾脏和骨髓中都更为丰富,同时骨髓造粒也有所增加。中性粒细胞在高房颤动中的募集和迁移刺激增加,中性粒细胞趋化因子CXCL1和CXCL5在心肌中的表达增加,循环中的中性粒细胞趋化因子增加。高频中性粒细胞NETotic活性在体外增加,而循环中性粒细胞胞外捕获物(NETs)在体内协调增加。通过抗体或遗传学方法清除中性粒细胞,可抑制高频中期和晚期左心室重塑和纤维化的进展。此外,与小鼠高房颤动类似,人类急性失代偿期高房颤动的血浆环境也强烈促进了中性粒细胞的迁移。总之,这些结果支持了中性粒细胞及其相关细胞毒性产物在缺血性心肌病中的关键组织损伤作用,并表明中性粒细胞是治疗这种疾病的潜在免疫调节靶点。
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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Neutrophils are indispensable for adverse cardiac remodeling in heart failure

Persistent immune activation contributes significantly to left ventricular (LV) dysfunction and adverse remodeling in heart failure (HF). In contrast to their well-known essential role in acute myocardial infarction (MI) as first responders that clear dead cells and facilitate subsequent reparative macrophage polarization, the role of neutrophils in the pathobiology of chronic ischemic HF is poorly defined. To determine the importance of neutrophils in the progression of ischemic cardiomyopathy, we measured their production, levels, and activation in a mouse model of chronic HF 8 weeks after permanent coronary artery ligation and large MI. In HF mice, neutrophils were more abundant both locally in failing myocardium (more in the border zone) and systemically in the blood, spleen, and bone marrow, together with increased BM granulopoiesis. There were heightened stimuli for neutrophil recruitment and trafficking in HF, with increased myocardial expression of the neutrophil chemoattract chemokines CXCL1 and CXCL5, and increased neutrophil chemotactic factors in the circulation. HF neutrophil NETotic activity was increased in vitro with coordinate increases in circulating neutrophil extracellular traps (NETs) in vivo. Neutrophil depletion with either antibody-based or genetic approaches abrogated the progression of LV remodeling and fibrosis at both intermediate and late stages of HF. Moreover, analogous to murine HF, the plasma milieu in human acute decompensated HF strongly promoted neutrophil trafficking. Collectively, these results support a key tissue-injurious role for neutrophils and their associated cytotoxic products in ischemic cardiomyopathy and suggest that neutrophils are potential targets for therapeutic immunomodulation in this disease.

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来源期刊
CiteScore
10.70
自引率
0.00%
发文量
171
审稿时长
42 days
期刊介绍: The Journal of Molecular and Cellular Cardiology publishes work advancing knowledge of the mechanisms responsible for both normal and diseased cardiovascular function. To this end papers are published in all relevant areas. These include (but are not limited to): structural biology; genetics; proteomics; morphology; stem cells; molecular biology; metabolism; biophysics; bioengineering; computational modeling and systems analysis; electrophysiology; pharmacology and physiology. Papers are encouraged with both basic and translational approaches. The journal is directed not only to basic scientists but also to clinical cardiologists who wish to follow the rapidly advancing frontiers of basic knowledge of the heart and circulation.
期刊最新文献
Editorial Board PERM1 regulates mitochondrial energetics through O-GlcNAcylation in the heart Corrigendum to "PGE2 protects against heart failure through inhibiting TGF-β1 synthesis in cardiomyocytes and crosstalk between TGF-β1 and GRK2" [Journal of Molecular and Cellular Cardiology. 172(2022) 63-77]. Retraction notice to “The novel antibody fusion protein rhNRG1-HER3i promotes heart regeneration by enhancing NRG1-ERBB4 signaling pathway” [Journal of Molecular and Cellular Cardiology 187 (2023) 26–37] Exercise training attenuates cardiac dysfunction induced by excessive sympathetic activation through an AMPK-KLF4-FMO2 axis
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