Novel Long Noncoding RNA HEAT4 Affects Monocyte Subtypes, Reducing Inflammation and Promoting Vascular Healing.

IF 5.2 3区 工程技术 Q2 ENERGY & FUELS
Energy & Fuels Pub Date : 2024-10-01 Epub Date: 2024-07-15 DOI:10.1161/CIRCULATIONAHA.124.069315
Jasmin M Kneuer, Ignacy A Grajek, Melanie Winkler, Stephan Erbe, Tim Meinecke, Ronald Weiss, Tania Garfias-Veitl, Bilal N Sheikh, Ann-Christine König, Maximilian N Möbius-Winkler, Alexander Kogel, Karl-Patrik Kresoja, Sebastian Rosch, Karoline E Kokot, Vanina Filipova, Susanne Gaul, Holger Thiele, Philipp Lurz, Stephan von Haehling, Thimoteus Speer, Ulrich Laufs, Jes-Niels Boeckel
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引用次数: 0

Abstract

Background: Activation of the immune system contributes to cardiovascular diseases. The role of human-specific long noncoding RNAs in cardioimmunology is poorly understood.

Methods: Single-cell sequencing in peripheral blood mononuclear cells revealed a novel human-specific long noncoding RNA called HEAT4 (heart failure-associated transcript 4). HEAT4 expression was assessed in several in vitro and ex vivo models of immune cell activation, as well as in the blood of patients with heart failure (HF), acute myocardial infarction, or cardiogenic shock. The transcriptional regulation of HEAT4 was verified through cytokine treatment and single-cell sequencing. Loss-of-function and gain-of-function studies and multiple RNA-protein interaction assays uncovered a mechanistic role of HEAT4 in the monocyte anti-inflammatory gene program. HEAT4 expression and function was characterized in a vascular injury model in NOD.CB17-Prkdc scid/Rj mice.

Results: HEAT4 expression was increased in the blood of patients with HF, acute myocardial infarction, or cardiogenic shock. HEAT4 levels distinguished patients with HF from people without HF and predicted all-cause mortality in a cohort of patients with HF over 7 years of follow-up. Monocytes, particularly anti-inflammatory CD16+ monocytes, which are increased in patients with HF, are the primary source of HEAT4 expression in the blood. HEAT4 is transcriptionally activated by treatment with anti-inflammatory interleukin-10. HEAT4 activates anti-inflammatory and inhibits proinflammatory gene expression. Increased HEAT4 levels result in a shift toward more CD16+ monocytes. HEAT4 binds to S100A9, causing a monocyte subtype switch, thereby reducing inflammation. As a result, HEAT4 improves endothelial barrier integrity during inflammation and promotes vascular healing after injury in mice.

Conclusions: These results characterize a novel endogenous anti-inflammatory pathway that involves the conversion of monocyte subtypes into anti-inflammatory CD16+ monocytes. The data identify a novel function for the class of long noncoding RNAs by preventing protein secretion and suggest long noncoding RNAs as potential targets for interventions in the field of cardioimmunology.

新型长非编码 RNA HEAT4 可影响单核细胞亚型、减轻炎症反应并促进血管愈合
背景:免疫系统的激活会导致心血管疾病。人们对人类特异性长非编码 RNA 在心血管免疫学中的作用知之甚少:方法:外周血单核细胞的单细胞测序发现了一种名为 HEAT4(心衰相关转录本 4)的新型人类特异性长非编码 RNA。在几种体外和体内免疫细胞活化模型中,以及在心力衰竭(HF)、急性心肌梗死或心源性休克患者的血液中,对 HEAT4 的表达进行了评估。通过细胞因子处理和单细胞测序验证了 HEAT4 的转录调控。功能缺失和功能增益研究以及多种 RNA 蛋白相互作用测定发现了 HEAT4 在单核细胞抗炎基因程序中的机制作用。HEAT4 的表达和功能在 NOD.CB17-Prkdc scid/Rj 小鼠血管损伤模型中得到了表征:结果:心房颤动、急性心肌梗死或心源性休克患者血液中 HEAT4 表达增加。HEAT4 水平可将高血压患者与非高血压患者区分开来,并可预测随访 7 年的高血压患者队列中的全因死亡率。单核细胞,尤其是抗炎的 CD16+ 单核细胞是血液中 HEAT4 表达的主要来源。抗炎性白细胞介素-10可转录激活 HEAT4。HEAT4 可激活抗炎基因并抑制促炎基因的表达。HEAT4 水平升高会导致 CD16+ 单核细胞增多。HEAT4 与 S100A9 结合,导致单核细胞亚型转换,从而减轻炎症。因此,HEAT4 可改善炎症期间内皮屏障的完整性,并促进小鼠损伤后的血管愈合:这些结果描述了一种新的内源性抗炎途径,该途径涉及将单核细胞亚型转化为抗炎的 CD16+ 单核细胞。这些数据确定了长非编码 RNA 通过阻止蛋白质分泌的一种新功能,并表明长非编码 RNA 是心脏免疫学领域潜在的干预靶点。
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来源期刊
Energy & Fuels
Energy & Fuels 工程技术-工程:化工
CiteScore
9.20
自引率
13.20%
发文量
1101
审稿时长
2.1 months
期刊介绍: Energy & Fuels publishes reports of research in the technical area defined by the intersection of the disciplines of chemistry and chemical engineering and the application domain of non-nuclear energy and fuels. This includes research directed at the formation of, exploration for, and production of fossil fuels and biomass; the properties and structure or molecular composition of both raw fuels and refined products; the chemistry involved in the processing and utilization of fuels; fuel cells and their applications; and the analytical and instrumental techniques used in investigations of the foregoing areas.
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