单细胞 RNA 测序揭示了血脂异常诱发舒张功能障碍模型中心脏巨噬细胞的代谢应激依赖性活化。

IF 5.2 3区 工程技术 Q2 ENERGY & FUELS Energy & Fuels Pub Date : 2024-11-05 Epub Date: 2023-12-21 DOI:10.1161/CIRCULATIONAHA.122.062984
Cristina Panico, Arianna Felicetta, Paolo Kunderfranco, Marco Cremonesi, Nicolò Salvarani, Pierluigi Carullo, Federico Colombo, Alessandra Idini, Mauro Passaretti, Riccardo Doro, Marcello Rubino, Alessandro Villaschi, Giorgio Da Rin, Clelia Peano, Marinos Kallikourdis, Carolina M Greco, Gianluigi Condorelli
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引用次数: 0

摘要

背景:代谢紊乱通常与射血分数保留型心力衰竭(HFpEF)有关,是一项治疗难题。新陈代谢引起的全身炎症将合并症与 HFpEF 联系在一起。代谢变化如何影响 HFpEF 的心肌炎症尚不清楚:我们发现,以西式饮食喂养的载脂蛋白E基因敲除小鼠再现了高频心衰的许多特征。我们使用单细胞 RNA 测序分析 CD45+ 心肌细胞的表达,以评估炎症参与舒张功能障碍的情况。我们将生物信息学分析的重点放在了巨噬细胞上,获得了心脏中这些细胞亚群的高分辨率鉴定,使我们能够研究代谢紊乱对心脏巨噬细胞浸润的影响,并确定巨噬细胞到心肌细胞的调节轴。为了测试与临床相关的钠葡萄糖共转运体-2抑制剂能否改善我们模型中的心脏免疫浸润情况,我们随机让小鼠接受钠葡萄糖共转运体-2抑制剂达帕格列净或药物治疗,为期8周:结果:以西式饮食喂养的载脂蛋白E基因敲除小鼠出现舒张功能减退、运动耐受性降低、肺充血加重,这与心脏脂质过载和多不饱和脂肪酸减少有关。浸润心脏的主要免疫细胞类型包括常驻巨噬细胞和单核细胞衍生巨噬细胞的 4 个亚群,确定了载脂蛋白E基因敲除-西式饮食小鼠的促炎特征。脂质超载通过内质网应激途径直接影响巨噬细胞中炎症基因的激活。对巨噬细胞-心肌细胞调控轴的研究显示,巨噬细胞分泌的多种炎症细胞因子对心肌细胞有潜在影响,会影响肥大、纤维化和自噬等途径。最后,我们描述了钠葡萄糖共转运体-2抑制剂在该模型中的抗炎作用:利用单细胞 RNA 测序技术,我们在高脂血症驱动的舒张功能障碍模型中确定了代谢紊乱对心脏炎症细胞,尤其是巨噬细胞的影响,并建议将钠葡萄糖共转运体-2 抑制剂作为针对 HFpEF 特定表型的潜在治疗药物。
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Single-Cell RNA Sequencing Reveals Metabolic Stress-Dependent Activation of Cardiac Macrophages in a Model of Dyslipidemia-Induced Diastolic Dysfunction.

Background: Metabolic distress is often associated with heart failure with preserved ejection fraction (HFpEF) and represents a therapeutic challenge. Metabolism-induced systemic inflammation links comorbidities with HFpEF. How metabolic changes affect myocardial inflammation in the context of HFpEF is not known.

Methods: We found that ApoE knockout mice fed a Western diet recapitulate many features of HFpEF. Single-cell RNA sequencing was used for expression analysis of CD45+ cardiac cells to evaluate the involvement of inflammation in diastolic dysfunction. We focused bioinformatics analysis on macrophages, obtaining high-resolution identification of subsets of these cells in the heart, enabling us to study the outcomes of metabolic distress on the cardiac macrophage infiltrate and to identify a macrophage-to-cardiomyocyte regulatory axis. To test whether a clinically relevant sodium glucose cotransporter-2 inhibitor could ameliorate the cardiac immune infiltrate profile in our model, mice were randomized to receive the sodium glucose cotransporter-2 inhibitor dapagliflozin or vehicle for 8 weeks.

Results: ApoE knockout mice fed a Western diet presented with reduced diastolic function, reduced exercise tolerance, and increased pulmonary congestion associated with cardiac lipid overload and reduced polyunsaturated fatty acids. The main immune cell types infiltrating the heart included 4 subpopulations of resident and monocyte-derived macrophages, determining a proinflammatory profile exclusively in ApoE knockout-Western diet mice. Lipid overload had a direct effect on inflammatory gene activation in macrophages, mediated through endoplasmic reticulum stress pathways. Investigation of the macrophage-to-cardiomyocyte regulatory axis revealed the potential effects on cardiomyocytes of multiple inflammatory cytokines secreted by macrophages, affecting pathways such as hypertrophy, fibrosis, and autophagy. Finally, we describe an anti-inflammatory effect of sodium glucose cotransporter-2 inhibition in this model.

Conclusions: Using single-cell RNA sequencing in a model of diastolic dysfunction driven by hyperlipidemia, we have determined the effects of metabolic distress on cardiac inflammatory cells, in particular on macrophages, and suggest sodium glucose cotransporter-2 inhibitors as potential therapeutic agents for the targeting of a specific phenotype of HFpEF.

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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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