Extracellular MicroRNA-92a Mediates Endothelial Cell-Macrophage Communication.

Arteriosclerosis, Thrombosis, & Vascular Biology Pub Date : 2019-12-01 DOI:10.1161/ATVBAHA.119.312707

Ya-ju Chang, Yi-Shuan J. Li, Chia-Ching Wu, Kuei‐Chun Wang, Tzu-chieh Huang, Z. Chen, S. Chien

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引用次数: 57

Abstract

OBJECTIVE Understanding message delivery among vascular cells is essential for deciphering the intercellular communicatios in cardiovascular diseases. MicroRNA (miR)-92a is enriched in endothelial cells (ECs) and circulation under atheroprone conditions. Macrophages are the primary immune cells in atherosclerotic lesions that modulate lesion development. Therefore, we hypothesize that, in response to atheroprone stimuli, ECs export miR-92a to macrophages to regulate their functions and enhance atherosclerotic progression. Approach and Results: We investigated the macrophage functions that are regulated by EC miR-92a under atheroprone microenvironments. We first determined the distributions of functional extracellular miR-92a by fractionating the intravesicular and extravesicular compartments from endothelial conditioned media and mice serum. The results indicate that extracellular vesicles are the primary vehicles for EC miR-92a transportation. Overexpression of miR-92a in ECs enhanced the proinflammatory responses and low-density lipoprotein uptake, while impaired the migration, of cocultured macrophage. Opposite effects were found in macrophages cocultured with ECs with miR-92a knockdown. Further analyses demonstrated that intravesicular miR-92a suppressed the expression of target gene Krüppel-like factor 4 (KLF4) in macrophages, suggesting a mechanism by which intravesicular miR-92a regulates recipient cell functions. Indeed, the overexpression of KLF4 rescued the EC miR-92a-induced macrophage atheroprone phenotypes. Furthermore, an inverse correlation of intravesicular miR-92a in blood serum and KLF4 expression in lesions was observed in atherosclerotic animals, indicating the potential function of extracellular miR-92a in regulating vascular diseases. CONCLUSIONS EC miR-92a can be transported to macrophages through extracellular vesicles to regulate KLF4 levels, thus leading to the atheroprone phenotypes of macrophage and, hence, atherosclerotic lesion formation.

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细胞外MicroRNA-92a介导内皮细胞-巨噬细胞通讯。

目的:了解血管细胞间的信息传递对于解读心血管疾病的细胞间通讯至关重要。在动脉粥样硬化条件下，MicroRNA (miR)-92a在内皮细胞(ECs)和循环中富集。巨噬细胞是动脉粥样硬化病变中调节病变发展的主要免疫细胞。因此，我们假设，作为对动脉粥样硬化酮刺激的反应，内皮细胞将miR-92a输出到巨噬细胞，以调节巨噬细胞的功能并促进动脉粥样硬化的进展。方法和结果:我们研究了在动脉粥样硬化微环境下EC miR-92a调控的巨噬细胞功能。我们首先通过从内皮条件培养基和小鼠血清中分离泡内和泡外腔室来确定功能性细胞外miR-92a的分布。结果表明，细胞外囊泡是EC miR-92a运输的主要载体。在ECs中过表达miR-92a增强了共培养巨噬细胞的促炎反应和低密度脂蛋白摄取，同时损害了巨噬细胞的迁移。在与miR-92a敲低的内皮细胞共培养的巨噬细胞中发现相反的效果。进一步分析表明，囊泡内miR-92a抑制巨噬细胞中靶基因kr样因子4 (KLF4)的表达，提示囊泡内miR-92a调节受体细胞功能的机制。事实上，KLF4的过表达挽救了EC mir -92a诱导的巨噬细胞动脉粥样硬化表型。此外，在动脉粥样硬化动物中观察到血清囊内miR-92a与病变中KLF4表达呈负相关，表明细胞外miR-92a在调节血管疾病中的潜在功能。结论sec miR-92a可通过细胞外囊泡转运至巨噬细胞，调节KLF4水平，从而导致巨噬细胞的动脉粥样硬化表型，从而形成动脉粥样硬化病变。

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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Arteriosclerosis, Thrombosis, & Vascular Biology

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