Endothelial miR-34a deletion guards against aneurysm development despite endothelial dysfunction

Anna Grochot-Przeczek, Aleksandra Kopacz, Damian Kloska, Anna Bar, Marta Targosz-Korecka, Dominik Cysewski, Stefan Chlopicki, Alicja Jozkowicz
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Abstract

Objective: Our previous study reported a reciprocal link between NRF2, a stress-responsive cytoprotective transcription factor, and aortic and endothelial cell (EC) ageing. We also found that NRF2 transcriptional knockout (tKO) mice are prone to abdominal aortic aneurysm (AAA) development. Given that miRNA-34a is a marker of ageing, in this study we explored its relationship with NRF2 and its role in vascular function and AAA formation. Approach and Results: The experiments were performed in primary human aortic endothelial cells (HAECs) from young and aged donors and mice devoid of NRF2 transcriptional activity and endothelial miR-34a. The normolipidemic mice were challenged with angiotensin II (Ang II) to develop AAA. We show that premature NRF2-dependent aging of aortic endothelial cells (ECs) depends on miR-34a. Infusion of hypertensive Ang II in mice increases miR-34a in the aortic endothelial layer and serum, especially in mice which develop AAA. Mice deficient in endothelial miR-34a (miR-34a?EC) display severe EC dysfunction. Despite that, such mice are protected from AAA development, also on the NRF2 tKO background. Ang II infusion increases proliferation of intimal ECs in these mice. The protective effect of endothelial miR-34a deletion on AAA formation is reversed by rapamycin that suppresses EC proliferation. MTA2, but not SIRT1, is a direct target of miR-34a abrogating Ang II-induced EC proliferation. Conclusion: These findings reveal that AAA development in NRF2 tKO mice relies on endothelial miR-34a overexpression. Deletion of endothelial miR-34a protects mice from AAA despite inducing endothelial cell dysfunction. The fine-tuning of EC proliferation may play a therapeutic role in the treatment of aneurysm.
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尽管内皮功能障碍,但内皮 miR-34a 缺失可防止动脉瘤发展
研究目的我们之前的研究报告了应激反应性细胞保护转录因子 NRF2 与主动脉和内皮细胞(EC)老化之间的相互联系。我们还发现,NRF2转录敲除(tKO)小鼠易患腹主动脉瘤(AAA)。鉴于 miRNA-34a 是老化的标志物,我们在本研究中探讨了它与 NRF2 的关系及其在血管功能和 AAA 形成中的作用:实验在来自年轻和衰老供体的原代人主动脉内皮细胞(HAECs)以及缺乏 NRF2 转录活性和内皮 miR-34a 的小鼠中进行。正常血脂的小鼠接受血管紧张素 II(Ang II)的挑战,从而患上 AAA。我们的研究表明,NRF2依赖性的主动脉内皮细胞(ECs)过早老化取决于miR-34a。给小鼠注射高血压血管紧张素 II 会增加主动脉内皮层和血清中的 miR-34a,尤其是在发生 AAA 的小鼠中。内皮 miR-34a 缺乏的小鼠(miR-34a?EC)显示出严重的内皮细胞功能障碍。尽管如此,在 NRF2 tKO 的背景下,这种小鼠仍能防止 AAA 的发生。Ang II输注会增加这些小鼠内膜EC的增殖。内皮 miR-34a 缺失对 AAA 形成的保护作用会被抑制 EC 增殖的雷帕霉素逆转。MTA2 而不是 SIRT1 是 miR-34a 的直接靶标,可抑制 Ang II 诱导的心肌增殖。结论这些发现揭示了 NRF2 tKO 小鼠 AAA 的发生依赖于内皮 miR-34a 的过度表达。删除内皮 miR-34a 可保护小鼠免于 AAA,尽管会诱发内皮细胞功能障碍。对内皮细胞增殖的微调可能在动脉瘤的治疗中发挥治疗作用。
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