MALAT1 promotes platelet activity and thrombus formation through PI3k/Akt/GSK-3β signalling pathway.

IF 4.4 1区医学 Q1 CLINICAL NEUROLOGY

Stroke and Vascular Neurology Pub Date : 2023-06-01 DOI:10.1136/svn-2022-001498

Yeying Sun, Tao Wang, Yan Lv, Jiahua Li, Xiaoli Jiang, Jing Jiang, Daolai Zhang, Weihua Bian, Chunxiang Zhang

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引用次数: 2

Abstract

Background: Ischaemic stroke and other cardiovascular illnesses are characterised by abnormalities in the processes of thrombosis and haemostasis, which rely on platelet activity. In platelets, a wide variety of microRNAs (long non-coding RNA, lncRNAs) is found. Due to the absence of nuclear DNA in platelets, lncRNAs may serve as critical post-transcriptional regulators of platelet activities. However, research into the roles of lncRNAs in platelets is limited.

Objective: The purpose of this study is to learn more about the molecular mechanism by which MALAT1 affects platelet activity and thrombus formation.

Methods/results: The CD34⁺ megakaryocytes used in this research as an in vitro model for human megakaryocytes and platelets. Cell adhesion and spreading are enhanced in the absence and presence of agonists in CD34⁺ megakaryocytes subjected to MALAT1 knockdown (KD). The adhesion and activity of platelet-like particles produced by MALAT1 KD cells are significantly enhanced at rest and after thrombin activation. Thrombus development on a collagen matrix is also greatly enhanced in the microfluidic whole-blood perfusion model: platelets lacking MALAT1 exhibit elevated accumulation, distributing area and activity. In addition, MALAT1-deficient mice bleed less and form a stable occlusive thrombus more quickly than wild-type mice. PTEN and PDK1 regulated the activity of MALAT1 in platelets to carry out its PI3k/Akt/GSK-3β signalling pathway-related function.

Conclusion: The suppression of MALAT1 expression significantly increases platelet adhesion, spreading, platelet activity, and thrombus formation. lncRNAs may constitute a unique class of platelet function modulators.

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MALAT1通过PI3k/Akt/GSK-3β信号通路促进血小板活性和血栓形成。

背景:缺血性卒中和其他心血管疾病的特点是血栓形成和止血过程异常，这依赖于血小板活性。在血小板中，发现了各种各样的microrna(长链非编码RNA, lncrna)。由于血小板中缺乏核DNA, lncrna可能作为血小板活性的关键转录后调节因子。然而，lncrna在血小板中的作用的研究是有限的。目的:进一步了解MALAT1影响血小板活性和血栓形成的分子机制。方法/结果:本研究中使用的CD34+巨核细胞作为人巨核细胞和血小板的体外模型。在MALAT1敲低(KD)的CD34+巨核细胞中，细胞粘附和扩散在没有和存在激动剂的情况下增强。在静息和凝血酶激活后，MALAT1 KD细胞产生的血小板样颗粒的粘附性和活性显著增强。在微流控全血灌注模型中，胶原基质上的血栓形成也大大增强:缺乏MALAT1的血小板积聚、分布面积和活性升高。此外，malat1缺陷小鼠比野生型小鼠出血更少，形成稳定的闭塞血栓的速度更快。PTEN和PDK1调节血小板中MALAT1的活性，以实现其PI3k/Akt/GSK-3β信号通路相关功能。结论:抑制MALAT1表达可显著增加血小板粘附、扩散、血小板活性和血栓形成。lncrna可能构成一类独特的血小板功能调节剂。

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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来源期刊

Stroke and Vascular Neurology Medicine-Cardiology and Cardiovascular Medicine

CiteScore

11.20

自引率

1.70%

发文量

审稿时长

15 weeks

期刊介绍： Stroke and Vascular Neurology (SVN) is the official journal of the Chinese Stroke Association. Supported by a team of renowned Editors, and fully Open Access, the journal encourages debate on controversial techniques, issues on health policy and social medicine.