Circ-ATL1沉默通过吸附miR-455逆转了SIRT5对颅内动脉瘤平滑肌细胞增殖、迁移和收缩的激活作用。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Jichong Xu, Chun Fang
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引用次数: 2

摘要

背景:血管平滑肌细胞(VSMCs)的改变与颅内动脉瘤(IAs)的发病机制有关。然而,这些变化背后的分子机制尚不清楚。本研究旨在描述vsmc介导的IAs的分子机制。方法:采用RT-qPCR检测环状RNA circ-ATL1和microRNA miR-455在IAs中的表达。通过荧光素酶报告基因分析和RT-qPCR检测circ-ATL1、miR-455和SIRT5之间的相互作用。通过CCK8、Transwell®迁移和western blot检测circ-ATL1、miR-455和SIRT5在VSMC迁移、增殖和表型调节中的调节作用。结果:使用生化和生物信息学技术证明circ-ATL1和miR-455参与了与动脉瘤形成相关的不同生物过程。在临床上,与健康受试者相比,IA患者中circ-ATL1表达升高,miR-455表达下调。circ-ATL1的沉默抑制了VSMC的迁移、增殖和表型调节。SIRT5和miR-455都被发现是circ-ATL1的下游靶点。SIRT5上调或miR-455抑制逆转了circ-ATL1沉默诱导的对VSMC增殖、迁移和表型调节的抑制作用。我们发现circ-ATL1上调和miR-455下调的VSMC表型调节在AIs的发生和形成中起着关键作用。具体来说,circ-ATL1下调可逆转IA的形成。结论:我们的数据为进一步研究IAs的潜在临床治疗和预防提供了理论依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Circ-ATL1 silencing reverses the activation effects of SIRT5 on smooth muscle cellular proliferation, migration and contractility in intracranial aneurysm by adsorbing miR-455.

Circ-ATL1 silencing reverses the activation effects of SIRT5 on smooth muscle cellular proliferation, migration and contractility in intracranial aneurysm by adsorbing miR-455.

Circ-ATL1 silencing reverses the activation effects of SIRT5 on smooth muscle cellular proliferation, migration and contractility in intracranial aneurysm by adsorbing miR-455.

Circ-ATL1 silencing reverses the activation effects of SIRT5 on smooth muscle cellular proliferation, migration and contractility in intracranial aneurysm by adsorbing miR-455.

Background: Alterations in vascular smooth muscle cells (VSMCs) contribute to the pathogenesis of intracranial aneurysms (IAs). However, molecular mechanisms underlying these changes remain unknown. The present study aimed to characterize the molecular mechanisms underlying VSMC-mediated IAs.

Methods: Expression of the circular RNA circ-ATL1 and microRNA miR-455 was detected in IAs by RT-qPCR. Interactions between circ-ATL1, miR-455 and SIRT5 were examined by luciferase reporter analysis and RT-qPCR. The regulatory roles of circ-ATL1, miR-455 and SIRT5 in VSMC migration, proliferation and phenotypic modulation were also examined by CCK8, Transwell® migration and western blot assays.

Results: Biochemical and bioinformatic techniques were used to demonstrate that circ-ATL1 and miR-455 participated in disparate biological processes relevant to aneurysm formation. Clinically, increased expression of circ-ATL1 and downregulated miR-455 expression were observed in IA patients compared with healthy subjects. Silencing of circ-ATL1 led to suppression of VSMC migration, proliferation and phenotypic modulation. Both SIRT5 and miR-455 were found to be downstream targets of circ-ATL1. SIRT5 upregulation or miR-455 inhibition reversed the inhibitory effects induced by circ-ATL1 silencing on VSMC proliferation, migration and phenotypic modulation. We found that VSMC phenotypic modulation by circ-ATL1 upregulation and miR-455 downregulation had a critical role in the development and formation of AIs. Specifically, circ-ATL1 downregulation reversed IA formation.

Conclusion: Our data provide the theoretical basis for future studies on potential clinical treatment and prevention of IAs.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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