ZNF295-AS1 通过 ZNF295-AS1/miR-508-5p/ATG7 轴抑制动脉粥样硬化中的自噬。
ZNF295-AS1 inhibits autophagy via the ZNF295-AS1/miR-508-5p/ATG7 axis in AS.
机构信息
Department of Vascular Medicine, Guangxi Zhuang Autonomous Region People's Hospital, Qingxiu District, Nanning, China.
出版信息
Eur Rev Med Pharmacol Sci. 2020 Jun;24(12):7024-7032. doi: 10.26355/eurrev_202006_21695.
OBJECTIVE
As a result of gene-environment interactions, the incidence of atherosclerosis (AS) is rapidly increasing worldwide. Autophagy in endothelial cells is a key process of AS and is difficult to control when it becomes excessive in the end stage of AS.
MATERIALS AND METHODS
In this study, we found increased expression levels of ZNF295-AS1 in the serum of AS patients, as well as in ox-LDL-treated HUVECs. The autophagy level was also upregulated in both samples. We demonstrated that ZNF295-AS1 may interact directly with miR-508-5p to act as a miR-508-5p sponge. The negative relationship between ZNF295-AS1 and miR-508-5p indicated that ZNF295-AS1 may be an upstream suppressor of miR-508-5p.
RESULTS
ATG7 plays a critical role in autophagy and was predicted to be a target of miR-508-5p. Therefore, we overexpressed miR-508-5p, which reduced the expression level of ATG7, enhanced cell proliferation and prevented autophagy. These data indicated that the ZNF295-AS1/miR-508-5p/ATG7 axis may participate in autophagy regulation in ox-LDL-treated HUVECs. The subsequent rescue experiments revealed the specificity of the ZNF295-AS1/miR-508-5p/ATG7 axis in the contribution of ZNF295-AS1 to autophagy.
CONCLUSIONS
Overall, our findings demonstrate a novel mechanism by which ZNF295-AS1 silencing regulates ATG7 reduction and inhibits autophagy, which may delay the progression of AS. The ZNF295-AS1/miR-508-5p/ATG7 axis may be of therapeutic significance in AS.
目的
由于基因-环境相互作用,动脉粥样硬化(AS)的发病率在全球范围内迅速上升。内皮细胞自噬是 AS 的一个关键过程,当 AS 晚期自噬过度时,很难控制。
材料和方法
在这项研究中,我们发现 AS 患者血清和 ox-LDL 处理的 HUVEC 中 ZNF295-AS1 的表达水平升高。这两种样本中的自噬水平也上调。我们证明 ZNF295-AS1 可能与 miR-508-5p 直接相互作用,充当 miR-508-5p 的海绵。ZNF295-AS1 与 miR-508-5p 之间的负相关关系表明,ZNF295-AS1 可能是 miR-508-5p 的上游抑制物。
结果
ATG7 在自噬中起关键作用,并且被预测为 miR-508-5p 的靶标。因此,我们过表达了 miR-508-5p,这降低了 ATG7 的表达水平,增强了细胞增殖并阻止了自噬。这些数据表明,ZNF295-AS1/miR-508-5p/ATG7 轴可能参与 ox-LDL 处理的 HUVEC 中的自噬调节。随后的挽救实验揭示了 ZNF295-AS1/miR-508-5p/ATG7 轴在 ZNF295-AS1 对自噬的贡献中的特异性。
结论
总的来说,我们的研究结果表明,沉默 ZNF295-AS1 调节 ATG7 减少并抑制自噬的新机制可能会延缓 AS 的进展。ZNF295-AS1/miR-508-5p/ATG7 轴在 AS 中可能具有治疗意义。
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