Long non-coding RNA FKSG29 regulates oxidative stress and endothelial dysfunction in obstructive sleep apnea.

IF 3.5 2区 生物学 Q3 CELL BIOLOGY
Molecular and Cellular Biochemistry Pub Date : 2024-10-01 Epub Date: 2023-11-02 DOI:10.1007/s11010-023-04880-3
Yung-Che Chen, Po-Yuan Hsu, Mao-Chang Su, Yung-Lung Chen, Ya-Ting Chang, Chien-Hung Chin, I-Chun Lin, Yu-Mu Chen, Ting-Ya Wang, Yong-Yong Lin, Chiu-Ping Lee, Meng-Chih Lin, Chang-Chun Hsiao
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引用次数: 0

Abstract

Altered expressions of pro-/anti-oxidant genes are known to regulate the pathophysiology of obstructive sleep apnea (OSA).We aim to explore the role of a novel long non-coding (lnc) RNA FKSG29 in the development of intermittent hypoxia with re-oxygenation (IHR)-induced endothelial dysfunction in OSA. Gene expression levels of key pro-/anti-oxidant genes, vasoactive genes, and the FKSG29 were measured in peripheral blood mononuclear cells from 12 subjects with primary snoring (PS) and 36 OSA patients. Human monocytic THP-1 cells and human umbilical vein endothelial cells (HUVEC) were used for gene knockout and double luciferase under IHR exposure. Gene expression levels of the FKSG29 lncRNA, NOX2, NOX5, and VEGFA genes were increased in OSA patients versus PS subjects, while SOD2 and VEGFB gene expressions were decreased. Subgroup analysis showed that gene expression of the miR-23a-3p, an endogenous competitive microRNA of the FKSG29, was decreased in sleep-disordered breathing patients with hypertension versus those without hypertension. In vitro IHR experiments showed that knock-down of the FKSG29 reversed IHR-induced ROS overt production, early apoptosis, up-regulations of the HIF1A/HIF2A/NOX2/NOX4/NOX5/VEGFA/VEGFB genes, and down-regulations of the VEGFB/SOD2 genes, while the protective effects of FKSG29 knock-down were abolished by miR-23a-3p knock-down. Dual-luciferase reporter assays confirmed that FKSG29 was a sponge of miR-23a-3p, which regulated IL6R directly. Immunofluorescence stain further demonstrated that FKSGH29 knock-down decreased IHR-induced uptake of oxidized low density lipoprotein and reversed IHR-induced IL6R/STAT3/GATA6/ICAM1/VCAM1 up-regulations. The findings indicate that the combined RNA interference may be a novel therapy for OSA-related endothelial dysfunction via regulating pro-/anti-oxidant imbalance or targeting miR-23a-IL6R-ICAM1/VCAM1 signaling.

Abstract Image

长非编码RNA FKSG29调节阻塞性睡眠呼吸暂停患者的氧化应激和内皮功能障碍。
已知促/抗氧化基因表达的改变可调节阻塞性睡眠呼吸暂停(OSA)的病理生理学。我们旨在探索一种新型长非编码(lnc)RNA FKSG29在OSA间歇性缺氧再氧合(IHR)诱导的内皮功能障碍中的作用。在12名原发性打鼾(PS)受试者和36名OSA患者的外周血单核细胞中测量了关键的促/抗氧化基因、血管活性基因和FKSG29的基因表达水平。人单核细胞THP-1细胞和人脐静脉内皮细胞(HUVEC)在IHR暴露下用于基因敲除和双荧光素酶。与PS受试者相比,OSA患者的FKSG29 lncRNA、NOX2、NOX5和VEGFA基因表达水平增加,而SOD2和VEGFB基因表达降低。亚组分析显示,与非高血压患者相比,患有高血压的睡眠呼吸障碍患者的miR-23a-3p(FKSG29的内源性竞争性微小RNA)的基因表达降低。体外IHR实验表明,FKSG29的敲除逆转了IHR诱导的ROS的显性产生、早期凋亡、HIF1A/HIF2A/NOX4/NO5/VEGFA/VEGFB基因的上调和VEGFB/SOD2基因的下调,而FKSG29敲除的保护作用被miR-23a-3p敲除所消除。双荧光素酶报告基因分析证实FKSG29是miR-23a-3p的海绵,其直接调节IL6R。免疫荧光染色进一步证明FKSGH29敲低降低了IHR诱导的氧化低密度脂蛋白的摄取,并逆转了IHR诱发的IL6R/STAT3/GATA6/ICAM1/VCAM1的上调。研究结果表明,联合RNA干扰可能是通过调节促/抗氧化失衡或靶向miR-23a-IL6R-ICAM1/VCAM1信号传导来治疗OSA相关内皮功能障碍的新方法。
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来源期刊
Molecular and Cellular Biochemistry
Molecular and Cellular Biochemistry 生物-细胞生物学
CiteScore
8.30
自引率
2.30%
发文量
293
审稿时长
1.7 months
期刊介绍: Molecular and Cellular Biochemistry: An International Journal for Chemical Biology in Health and Disease publishes original research papers and short communications in all areas of the biochemical sciences, emphasizing novel findings relevant to the biochemical basis of cellular function and disease processes, as well as the mechanics of action of hormones and chemical agents. Coverage includes membrane transport, receptor mechanism, immune response, secretory processes, and cytoskeletal function, as well as biochemical structure-function relationships in the cell. In addition to the reports of original research, the journal publishes state of the art reviews. Specific subjects covered by Molecular and Cellular Biochemistry include cellular metabolism, cellular pathophysiology, enzymology, ion transport, lipid biochemistry, membrane biochemistry, molecular biology, nuclear structure and function, and protein chemistry.
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