长链非编码RNA生长停滞特异性5通过IGF2BP1/SIX1轴促进葡萄糖代谢重编程，并通过miR-23a-3p/SLC7A11轴抑制冠心病中内皮祖细胞的铁死亡。

LncRNA Growth Arrest Specific 5 Promotes Glucose Metabolism Reprogramming Via the IGF2BP1/SIX1 Axis and Inhibits Ferroptosis of Endothelial Progenitor Cells Via the miR-23a-3p/SLC7A11 Axis in Coronary Heart Disease.

作者信息

Zhong Ming, Xu Wenxia, Tang Biao, Zhao Qiang, Jiang Zenan, Liu Yinfeng

机构信息

Department of Cardiology, Heart Center, Zhujiang Hospital of Southern Medical University, Guangzhou, Guangdong, China; Department of Cardiology, Jinhua Municipal General Hospital, Jinhua, Zhejiang, China.

Central Laboratory, Jinhua Municipal General Hospital, Jinhua, Zhejiang, China.

出版信息

Anatol J Cardiol. 2025 Mar 10;29(4):181-92. doi: 10.14744/AnatolJCardiol.2025.5042.

DOI:10.14744/AnatolJCardiol.2025.5042

PMID:40062373

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11965950/

Abstract

BACKGROUND

Growth arrest specific 5 (GAS5) is a long noncoding RNA (lncRNA) that regulates the function of cardiovascular cells in various cardiovascular diseases. The current study delved into the regulation of GAS5 on the function of endothelial progenitor cells (EPCs) and its potential regulatory mechanism in coronary heart disease (CHD).

METHODS

Reverse transcription-quantitative polymerase chain reaction was used to detect GAS5 expression in the blood samples and EPCs from CHD patients and healthy controls. Cell Counting Kit-8, colony formation, flow cytometry, and transwell assays were performed to evaluate cell phenotype of EPCs. Ferroptosis was detected by the measurement of Fe2+, malondialdehyde, GSH, and reactive oxygen species (ROS) levels. Glycolysis was determined by extracellular acidification rate (ECAR), oxygen consumption rate (OCR), glucose uptake and lactate production.

RESULTS

Growth arrest specific 5 was downregulated in the blood samples and EPCs from CHD patients. Growth arrest specific 5 deficiency suppressed EPC proliferative capacity, migration, invasion and facilitated EPC apoptosis while GAS5 overexpression showed contrary effects. Moreover, GAS5 silencing inhibited the glucose metabolic reprogramming, as evidenced by the reduced ECAR, glycolysis capacity, ATP, glucose uptake and lactate production, and elevated OCR. Additionally, GAS5 overexpression attenuated the erastin-induced ferroptosis of EPCs. Growth arrest specific 5 could bind to IGF2BP1 to enhance the mRNA stability of glycolysis transcriptional regulator SIX1. Growth arrest specific 5 interacted with miR-23a-3p to regulate SLC7A11 expression. GAS5 promoted glucose metabolic reprogramming of EPCs by upregulating SIX1 and inhibited EPC ferroptosis by elevating SLC7A11.

CONCLUSION

Growth arrest specific 5 promotes glucose metabolic reprogramming and represses ferroptosis of EPCs via the IGF2BP1/SIX1 and miR-23a-3p/SLC7A11 dual-regulatory pathways in CHD.

摘要

背景

生长停滞特异性5（GAS5）是一种长链非编码RNA（lncRNA），在多种心血管疾病中调节心血管细胞的功能。本研究深入探讨了GAS5对内皮祖细胞（EPCs）功能的调节及其在冠心病（CHD）中的潜在调控机制。

方法

采用逆转录定量聚合酶链反应检测冠心病患者和健康对照者血液样本及EPCs中GAS5的表达。进行细胞计数试剂盒-8、集落形成、流式细胞术和transwell实验以评估EPCs的细胞表型。通过测量Fe2+、丙二醛、谷胱甘肽和活性氧（ROS）水平来检测铁死亡。通过细胞外酸化率（ECAR）、耗氧率（OCR）、葡萄糖摄取和乳酸生成来测定糖酵解。

结果

冠心病患者血液样本和EPCs中生长停滞特异性5表达下调。生长停滞特异性5缺陷抑制了EPCs的增殖能力、迁移、侵袭并促进了EPCs凋亡，而GAS5过表达则表现出相反的作用。此外，GAS5沉默抑制了葡萄糖代谢重编程，表现为ECAR、糖酵解能力、ATP、葡萄糖摄取和乳酸生成降低以及OCR升高。此外，GAS5过表达减轻了埃拉斯汀诱导的EPCs铁死亡。生长停滞特异性5可与IGF2BP1结合以增强糖酵解转录调节因子SIX1的mRNA稳定性。生长停滞特异性5与miR-23a-3p相互作用以调节SLC7A11表达。GAS5通过上调SIX1促进EPCs的葡萄糖代谢重编程，并通过升高SLC7A11抑制EPCs铁死亡。

结论

在冠心病中，生长停滞特异性5通过IGF2BP1/SIX1和miR-23a-3p/SLC7A11双调节途径促进EPCs的葡萄糖代谢重编程并抑制铁死亡。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7f38/11965950/55eacc114306/ajc-29-4-181_f001.jpg

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长链非编码RNA生长停滞特异性5通过IGF2BP1/SIX1轴促进葡萄糖代谢重编程，并通过miR-23a-3p/SLC7A11轴抑制冠心病中内皮祖细胞的铁死亡。

LncRNA Growth Arrest Specific 5 Promotes Glucose Metabolism Reprogramming Via the IGF2BP1/SIX1 Axis and Inhibits Ferroptosis of Endothelial Progenitor Cells Via the miR-23a-3p/SLC7A11 Axis in Coronary Heart Disease.

作者信息

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出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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