ALKBH5 介导的 m6A 去甲基化调控脂多糖诱导的脓毒症急性肾损伤上皮-间质转化的分子机制

Hai‐Hong Zhao, Chun‐Ling Chen, Fen‐Fang Chen, Lu‐Lu Zhang, Mei‐Mei Li, Ze‐Bao He
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摘要

本研究探讨了m6A去甲基化酶ALKBH5在脓毒症相关急性肾损伤(SA-AKI)和AKI-慢性肾病(CKD)转化过程中介导上皮-间质转化(EMT)的机制。用脂多糖(LPS)刺激 HK-2 细胞,建立 SA-AKI 体外模型。通过转染 si-ALKBH5 降低了 ALKBH5 的表达。通过 CCK-8 检测法、TUNEL 染色法和 Transwell 法检测细胞活力、凋亡和迁移。TNF-α、IL-1β和IL-6的水平通过酶联免疫吸附试验检测。实时定量聚合酶链反应或 Western 印迹法检测了 ALKBH5、miR-205-5p、DDX5、E-cadherin 和 α-SMA 的表达。对 m6A 水平进行了定量分析。通过 RNA 免疫沉淀法检测了与 DGCR8 结合的 pri-miR-205 和干预 ALKBH5 表达后 m6A 修饰的 pri-miR-205 的表达。双荧光素酶检测证实了 miR-205-5p 与 DDX5 的结合。ALKBH5 在 LPS 诱导的 HK-2 细胞中高表达。抑制 ALKBH5 可提高细胞活力、抑制细胞凋亡并减少 EMT。抑制 ALKBH5 会增加 m6A 修饰水平,从而促进 DGCR8 与 pri-miR-205 结合,增加 miR-205-5p 的表达,最终靶向 DDX5 的表达。低表达 miR-205-5p 或过表达 DDX5 可部分消除 ALKBH5 沉默对 EMT 的抑制作用。总之,ALKBH5通过去除m6A修饰抑制miR-205-5p的表达,从而上调DDX5的表达,从而促进SA-AKI后的EMT和AKI-CKD转变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Molecular mechanism of ALKBH5‐mediated m6A demethylation regulating lipopolysaccharide‐induced epithelial–mesenchymal transition in sepsis‐induced acute kidney injury
This study explored the mechanism by which the m6A demethylase ALKBH5 mediates epithelial–mesenchymal transition (EMT) in sepsis‐associated acute kidney injury (SA‐AKI) and AKI‐chronic kidney disease (CKD) transition. HK‐2 cells were stimulated with lipopolysaccharide (LPS) to establish an in vitro model of SA‐AKI. ALKBH5 expression was reduced through the transfection of si‐ALKBH5. Cell viability, apoptosis, and migration were detected by CCK‐8 assay, TUNEL staining, and Transwell. The levels of TNF‐α, IL‐1β, and IL‐6 were measured by enzyme‐linked immunosorbent assay. Quantitative real‐time polymerase chain reaction or Western blotting was performed to determine the expressions of ALKBH5, miR‐205‐5p, DDX5, E‐cadherin, and α‐SMA. The m6A level was quantitatively analyzed. The expression of pri‐miR‐205 bound to DGCR8 and m6A‐modified pri‐miR‐205 after intervention with ALKBH5 expression was detected by RNA immunoprecipitation. A dual‐luciferase assay confirmed the binding between miR‐205‐5p and DDX5. ALKBH5 was highly expressed in LPS‐induced HK‐2 cells. Inhibition of ALKBH5 increased cell viability, repressed apoptosis, and reduced EMT. Inhibition of ALKBH5 increased the m6A modification level, thereby promoting DGCR8 binding to pri‐miR‐205 to increase miR‐205‐5p expression and eventually targeting DDX5 expression. Low expression of miR‐205‐5p or overexpression of DDX5 partially abolished the inhibitory effect of ALKBH5 silencing on EMT. In conclusion, ALKBH5 represses miR‐205‐5p expression by removing m6A modification to upregulate DDX5 expression, thereby promoting EMT and AKI‐CKD transition after SA‐AKI.
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