METTL3-Mediated N 6 -Methyladenosine mRNA Modification and cGAS-STING Pathway Activity in Kidney Fibrosis.

IF 10.3 1区医学 Q1 UROLOGY & NEPHROLOGY Journal of The American Society of Nephrology Pub Date : 2024-10-01 Epub Date: 2024-06-10 DOI:10.1681/ASN.0000000000000428

Yu-Cheng Tsai, Tsung-Han Hsieh, Yuan-Ru Liao, Ming-Tsun Tsai, Tzu-Ping Lin, Der-Yen Lee, Jihwan Park, Donggun Kim, Katalin Susztak, Shang-Feng Yang, Chih-Ching Lin, Szu-Yuan Li

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Abstract

Background: Chemical modifications on RNA profoundly affect RNA function and regulation. m6A, the most abundant RNA modification in eukaryotes, plays a pivotal role in diverse cellular processes and disease mechanisms. However, its importance is understudied in human CKD samples regarding its influence on pathological mechanisms.

Methods: Liquid chromatography–tandem mass spectrometry and methylated RNA immunoprecipitation sequencing were used to examine alterations in m6A levels and patterns in CKD samples. Overexpression of the m6A writer METTL3 in cultured kidney tubular cells was performed to confirm the effect of m6A in tubular cells and explore the biological functions of m6A modification on target genes. In addition, tubule-specific deletion of Mettl3 (Ksp-Cre Mettl3f/f) mice and antisense oligonucleotides inhibiting Mettl3 expression were used to reduce m6A modification in an animal kidney disease model.

Results: By examining 127 human CKD samples, we observed a significant increase in m6A modification and METTL3 expression in diseased kidneys. Epitranscriptomic analysis unveiled an enrichment of m6A modifications in transcripts associated with the activation of inflammatory signaling pathways, particularly the cyclic guanosine monophosphate–AMP synthase (cGAS)-stimulator of IFN genes (STING) pathway. m6A hypermethylation increased mRNA stability in cGAS and STING1 as well as elevated the expression of key proteins within the cGAS-STING pathway. Both the tubule-specific deletion of Mettl3 and the use of antisense oligonucleotides to inhibit Mettl3 expression protected mice from inflammation, reduced cytokine expression, decreased immune cell recruitment, and attenuated kidney fibrosis.

Conclusions: Our research revealed heightened METTL3-mediated m6A modification in fibrotic kidneys, particularly enriching the cGAS-STING pathway. This hypermethylation increased mRNA stability for cGAS and STING1, leading to sterile inflammation and fibrosis.

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肾脏纤维化中 METTL3 介导的 N 6 -甲基腺苷 mRNA 修饰和 cGAS-STING 通路活性

背景：m6A是真核生物中最丰富的RNA修饰，在多种细胞过程和疾病机制中发挥着关键作用。然而，在人类慢性肾脏病样本中，有关其对病理机制影响的重要性研究不足：方法：采用液相色谱-串联质谱法和甲基化 RNA 免疫沉淀测序法检测 CKD 样本中 m6A 水平和模式的变化。在培养的肾小管细胞中过表达 m6A 作家 METTL3，以证实 m6A 在肾小管细胞中的作用，并探索 m6A 修饰对靶基因的生物学功能。此外，还利用肾小管特异性缺失Mettl3（Ksp-Cre Mettl3f/f）小鼠和抑制Mettl3表达的反义寡核苷酸来减少动物肾脏疾病模型中的m6A修饰：结果：通过研究 127 例人类 CKD 样本，我们观察到患病肾脏中 m6A 修饰和 METTL3 表达显著增加。表转录组学分析显示，m6A修饰在与炎症信号通路激活相关的转录本中富集，尤其是环鸟苷单磷酸-AMP合成酶（cGAS）-IFN基因刺激器（STING）通路。m6A高甲基化增加了cGAS和STING1的mRNA稳定性，并提高了cGAS-STING通路中关键蛋白质的表达。小鼠肾小管特异性缺失Mettl3和使用反义寡核苷酸抑制Mettl3的表达都能保护小鼠免受炎症、减少细胞因子的表达、减少免疫细胞的招募并减轻肾脏纤维化：我们的研究发现，在纤维化肾脏中，METTL3介导的m6A修饰增加，特别是富集了cGAS-STING通路。这种高甲基化增加了 cGAS 和 STING1 的 mRNA 稳定性，导致无菌性炎症和纤维化。

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来源期刊

Journal of The American Society of Nephrology 医学-泌尿学与肾脏学

CiteScore

22.40

自引率

2.90%

发文量

492

审稿时长

3-8 weeks

期刊介绍： The Journal of the American Society of Nephrology (JASN) stands as the preeminent kidney journal globally, offering an exceptional synthesis of cutting-edge basic research, clinical epidemiology, meta-analysis, and relevant editorial content. Representing a comprehensive resource, JASN encompasses clinical research, editorials distilling key findings, perspectives, and timely reviews. Editorials are skillfully crafted to elucidate the essential insights of the parent article, while JASN actively encourages the submission of Letters to the Editor discussing recently published articles. The reviews featured in JASN are consistently erudite and comprehensive, providing thorough coverage of respective fields. Since its inception in July 1990, JASN has been a monthly publication. JASN publishes original research reports and editorial content across a spectrum of basic and clinical science relevant to the broad discipline of nephrology. Topics covered include renal cell biology, developmental biology of the kidney, genetics of kidney disease, cell and transport physiology, hemodynamics and vascular regulation, mechanisms of blood pressure regulation, renal immunology, kidney pathology, pathophysiology of kidney diseases, nephrolithiasis, clinical nephrology (including dialysis and transplantation), and hypertension. Furthermore, articles addressing healthcare policy and care delivery issues relevant to nephrology are warmly welcomed.