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N6-methyladenosine methyltransferase Wilms tumor 1-associated protein impedes diabetic wound healing through epigenetically activating DNA methyltransferase 1.

IF 4.2 3区医学 Q1 ENDOCRINOLOGY & METABOLISM

World Journal of Diabetes Pub Date : 2025-03-15 DOI:10.4239/wjd.v16.i3.102126

Ren-Jie Xiao, Tian-Jiao Wang, Dan-Yin Wu, Shui-Fa Yang, Hai Gao, Pei-Dong Gan, Yang-Yan Yi, You-Lai Zhang

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引用次数: 0

Abstract

Background: Diabetic wound injury is a significant and common complication in individuals with diabetes. N6-methyladenosine (m6A)-related epigenetic regulation is widely involved in the pathogenesis of diabetes complications. However, the function of m6A methyltransferase Wilms tumor 1-associated protein (WTAP) in diabetic wound healing remains elusive.

Aim: To investigate the potential epigenetic regulatory mechanism of WTAP during diabetic wound healing.

Methods: Human umbilical vein endothelial cells (HUVECs) were induced with high glucose (HG) to establish in vitro cell model. Male BALB/c mice were intraperitoneally injected with streptozotocin to mimic diabetes, and full-thickness excision was made to mimic diabetic wound healing. HG-induced HUVECs and mouse models were treated with WTAP siRNAs and DNA methyltransferase 1 (DNMT1) overexpression vectors. Cell viability and migration ability were detected by cell counting kit-8 and Transwell assays. In vitro angiogenesis was measured using a tube formation experiment. The images of wounds were captured, and re-epithelialization and collagen deposition of skin tissues were analyzed using hematoxylin and eosin staining and Masson's trichrome staining.

Results: The expression of several m6A methyltransferases, including METTL3, METTL14, METTL16, KIAA1429, WTAP, and RBM15, were measured. WTAP exhibited the most significant elevation in HG-induced HUVECs compared with the normal control. WTAP depletion notably restored cell viability and enhanced tube formation ability and migration of HUVECs suppressed by HG. The unclosed wound area of mice was smaller in WTAP knockdown-treated mice than in control mice at nine days post-wounding, along with enhanced re-epithelialization rate and collagen deposition. The m6A levels on DNMT1 mRNA in HUVECs were repressed by WTAP knockdown in HUVECs. The mRNA levels and expression of DNMT1 were inhibited by WTAP depletion in HUVECs. Overexpression of DNMT1 in HUVECs notably reversed the effects of WTAP depletion on HG-induced HUVECs.

Conclusion: WTAP expression is elevated in HG-induced HUVECs and epigenetically regulates the m6A modification of DNMT1 to impair diabetic wound healing.

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n6 -甲基腺苷甲基转移酶Wilms肿瘤1相关蛋白通过表观遗传激活DNA甲基转移酶1阻碍糖尿病伤口愈合。

背景：糖尿病性创面损伤是糖尿病患者常见的并发症。n6 -甲基腺苷（m6A）相关的表观遗传调控广泛参与糖尿病并发症的发病机制。然而，m6A甲基转移酶Wilms肿瘤1相关蛋白（WTAP）在糖尿病伤口愈合中的作用尚不清楚。目的：探讨WTAP在糖尿病创面愈合过程中的潜在表观遗传调控机制。方法：采用高糖（HG）诱导人脐静脉内皮细胞（HUVECs）建立体外细胞模型。以雄性BALB/c小鼠腹腔注射链脲佐菌素模拟糖尿病，全层切除模拟糖尿病创面愈合。用WTAP sirna和DNA甲基转移酶1 （DNMT1）过表达载体处理hg诱导的HUVECs和小鼠模型。采用细胞计数试剂盒-8和Transwell法检测细胞活力和迁移能力。体外血管生成采用成管实验。采集创面图像，采用苏木精、伊红染色和马松三色染色分析皮肤组织的再上皮化和胶原沉积情况。结果：检测了几种m6A甲基转移酶METTL3、METTL14、METTL16、KIAA1429、WTAP和RBM15的表达。与正常对照相比，hg诱导的HUVECs中WTAP表现出最显著的升高。WTAP缺失显著恢复了HG抑制的huvec的细胞活力，增强了其成管能力和迁移能力。WTAP缺失小鼠在损伤后第9天的未闭合伤口面积比对照组小，再上皮化率和胶原沉积也有所增加。在HUVECs中，WTAP敲低可抑制DNMT1 mRNA上的m6A水平。在HUVECs中，DNMT1的mRNA水平和表达受到WTAP缺失的抑制。DNMT1在HUVECs中的过表达显著逆转了WTAP缺失对hg诱导的HUVECs的影响。结论：WTAP在hg诱导的HUVECs中表达升高，并通过表观遗传调控DNMT1的m6A修饰，从而影响糖尿病创面愈合。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

World Journal of Diabetes

World Journal of Diabetes ENDOCRINOLOGY & METABOLISM-

自引率

2.40%

发文量

909

期刊介绍： The WJD is a high-quality, peer reviewed, open-access journal. The primary task of WJD is to rapidly publish high-quality original articles, reviews, editorials, and case reports in the field of diabetes. In order to promote productive academic communication, the peer review process for the WJD is transparent; to this end, all published manuscripts are accompanied by the anonymized reviewers’ comments as well as the authors’ responses. The primary aims of the WJD are to improve diagnostic, therapeutic and preventive modalities and the skills of clinicians and to guide clinical practice in diabetes. Scope: Diabetes Complications, Experimental Diabetes Mellitus, Type 1 Diabetes Mellitus, Type 2 Diabetes Mellitus, Diabetes, Gestational, Diabetic Angiopathies, Diabetic Cardiomyopathies, Diabetic Coma, Diabetic Ketoacidosis, Diabetic Nephropathies, Diabetic Neuropathies, Donohue Syndrome, Fetal Macrosomia, and Prediabetic State.

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