N6-methyladenosine modification of THBS1 induced by affluent WTAP promotes Graves' ophthalmopathy progression through glycolysis to affect Th17/Treg balance.

IF 3.3 4区医学 Q3 IMMUNOLOGY

Autoimmunity Pub Date : 2025-12-01 Epub Date: 2024-12-17 DOI:10.1080/08916934.2024.2433628

Lin-Na Li, Jie-Man Wu, Zong-Ji Zheng, Shu-Xian Li, Meng-Yi Cai, Meng-Chen Zou

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引用次数: 0

Abstract

Graves' ophthalmopathy (GO) obvious manifestation is the imbalance of Th17/Treg. N6-methyladenosine (m6A) methylation is an important regulator of Th17/Treg balance. However, few reports narrate how m6A regulators mediate the role of genes in GO progression. We explored the m6A modification of THBS1 mediated by WTAP, and the mechanism by which THBS1 regulated glycolysis and Th17/Treg balance. A total of 12 peripheral blood (4 GO samples, 4 GH samples, and 4 health samples) were collected to measure the percentage of Th17/Treg in monocytes by flow cytometry. RNA sequencing (RNA-seq) combined with MeRIP sequencing (MeRIP-seq) was used to screen differentially expressed and methylated genes. MeRIP-qPCR was performed to evaluate the m6A abundance of THBS1 after WTAP silencing. Glycolysis of CD4⁺ T cells was reflected by the lactate content and glucose uptake. The number of Th17 cells was increased in GO peripheral blood, whereas the Treg cells decreased. RNA-seq acquired 679 differentially expressed genes (308 up-regulated, and 371 down-regulated) in the CD4⁺ T cells of GO compared to healthy control. MeRIP-seq identified 3277 m6A peaks between the GO group and the healthy control group, corresponding with 2744 genes (1143 hypermethylated and 1601 hypomethylated). Combined analysis of RNA-seq and MeRIP-seq showed 81 hypermethylated and up-regulated genes. Among the six candidate genes in the PI3K-signaling pathway, THBS1 was the most significantly differentially expressed and hypermethylated. THBS1 silencing resulted in decreased lactate content and glucose uptake in CD4⁺ T cells. WTAP was significantly upregulated in CD4⁺ T cells of GO, and WTAP silencing significantly reduced m6A abundance and expression of THBS1. Upregulated and hypermethylated THBS1 mediated by WTAP promoted glycolysis of CD4⁺ T cells, affected Th17/Treg balance, and facilitated GO progression. We provided a novel potential target for GO treatment and revealed the molecular mechanism of WTAP and THBS1 in GO under the m6A perspective.

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丰富的WTAP诱导THBS1的n6 -甲基腺苷修饰通过糖酵解促进Graves眼病进展，影响Th17/Treg平衡。

Graves眼病（GO）的明显表现是Th17/Treg失衡。n6 -甲基腺苷（m6A）甲基化是Th17/Treg平衡的重要调节因子。然而，很少有报道叙述m6A调节因子如何介导基因在氧化石墨烯进展中的作用。我们探索了WTAP介导THBS1的m6A修饰，以及THBS1调控糖酵解和Th17/Treg平衡的机制。采集12例外周血（4例氧化石墨烯、4例生长激素和4例健康样本），采用流式细胞术检测单核细胞中Th17/Treg的百分比。采用RNA测序（RNA-seq）联合MeRIP测序（MeRIP-seq）筛选差异表达和甲基化基因。采用MeRIP-qPCR检测WTAP沉默后THBS1的m6A丰度。CD4+ T细胞的糖酵解通过乳酸含量和葡萄糖摄取来反映。GO外周血中Th17细胞数量增加，Treg细胞数量减少。RNA-seq在GO的CD4+ T细胞中获得了与健康对照组相比679个差异表达基因（308个上调，371个下调）。MeRIP-seq在GO组和健康对照组之间鉴定出3277个m6A峰，对应2744个基因（1143个高甲基化，1601个低甲基化）。RNA-seq和MeRIP-seq联合分析显示81个高甲基化和上调基因。在pi3k信号通路的6个候选基因中，THBS1的差异表达和高甲基化最为显著。THBS1沉默导致CD4+ T细胞乳酸含量和葡萄糖摄取降低。WTAP在GO的CD4+ T细胞中显著上调，WTAP沉默显著降低m6A丰度和THBS1的表达。WTAP介导THBS1上调和高甲基化，促进CD4+ T细胞糖酵解，影响Th17/Treg平衡，促进氧化石墨烯进展。我们为氧化石墨烯的治疗提供了一个新的潜在靶点，并从m6A的角度揭示了氧化石墨烯中WTAP和THBS1的分子机制。

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来源期刊

Autoimmunity 医学-免疫学

CiteScore

5.70

自引率

8.60%

发文量

审稿时长

6-12 weeks

期刊介绍： Autoimmunity is an international, peer reviewed journal that publishes articles on cell and molecular immunology, immunogenetics, molecular biology and autoimmunity. Current understanding of immunity and autoimmunity is being furthered by the progress in new molecular sciences that has recently been little short of spectacular. In addition to the basic elements and mechanisms of the immune system, Autoimmunity is interested in the cellular and molecular processes associated with systemic lupus erythematosus, rheumatoid arthritis, Sjogren syndrome, type I diabetes, multiple sclerosis and other systemic and organ-specific autoimmune disorders. The journal reflects the immunology areas where scientific progress is most rapid. It is a valuable tool to basic and translational researchers in cell biology, genetics and molecular biology of immunity and autoimmunity.