EDN1 and NTF3 in keloid pathogenesis: computational and experimental evidence as novel diagnostic biomarkers for fibrosis and inflammation.

IF 2.8 3区生物学 Q2 GENETICS & HEREDITY Frontiers in Genetics Pub Date : 2025-02-20 eCollection Date: 2025-01-01 DOI:10.3389/fgene.2025.1516451

Hui Gong, Jing Liu, Nanji Chen, Hengguang Zhao, Bailin He, Hongpei Zhang, Wenping Wang, Yi Tian

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Abstract

Objective: To investigate the roles of oxidative stress-related differentially expressed genes (OSRDEGs) in keloid formation and explore their potential value in diagnosis and treatment.

Methods: Gene expression data from the GEO database, including GSE145725 and GSE44270 as training sets and GSE7890 as a validation set, were utilized. OSRDEGs were identified, followed by Weighted Gene Co-expression Network Analysis (WGCNA), GO/KEGG enrichment analysis, and Gene Set Enrichment Analysis (GSEA). Key genes were further screened through protein-protein interaction (PPI) network analysis and receiver operating characteristic (ROC) curve analysis. miRNA targets, transcription factors (TF), and potential drug targets of these genes were predicted. Immune cell infiltration analysis was performed to assess the association between OSRDEGs and immune cells, which was validated using GSE7890. Finally, the expression of key genes was experimentally validated using quantitative PCR (qPCR), immunohistochemistry (IHC), and hematoxylin-eosin (HE) staining.

Results: A total of 13 OSRDEGs were identified. WGCNA and functional enrichment analyses revealed that these genes were primarily involved in fibrosis and inflammatory processes in keloids, such as the MAPK signaling pathway, lymphocyte and monocyte proliferation, and inflammatory pathways involving IL-18 and IL-23. PPI network analysis, ROC analysis, and immune infiltration results identified Endothelin-1 (EDN1) and Neurotrophin-3(NTF3) as key genes with high sensitivity and specificity. These genes were positively and negatively correlated with activated mast cells, respectively, suggesting their dual regulatory roles in fibrosis and inflammation. External dataset validation, qPCR, correlation analysis, HE staining, and IHC results demonstrated that EDN1 and NTF3 were highly expressed in keloid tissues and were associated with excessive collagen deposition and immune cell infiltration.

Conclusion: EDN1 and NTF3, as OSRDEGs, play critical roles in the pathogenesis and progression of keloids. They may contribute to fibrosis and inflammation through the regulation of oxidative stress, the MAPK signaling pathway, and mast cell activation. These findings highlight EDN1 and NTF3 as potential diagnostic biomarkers and therapeutic targets, providing novel insights into the pathogenesis and treatment strategies for keloids.

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EDN1和NTF3在瘢痕疙瘩发病机制：计算和实验证据作为纤维化和炎症的新诊断生物标志物。

目的：探讨氧化应激相关差异表达基因（OSRDEGs）在瘢痕疙瘩形成中的作用，并探讨其在诊断和治疗中的潜在价值。方法：使用GEO数据库中的基因表达数据，其中GSE145725和GSE44270为训练集，GSE7890为验证集。对osrdeg进行鉴定，然后进行加权基因共表达网络分析（WGCNA）、GO/KEGG富集分析和基因集富集分析（GSEA）。通过蛋白相互作用（PPI）网络分析和受试者工作特征（ROC）曲线分析进一步筛选关键基因。预测了这些基因的miRNA靶点、转录因子（TF）和潜在的药物靶点。免疫细胞浸润分析评估OSRDEGs与免疫细胞之间的关系，并使用GSE7890进行验证。最后，通过定量PCR （qPCR）、免疫组化（IHC）和苏木精-伊红（HE）染色对关键基因的表达进行实验验证。结果：共鉴定出13个osrdeg。WGCNA和功能富集分析显示，这些基因主要参与瘢痕疙瘩的纤维化和炎症过程，如MAPK信号通路、淋巴细胞和单核细胞增殖，以及涉及IL-18和IL-23的炎症途径。PPI网络分析、ROC分析和免疫浸润结果鉴定内皮素-1 （EDN1）和神经营养因子-3（NTF3）为关键基因，具有较高的敏感性和特异性。这些基因分别与肥大细胞活化呈正相关和负相关，提示它们在纤维化和炎症中具有双重调节作用。外部数据验证、qPCR、相关分析、HE染色和免疫组化结果表明，EDN1和NTF3在瘢痕疙瘩组织中高表达，并与过多的胶原沉积和免疫细胞浸润有关。结论：EDN1和NTF3作为OSRDEGs在瘢痕疙瘩的发生发展中起着重要作用。它们可能通过调节氧化应激、MAPK信号通路和肥大细胞活化而促进纤维化和炎症。这些发现突出了EDN1和NTF3作为潜在的诊断生物标志物和治疗靶点，为瘢痕疙瘩的发病机制和治疗策略提供了新的见解。

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

Frontiers in Genetics Biochemistry, Genetics and Molecular Biology-Molecular Medicine

CiteScore

5.50

自引率

8.10%

发文量

3491

审稿时长

14 weeks

期刊介绍： Frontiers in Genetics publishes rigorously peer-reviewed research on genes and genomes relating to all the domains of life, from humans to plants to livestock and other model organisms. Led by an outstanding Editorial Board of the world’s leading experts, this multidisciplinary, open-access journal is at the forefront of communicating cutting-edge research to researchers, academics, clinicians, policy makers and the public. The study of inheritance and the impact of the genome on various biological processes is well documented. However, the majority of discoveries are still to come. A new era is seeing major developments in the function and variability of the genome, the use of genetic and genomic tools and the analysis of the genetic basis of various biological phenomena.