婴儿血管瘤消退中焦亡相关基因的综合生物信息学分析及免疫细胞浸润分析
Integrative Bioinformatics Analysis of Pyroptosis-Related Genes and Analysis of Immune Cell Infiltration in Infantile Hemangioma Regression.
作者信息
Liu Lan, Lin Sheng, Bai Jianxi, Zhang Bing
机构信息
Pediatric Surgery Department, Fujian Children's Hospital (Fujian Branch of Shanghai Children's Medical Center), Fuzhou City, Fujian Province, People's Republic of China.
Pediatric Surgery Department, College of Clinical Medicine for Obstetrics & Gynecology and Pediatrics, Fujian Medical University, Fuzhou City, Fujian Province, People's Republic of China.
出版信息
Clin Cosmet Investig Dermatol. 2025 Jan 27;18:291-302. doi: 10.2147/CCID.S492535. eCollection 2025.
BACKGROUND
Infantile hemangiomas (IHs) are characterized by spontaneous regression, and their pathogenesis involves immune cell infiltration and programmed cell death. The molecular pathways and mechanisms involved in pyroptosis in IHs are still unclear. This study aimed to identify genes related to pyroptosis in IH regression by bioinformatics methods and to explore the effects of these pyroptosis-related genes (PRGs) on disease pathology and immune cell infiltration.
METHODS
The microarray dataset GSE127487 was assessed to identify differentially expressed genes (DEGs) between proliferation-phase IH (PIHs) and involution-phase IH (IIHs). The DEGs that overlapped with PRGs were considered IH-PRGs. The IH-PRGs were validated and subjected to functional enrichment analysis and Genomes pathway analyses. Gene set enrichment analysis (GSEA) was also performed to analyse the biological significance of the DEGs. The NetworkAnalyst database was used to analyse the correlation network of IH-PRGs and miRNAs as well as that of IH-PRGs and transcription factors. The STRING online database and Cytoscape were used to identify the hub-IH-PRGs. Additionally, a single-sample GSEA algorithm was applied to assess immune cell infiltration in IHs, and correlation analysis was performed between the hub-IH-PRGs and infiltrating immune cells.
RESULTS
Fourteen IH-PRGs were identified. IL6, EGFR, IRF1 and IL32 were identified as hub-IH-PRGs and displayed excellent diagnostic performance. Immune cell infiltration analysis revealed notable differences in CD8+ T cells, Tgd cells and Th17 cells between PIHs and IIHs. IL-6 was significantly positively correlated with Th17 cell infiltration and significantly negatively correlated with Tgd cell infiltration; EGFR was negatively correlated with Tgd cell infiltration; and IRF1 and IL32 were significantly negatively correlated with Th17 cell infiltration.
CONCLUSION
Four PRGs, namely, IL6, EGFR, IRF1 and IL32, may play a significant role in IH regression. This study provides insights into the molecular mechanisms underlying IH pathogenesis, highlighting the importance of pyroptosis and immune cell infiltration.
背景
婴儿血管瘤(IHs)具有自发消退的特征,其发病机制涉及免疫细胞浸润和程序性细胞死亡。IHs中细胞焦亡所涉及的分子途径和机制仍不清楚。本研究旨在通过生物信息学方法鉴定与IH消退中细胞焦亡相关的基因,并探讨这些细胞焦亡相关基因(PRGs)对疾病病理和免疫细胞浸润的影响。
方法
评估微阵列数据集GSE127487,以鉴定增殖期IH(PIHs)和消退期IH(IIHs)之间的差异表达基因(DEGs)。与PRGs重叠的DEGs被视为IH-PRGs。对IH-PRGs进行验证,并进行功能富集分析和基因组途径分析。还进行了基因集富集分析(GSEA)以分析DEGs的生物学意义。使用NetworkAnalyst数据库分析IH-PRGs与miRNAs以及IH-PRGs与转录因子的相关网络。使用STRING在线数据库和Cytoscape鉴定核心IH-PRGs。此外,应用单样本GSEA算法评估IHs中的免疫细胞浸润,并在核心IH-PRGs与浸润免疫细胞之间进行相关性分析。
结果
鉴定出14个IH-PRGs。IL6、EGFR、IRF1和IL32被鉴定为核心IH-PRGs,并表现出优异的诊断性能。免疫细胞浸润分析显示,PIHs和IIHs之间的CD8 + T细胞、Tgd细胞和Th17细胞存在显著差异。IL-6与Th17细胞浸润显著正相关,与Tgd细胞浸润显著负相关;EGFR与Tgd细胞浸润负相关;IRF1和IL32与Th17细胞浸润显著负相关。
结论
IL6、EGFR、IRF1和IL32这四个PRGs可能在IH消退中起重要作用。本研究为IH发病机制的分子机制提供了见解,突出了细胞焦亡和免疫细胞浸润的重要性。
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