Potential Biomarkers in Myocardial Fibrosis: A Bioinformatic Analysis.

Arquivos brasileiros de cardiologia Pub Date : 2024-11-01 DOI:10.36660/abc.20230674

Wang Cheng-Mei, Gang Luo, Ping Liu, Wei Ren, Sijin Yang

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Abstract

Background: Myocardial fibrosis (MF) occurs throughout the onset and progression of cardiovascular disease, and early diagnosis of MF is beneficial for improving cardiac function, but there is a lack of research on early biomarkers of MF.

Objectives: Utilizing bioinformatics techniques, we identified potential biomarkers for MF.

Methods: Datasets related to MF were sourced from the GEO database. After processing the data, differentially expressed genes were screened. Differentially expressed genes were enriched, and subsequently, protein-protein interaction (PPI) was performed to analyze the differential genes. The associated miRNAs and transcription factors were predicted for these core genes. Finally, ROC validation was performed on the core genes to determine their specificity and sensitivity as potential biomarkers. The level of significance adopted was 5% (p < 0.05).

Results: A total of 91 differentially expressed genes were identified, and PPI analysis yielded 31 central genes. Enrichment analysis showed that apoptosis, collagen, extracellular matrix, cell adhesion, and inflammation were involved in MF. One hundred and forty-two potential miRNAs were identified. the transcription factors JUN, NF-κB1, SP1, RELA, serum response factor (SRF), and STAT3 were enriched in most of the core targets. Ultimately, IL11, GADD45B, GDF5, NOX4, IGFBP3, ACTC1, MYOZ2, and ITGB8 had higher diagnostic accuracy and sensitivity in predicting MF based on ROC curve analysis.

Conclusion: Eight genes, IL11, GADD45B, GDF5, NOX4, IGFBP3, ACTC1, MYOZ2, and ITGB8, can serve as candidate biomarkers for MF. Processes such as cellular apoptosis, collagen protein synthesis, extracellular matrix formation, cellular adhesion, and inflammation are implicated in the development of MF.

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心肌纤维化的潜在生物标志物：生物信息学分析。

背景：心肌纤维化（MF）发生在心血管疾病的整个发病和进展过程中，早期诊断MF有利于改善心脏功能，但目前缺乏对MF早期生物标志物的研究：利用生物信息学技术，我们确定了 MF 的潜在生物标志物：方法：从 GEO 数据库中获取与中风相关的数据集。处理数据后，筛选差异表达基因。对差异表达基因进行富集，然后进行蛋白-蛋白相互作用（PPI）分析。预测了这些核心基因的相关 miRNA 和转录因子。最后，对核心基因进行了 ROC 验证，以确定其作为潜在生物标志物的特异性和敏感性。采用的显著性水平为 5%（P < 0.05）：结果：共鉴定出 91 个差异表达基因，PPI 分析得出 31 个核心基因。富集分析表明，中耳炎与细胞凋亡、胶原蛋白、细胞外基质、细胞粘附和炎症有关。转录因子 JUN、NF-κB1、SP1、RELA、血清反应因子（SRF）和 STAT3 在大多数核心靶标中富集。最终，根据ROC曲线分析，IL11、GADD45B、GDF5、NOX4、IGFBP3、ACTC1、MYOZ2和ITGB8在预测MF方面具有更高的诊断准确性和敏感性：IL11、GADD45B、GDF5、NOX4、IGFBP3、ACTC1、MYOZ2和ITGB8这8个基因可作为MF的候选生物标志物。细胞凋亡、胶原蛋白合成、细胞外基质形成、细胞粘附和炎症等过程都与 MF 的发生发展有关。

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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Arquivos brasileiros de cardiologia

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