Identification of m5C-Related gene diagnostic biomarkers for sepsis: a machine learning study.

IF 2.8 3区 生物学 Q2 GENETICS & HEREDITY
Frontiers in Genetics Pub Date : 2024-10-30 eCollection Date: 2024-01-01 DOI:10.3389/fgene.2024.1444003
Siming Lin, Kexin Cai, Shaodan Feng, Zhihong Lin
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引用次数: 0

Abstract

Background: Sepsis is a serious condition that occurs when the body's response to infection becomes uncontrolled, resulting in a high risk of death. Despite improvements in healthcare, identifying sepsis early is difficult because of its diverse nature and the absence of distinct biomarkers. Recent studies suggest that 5-methylcytosine (m5C)-related genes play a significant role in immune responses, yet their diagnostic potential in sepsis remains unexplored.

Methods: This research combined and examined four sepsis-related datasets (GSE95233, GSE57065, GSE100159, and GSE65682) sourced from the Gene Expression Omnibus (GEO)database to discover m5C-related genes with differential expression. Various machine learning methods, such as decision tree, random forest, and XGBoost, were utilized in identifying crucial hub genes. Receiver Operating Characteristic (ROC) curve analysis was used to assess the diagnostic accuracy of these genetic markers. Additionally, single-gene enrichment and immune infiltration analyses were conducted to investigate the underlying mechanisms involving these hub genes in sepsis.

Results: Three hub genes, DNA Methyltransferase 1 (DNMT1), tumor protein P53 (TP53), and toll-like receptor 8 (TLR8), were identified and validated for their diagnostic efficacy, showing area under the curve (AUC) values above 0.7 in both test and validation sets. Enrichment analyses revealed that these genes are involved in key pathways such as p53 signaling and Toll-like receptor signaling. Immune infiltration analysis indicated significant correlations between hub genes and various immune cell types, suggesting their roles in modulating immune responses during sepsis.

Conclusion: The study highlights the diagnostic potential of m5C-related genes in sepsis and their involvement in immune regulation. These findings offer new insights into sepsis pathogenesis and suggest that DNMT1, TP53, and TLR8 could serve as valuable biomarkers for early diagnosis. Further studies should prioritize validating these biomarkers in clinical settings and investigating their potential for therapy.

脓毒症 m5C 相关基因诊断生物标志物的鉴定:一项机器学习研究。
背景:败血症是一种严重的疾病,当人体对感染的反应失控时就会发生,从而导致很高的死亡风险。尽管医疗保健水平有所提高,但由于败血症的性质多种多样,且缺乏独特的生物标志物,因此很难早期识别败血症。最近的研究表明,5-甲基胞嘧啶(m5C)相关基因在免疫反应中发挥着重要作用,但它们在败血症中的诊断潜力仍有待探索:这项研究结合并检查了来自基因表达总库(GEO)数据库的四个脓毒症相关数据集(GSE95233、GSE57065、GSE100159和GSE65682),以发现具有差异表达的m5C相关基因。在确定关键枢纽基因时,采用了多种机器学习方法,如决策树、随机森林和 XGBoost。接收者操作特征曲线(ROC)分析用于评估这些遗传标记的诊断准确性。此外,还进行了单基因富集和免疫浸润分析,以研究败血症中涉及这些枢纽基因的潜在机制:结果:DNA 甲基转移酶 1 (DNMT1)、肿瘤蛋白 P53 (TP53) 和收费样受体 8 (TLR8) 这三个枢纽基因被鉴定并验证了其诊断功效,在测试集和验证集中的曲线下面积 (AUC) 值均高于 0.7。富集分析表明,这些基因参与了 p53 信号转导和 Toll 样受体信号转导等关键通路。免疫浸润分析表明,中枢基因与各种免疫细胞类型之间存在明显的相关性,这表明它们在败血症期间调节免疫反应方面发挥了作用:该研究强调了 m5C 相关基因在败血症中的诊断潜力及其参与免疫调节的作用。这些发现为脓毒症的发病机制提供了新的见解,并表明 DNMT1、TP53 和 TLR8 可作为早期诊断的重要生物标志物。进一步的研究应优先考虑在临床环境中验证这些生物标志物,并调查其治疗潜力。
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
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.
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