Comprehensive analysis of lactylation-related gene and immune microenvironment in atrial fibrillation.

IF 2.8 3区医学 Q2 CARDIAC & CARDIOVASCULAR SYSTEMS

Frontiers in Cardiovascular Medicine Pub Date : 2025-04-22 eCollection Date: 2025-01-01 DOI:10.3389/fcvm.2025.1567310

Yazhe Ma, Youcheng Wang, Yuanjia Ke, Qingyan Zhao, Jie Fan, Yang Chen

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引用次数: 0

Abstract

Background: Atrial fibrillation (AF) is a common arrhythmia associated with an increased risk of stroke, heart failure, and mortality. Immune infiltration plays a crucial role in AF pathogenesis, yet its mechanisms remain unclear. Lactylation, a novel post-translational modification, has been implicated in immune regulation, but its association with AF remains unexplored. This study aims to elucidate the relationship between lactylation and immune infiltration in AF and identify potential diagnostic biomarkers.

Methods: Gene expression data from left atrial tissue samples of AF and sinus rhythm (SR) patients were obtained from the Gene Expression Omnibus (GEO) database (GSE41177, GSE79768, GSE115574, GSE2240, GSE14975, and GSE128188). Differentially expressed genes (DEGs) between AF and SR samples were identified, followed by pathway enrichment and immune infiltration analysis. Correlation analysis and WGCNA were performed to assess interactions between lactylation-related genes and immune-associated DEGs. Machine learning models, including Random Forest and Support Vector Machine (SVM), were applied to select potential AF-related diagnostic biomarkers, and validated in the animal model (beagles; n = 6).

Results: A total of 5,648 DEGs were identified, including six lactylation-related genes (DDX39A, ARID3A, TKT, NUP50, G6PD, and VCAN). Co-expression and WGCNA analyses identified lactylation- and immune-associated gene modules in AF. Functional enrichment analysis highlighted immune-related pathways such as T cell activation and neutrophil degranulation. A five-gene diagnostic model (FOXK1, JAM3, LOC100288798, MCM4, and RCAN1) achieved high predictive accuracy (AUC = 0.969 in training, 0.907 in self-test, and 0.950, 0.760, 0.890 in independent datasets). Experimental validation confirmed the upregulated expression of these biomarkers in AF.

Conclusion: This study reveals a strong association between lactylation-related genes and immune infiltration in AF, suggesting their involvement in immune remodeling. The identified five-gene signature serves as a potential diagnostic biomarker set, offering novel insights into AF pathogenesis and contributing to improved diagnosis and targeted therapeutic strategies. Future studies integrating proteomic and single-cell analyses will further clarify the role of lactylation in AF.

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房颤中乳酸化相关基因与免疫微环境的综合分析。

背景：心房颤动（AF）是一种常见的心律失常，与卒中、心力衰竭和死亡率增加相关。免疫浸润在房颤发病中起重要作用，但其机制尚不清楚。乳酸酰化是一种新的翻译后修饰，与免疫调节有关，但其与房颤的关系尚不清楚。本研究旨在阐明AF中乳酸化与免疫浸润之间的关系，并确定潜在的诊断生物标志物。方法：从Gene expression Omnibus （GEO）数据库（GSE41177、GSE79768、GSE115574、GSE2240、GSE14975和GSE128188）中获取房颤和窦性心律（SR）患者左心房组织样本的基因表达数据。鉴定AF和SR样品之间的差异表达基因（DEGs），然后进行途径富集和免疫浸润分析。通过相关分析和WGCNA来评估乳酸化相关基因与免疫相关deg之间的相互作用。包括随机森林和支持向量机（SVM）在内的机器学习模型被应用于选择潜在的af相关诊断生物标志物，并在动物模型(beagles；n = 6)。结果：共鉴定出5648个deg，包括6个乳酸化相关基因（DDX39A、ARID3A、TKT、NUP50、G6PD和VCAN）。共表达和WGCNA分析确定了AF中的乳酸化和免疫相关基因模块。功能富集分析强调了免疫相关途径，如T细胞活化和中性粒细胞脱粒。五基因诊断模型（FOXK1、JAM3、LOC100288798、MCM4和RCAN1）的预测准确率较高（训练集AUC = 0.969，自检AUC = 0.907，独立数据集AUC = 0.950、0.760、0.890）。结论：本研究揭示了乳酸化相关基因与AF免疫浸润之间的密切联系，提示其参与免疫重塑。鉴定出的五基因标记可作为潜在的诊断生物标志物集，为房颤发病机制提供新的见解，并有助于改进诊断和靶向治疗策略。结合蛋白质组学和单细胞分析的未来研究将进一步阐明乳酸化在房颤中的作用。

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 Cardiovascular Medicine Medicine-Cardiology and Cardiovascular Medicine

CiteScore

3.80

自引率

11.10%

发文量

3529

审稿时长

14 weeks

期刊介绍： Frontiers? Which frontiers? Where exactly are the frontiers of cardiovascular medicine? And who should be defining these frontiers? At Frontiers in Cardiovascular Medicine we believe it is worth being curious to foresee and explore beyond the current frontiers. In other words, we would like, through the articles published by our community journal Frontiers in Cardiovascular Medicine, to anticipate the future of cardiovascular medicine, and thus better prevent cardiovascular disorders and improve therapeutic options and outcomes of our patients.