基于 RNA 测序技术鉴定败血症中的四个线粒体相关基因。

IF 2.9 4区 医学 Q3 IMMUNOLOGY BMC Immunology Pub Date : 2024-05-16 DOI:10.1186/s12865-024-00623-1
ShilinLi, Yingchun Hu
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引用次数: 0

摘要

研究目的本研究旨在鉴定和分析与脓毒症患者相关的线粒体基因,以阐明脓毒症免疫的内在机制,为脓毒症的临床治疗提供新思路:连续收集2019年1月至2019年12月西南医科大学附属医院急诊重症监护室(EICU)收治的脓毒症(n=20)和全身炎症反应综合征(SIRS)住院病例(n=12)。采用RNA-seq技术对外周血细胞的RNA(mRNA)进行测序。利用生物信息学技术筛选并鉴定出差异表达的RNA,其折叠变化(FC)绝对值大于或等于1.2,误发现率(FDR)小于0.05。同时,从 MitoCarta 3.0 数据库中获取线粒体基因。然后将差异基因与线粒体基因交叉。对交叉后的基因进行 GO、KEGG 和 PPI 分析。随后,从 GEO 数据库下载 GSE65682 数据集进行生存分析,以评估核心基因的预后价值;下载 GSE67652 数据集进行 ROC 曲线分析,以验证核心基因的诊断价值。最后,通过10倍单细胞测序明确了核心基因的定位:结果:将 314 个败血症差异基因和 1136 个线粒体基因进行交叉分析,得出 28 个基因。GO和KEGG分析显示,交叉基因主要涉及线粒体、线粒体基质和线粒体内膜。生存分析筛选出了与败血症预后呈显著负相关的四个基因,即FIS1、FKBP8、GLRX5和GUK1。脓毒症组与 SIRS 组外周血 RNA-seq 结果对比显示,脓毒症组与 SIRS 组相比,这四个基因的表达水平明显下降。基于 GSE67652 的 ROC 曲线分析表明,这四个基因对脓毒症的检测具有很高的灵敏度和特异性。此外,单细胞 RNA 测序发现,核心基因主要在巨噬细胞、T 细胞和 B 细胞中表达:结论:线粒体相关基因(FIS1、FKBP8、GLRX5、GUK1)在败血症组中表达不足,与存活率呈负相关,且主要分布在免疫细胞中。这一发现可为研究败血症的免疫相关机制提供指导。本研究方案经西南医科大学附属医院伦理委员会审查(伦理编号:KY2018029),临床试验注册号为ChiCTR1900021261,注册日期为2019年2月4日。
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Identification of four mitochondria-related genes in sepsis based on RNA sequencing technology.

Objectives: The purpose of this study was to identify and analyze the mitochondrial genes associated with sepsis patients in order to elucidate the underlying mechanism of sepsis immunity and provide new ideas for the clinical treatment of sepsis.

Methods: The hospitalized cases of sepsis (n = 20) and systemic inflammatory response syndrome (SIRS) (n = 12) admitted to the Emergency Intensive Care Unit (EICU) of the Affiliated Hospital of Southwest Medical University from January 2019 to December 2019 were collected consecutively. RNA-seq was used to sequence the RNA (mRNA) of peripheral blood cells. Bioinformatics techniques were used to screen and identify differentially expressed RNAs, with an absolute value of fold change (FC) greater than or equal to 1.2 and a false discovery rate (FDR) less than 0.05. At the same time, mitochondrial genes were obtained from the MitoCarta 3.0 database. Differential genes were then intersected with mitochondrial genes. The resulting crossover genes were subjected to GO, KEGG, and PPI analysis. Subsequently, the GSE65682 dataset was downloaded from the GEO database for survival analysis to assess the prognostic value of core genes, and GSE67652 was downloaded for ROC curve analysis to validate the diagnostic value of core genes. Finally, the localization of core genes was clarified through 10X single-cell sequencing.

Results: The crossing of 314 sepsis differential genes and 1136 mitochondrial genes yielded 28 genes. GO and KEGG analysis showed that the crossover genes were mainly involved in the mitochondrion, mitochondrial matrix, and mitochondrial inner membrane. Survival analysis screened four genes that were significantly negatively associated with the prognosis of sepsis, namely FIS1, FKBP8, GLRX5, and GUK1. A comparison of peripheral blood RNA-seq results between the sepsis group and the SIRS group showed that the expression levels of these four genes were significantly decreased in the sepsis group compared to the SIRS group. ROC curve analysis based on GSE67652 indicates these four genes' high sensitivity and specificity for sepsis detection. Additionally, single-cell RNA sequencing found that the core genes were mainly expressed in macrophages, T cells, and B cells.

Conclusions: Mitochondria-related genes (FIS1, FKBP8, GLRX5, GUK1) were underexpressed in the sepsis group, negatively correlated with survival, and mainly distributed in immune cells. This finding may guide studying the immune-related mechanisms of sepsis. This study protocol was reviewed by the Ethics Committee of the Affiliated Hospital of Southwest Medical University (ethics number: KY2018029), the clinical trial registration number is ChiCTR1900021261, and the registration date is February 4, 2019.

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来源期刊
BMC Immunology
BMC Immunology 医学-免疫学
CiteScore
5.50
自引率
0.00%
发文量
54
审稿时长
1 months
期刊介绍: BMC Immunology is an open access journal publishing original peer-reviewed research articles in molecular, cellular, tissue-level, organismal, functional, and developmental aspects of the immune system as well as clinical studies and animal models of human diseases.
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