Exploring Cuproptosis-Related Genes and Diagnostic Models in Renal Ischemia-Reperfusion Injury Using Bioinformatics, Machine Learning, and Experimental Validation.

IF 4.2 2区 医学 Q2 IMMUNOLOGY Journal of Inflammation Research Pub Date : 2024-11-18 eCollection Date: 2024-01-01 DOI:10.2147/JIR.S490357
Changhong Xu, Yun Deng, Xinyi Gong, Huabin Wang, Jiangwei Man, Hailong Wang, Kun Cheng, Huiming Gui, Shengjun Fu, Shenghu Wei, Xiaoling Zheng, Tuanjie Che, Liyun Ding, Li Yang
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Abstract

Background: Renal ischemia-reperfusion injury (RIRI) is a significant cause of acute kidney injury, complicating clinical interventions such as kidney transplants and partial nephrectomy. Recent research has indicated the role of cuproptosis, a copper-dependent cell death pathway, in various pathologies, but its specific involvement in RIRI remains insufficiently understood. This study aims to investigate the role of cuproptosis-related genes in RIRI and establish robust diagnostic models.

Methods: We analyzed transcriptomic data from 203 RIRI and 188 control samples using bioinformatics tools to identify cuproptosis-related differentially expressed genes (CRDEGs). The relationship between CRDEGs and immune cells was explored using immune infiltration analysis and correlation analysis. Gene Set Enrichment Analysis (GSEA) was conducted to identify pathways associated with CRDEGs. Machine learning models, including Least Absolute Shrinkage and Selection Operator(LASSO) logistic regression, Support Vector Machine Recursive Feature Elimination (SVM-RFE), Clustering analysis, and weighted gene co-expression network analysis (WGCNA), were used to construct diagnostic gene models. The models were validated using independent datasets. Experimental validation was conducted in vivo using a mouse bilateral RIRI model and in vitro using an HK-2 cell hypoxia-reoxygenation (HR) model with copper chelation intervention. HE, PAS, and TUNEL staining, along with plasma creatinine and blood urea nitrogen (BUN) measurements, were used to evaluate the protective effect of the copper chelator D-Penicillamine (D-PCA) on RIRI in mice. JC-1 and TUNEL staining were employed to assess apoptosis in HK-2 cells under hypoxia-reoxygenation conditions. Immunofluorescence and Western blot (WB) techniques were used to verify the expression levels of the SDHB and NDUFB6 genes.

Results: A total of 18 CRDEGs were identified, many of which were significantly correlated with immune cell infiltration. GSEA revealed that these genes were involved in pathways related to oxidative phosphorylation and immune response regulation. Four key cuproptosis marker genes (LIPA, LIPT1, SDHB, and NDUFB6) were incorporated into a Cuproptosis Marker Gene Model(CMGM), achieving an area under the curve (AUC) of 0.741-0.834 in validation datasets. In addition, a five-hub-gene SVM model (MOAP1, PPP2CA, SYL2, ZZZ3, and SFRS2) was developed, demonstrating promising diagnostic performance. Clustering analysis revealed two RIRI subtypes (C1 and C2) with distinct molecular profiles and pathway activities, particularly in oxidative phosphorylation and immune responses. Experimental results showed that copper chelation alleviated renal damage and cuproptosis in both in vivo and in vitro models.

Conclusion: Our study reveals that cuproptosis-related genes are significantly involved in RIRI, particularly influencing mitochondrial dysfunction and immune responses. The diagnostic models developed showed promising predictive performance across independent datasets. Copper chelation demonstrated potential therapeutic effects, suggesting that cuproptosis regulation may be a viable therapeutic strategy for RIRI. This work provides a foundation for further exploration of copper metabolism in renal injury contexts.

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利用生物信息学、机器学习和实验验证探索肾缺血再灌注损伤中的杯突相关基因和诊断模型
背景:肾缺血再灌注损伤(RIRI)是急性肾损伤的一个重要原因,是肾移植和肾部分切除术等临床干预措施的并发症。最近的研究表明,铜中毒(一种依赖铜的细胞死亡途径)在各种病症中都有作用,但其在 RIRI 中的具体参与作用仍未得到充分了解。本研究旨在探讨杯突相关基因在 RIRI 中的作用,并建立可靠的诊断模型:我们使用生物信息学工具分析了 203 例 RIRI 和 188 例对照样本的转录组数据,以确定杯突相关差异表达基因(CRDEGs)。利用免疫浸润分析和相关性分析探讨了 CRDEGs 与免疫细胞之间的关系。基因组富集分析(Gene Set Enrichment Analysis,GSEA)用于确定与 CRDEGs 相关的通路。利用机器学习模型,包括最小绝对收缩和选择操作符(LASSO)逻辑回归、支持向量机递归特征消除(SVM-RFE)、聚类分析和加权基因共表达网络分析(WGCNA),构建诊断基因模型。这些模型通过独立数据集进行了验证。实验验证在体内使用小鼠双侧 RIRI 模型进行,在体外使用 HK-2 细胞缺氧-缺氧(HR)模型和铜螯合干预进行。HE、PAS和TUNEL染色以及血浆肌酐和血尿素氮(BUN)测量结果被用来评估铜螯合剂D-青霉胺(D-PCA)对小鼠RIRI的保护作用。采用 JC-1 和 TUNEL 染色法评估缺氧-复氧条件下 HK-2 细胞的凋亡情况。免疫荧光和 Western blot (WB) 技术用于验证 SDHB 和 NDUFB6 基因的表达水平:结果:共鉴定出 18 个 CRDEGs,其中许多与免疫细胞浸润显著相关。GSEA显示,这些基因参与了与氧化磷酸化和免疫反应调节相关的通路。四个关键的杯突症标记基因(LIPA、LIPT1、SDHB 和 NDUFB6)被纳入杯突症标记基因模型(CMGM),在验证数据集中的曲线下面积(AUC)达到了 0.741-0.834 。此外,还建立了一个五枢纽基因 SVM 模型(MOAP1、PPP2CA、SYL2、ZZZ3 和 SFRS2),显示出良好的诊断性能。聚类分析揭示了两种 RIRI 亚型(C1 和 C2),它们具有不同的分子特征和通路活性,尤其是在氧化磷酸化和免疫反应方面。实验结果表明,在体内和体外模型中,铜螯合都能减轻肾损伤和杯突症:我们的研究揭示了杯突症相关基因在 RIRI 中的重要作用,尤其是对线粒体功能障碍和免疫反应的影响。所开发的诊断模型在独立数据集中显示出良好的预测性能。铜螯合显示了潜在的治疗效果,表明铜氧化酶调节可能是治疗 RIRI 的一种可行策略。这项工作为进一步探索肾损伤背景下的铜代谢奠定了基础。
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
Journal of Inflammation Research
Journal of Inflammation Research Immunology and Microbiology-Immunology
CiteScore
6.10
自引率
2.20%
发文量
658
审稿时长
16 weeks
期刊介绍: An international, peer-reviewed, open access, online journal that welcomes laboratory and clinical findings on the molecular basis, cell biology and pharmacology of inflammation.
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