Integrated transcriptome analysis and combinatorial machine learning to construct a homeostatic model of acetylation for ccRCC and validate the key gene GCNT4.

IF 6 2区医学 Q1 ONCOLOGY

Cancer Cell International Pub Date : 2025-06-25 DOI:10.1186/s12935-025-03837-4

Baohua Zhu, Ziyang Mo, Yi Bao, Xinxin Gan, Linhui Wang

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引用次数: 0

Abstract

Background: Clear cell renal cell carcinoma (ccRCC) is one of the most common malignant tumors of the urinary system. Protein acetylation plays a key role in regulating cellular processes and cancer signaling pathways. This study explores the potential biological mechanisms of ccRCC from the perspective of acetylation.

Methods: This study obtained RNA-seq data and clinical information of ccRCC from TCGA and ICGC, and single-cell RNA sequencing datasets from the GEO database. Ten machine learning algorithms and their 101 combinations were used to analyze the prognostic significance of acetylation-related differentially expressed genes (DEGs) and to construct a prognostic risk model. GSEA was used to analyze the enrichment of different signaling pathways in high-risk and low-risk groups, and the correlation between immune infiltration and risk scores was assessed. Finally, the function of the key gene GCNT4 was verified through cell experiments.

Results: This study identified 84 acetylation-regulated key genes with significant expression differences between tumor and normal tissues, closely linked to patient prognosis. The LASSO + RSF combination model performed best, and the model could accurately predict patient prognosis. The survival of patients in the high-risk group was significantly worse than that in the low-risk group. High expression of GCNT4 was associated with better survival prognosis and was expressed at higher levels in normal tissues than tumor tissues. Overexpression of GCNT4 significantly inhibited the proliferation, invasion, and migration of renal cancer cells and may affect acetylation by regulating the levels of O-GlcNAc modification in cells.

Conclusion: This study constructed a ccRCC acetylation homeostasis model via transcriptome analysis and machine learning, validating GCNT4 as a key gene. High expression of GCNT4 is associated with better survival prognosis and affects acetylation by regulating O-GlcNAc modification levels, inhibiting the proliferation and migration of renal cancer cells, providing a new potential target for the treatment of ccRCC.

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整合转录组分析和组合机器学习构建ccRCC乙酰化稳态模型并验证关键基因GCNT4。

背景：透明细胞肾细胞癌是泌尿系统最常见的恶性肿瘤之一。蛋白质乙酰化在调节细胞过程和癌症信号通路中起关键作用。本研究从乙酰化角度探讨ccRCC的潜在生物学机制。方法：本研究从TCGA和ICGC获取ccRCC的RNA-seq数据和临床信息，从GEO数据库获取单细胞RNA测序数据集。采用10种机器学习算法及其101种组合分析乙酰化相关差异表达基因（DEGs）的预后意义，构建预后风险模型。采用GSEA分析高危组和低危组不同信号通路的富集情况，并评估免疫浸润与风险评分的相关性。最后通过细胞实验验证关键基因GCNT4的功能。结果：本研究鉴定出84个乙酰化调控关键基因，这些基因在肿瘤组织和正常组织中表达差异显著，与患者预后密切相关。LASSO + RSF联合模型效果最好，能准确预测患者预后。高危组患者的生存率明显低于低危组。GCNT4的高表达与更好的生存预后相关，并且在正常组织中的表达水平高于肿瘤组织。过表达GCNT4可显著抑制肾癌细胞的增殖、侵袭和迁移，并可能通过调节细胞中O-GlcNAc修饰水平影响乙酰化。结论：本研究通过转录组分析和机器学习构建了ccRCC乙酰化稳态模型，验证了GCNT4是关键基因。GCNT4高表达与更好的生存预后相关，并通过调节O-GlcNAc修饰水平影响乙酰化，抑制肾癌细胞的增殖和迁移，为治疗ccRCC提供了新的潜在靶点。

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

Cancer Cell International ONCOLOGY-

CiteScore

10.90

自引率

1.70%

发文量

360

审稿时长

1 months

期刊介绍： Cancer Cell International publishes articles on all aspects of cancer cell biology, originating largely from, but not limited to, work using cell culture techniques. The journal focuses on novel cancer studies reporting data from biological experiments performed on cells grown in vitro, in two- or three-dimensional systems, and/or in vivo (animal experiments). These types of experiments have provided crucial data in many fields, from cell proliferation and transformation, to epithelial-mesenchymal interaction, to apoptosis, and host immune response to tumors. Cancer Cell International also considers articles that focus on novel technologies or novel pathways in molecular analysis and on epidemiological studies that may affect patient care, as well as articles reporting translational cancer research studies where in vitro discoveries are bridged to the clinic. As such, the journal is interested in laboratory and animal studies reporting on novel biomarkers of tumor progression and response to therapy and on their applicability to human cancers.