Yang Qixin, Huang Jing, He Jiang, Liu Xueyang, Yu Lu, Li Yuehua
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We then evaluated the ability of the prognostic model to predict ccRCC overall survival and demonstrated that RCN1 can be used as a target to predict ccRCC prognosis.</p><p><strong>Results: </strong>We deduce that the two clusters associated with Treg infiltration exhibit distinct compositions of the immune microenvironment, pathway activations, prognosis, and drug sensitivities commonly utilized in ccRCC treatment. Furthermore, a 7-gene model risk score, developed based on ccRCC Treg infiltration, proved to be a reliable prognostic marker in both training and validation cohorts. Additionally, survival analysis indicated that RCN1 serves as a reliable prognostic factor for ccRCC. Single-cell sequencing analysis revealed that RCN1 is predominantly expressed in tumor cells. A pan-cancer analysis highlighted that RCN1 is linked with poor prognosis and the activation of inflammatory response pathways across various cancers.</p><p><strong>Conclusion: </strong>We developed a prognostic model associated with Treg infiltration, which facilitates the clinical categorization of ccRCC progression. 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引用次数: 0
摘要
背景:调节性 T 细胞(Tregs调节性 T 细胞(Tregs)在形成肿瘤内免疫抑制微环境方面发挥着关键作用。研究Tregs在透明细胞肾细胞癌(ccRCC)中的作用对于确定ccRCC的预后标志物和治疗靶点至关重要:方法:利用加权基因共表达网络分析(WGCNA)确定TCGA-KIRC样本中与Treg浸润相关的模块。方法:利用加权基因共表达网络分析(WGCNA)确定了TCGA-KIRC样本中与Treg浸润相关的模块,然后利用共识聚类得出了两个与ccRCC中Treg浸润相关的聚类。然后利用与 Treg 浸润相关的基因模块建立了一个预后模型。然后,我们评估了该预后模型预测ccRCC总生存期的能力,并证明RCN1可作为预测ccRCC预后的靶点:结果:我们推断出,与Treg浸润相关的两个群组在免疫微环境、通路激活、预后和ccRCC治疗中常用的药物敏感性方面表现出不同的构成。此外,根据 ccRCC Treg 浸润情况开发的 7 基因模型风险评分在训练组和验证组中都被证明是可靠的预后标志物。此外,生存分析表明,RCN1是ccRCC的可靠预后因素。单细胞测序分析表明,RCN1 主要在肿瘤细胞中表达。一项泛癌症分析强调,RCN1与预后不良以及各种癌症的炎症反应通路激活有关:我们建立了一个与Treg浸润相关的预后模型,这有助于对ccRCC的进展进行临床分类。此外,我们的研究结果还强调了RCN1作为ccRCC生物标志物的巨大潜力。
Transcriptome-based network analysis related to regulatory T cells infiltration identified RCN1 as a potential biomarker for prognosis in clear cell renal cell carcinoma.
Background: Regulatory T cells (Tregs) play a critical role in shaping the immunosuppressive microenvironment within tumors. Investigating the role of Tregs in Clear cell renal cell carcinoma (ccRCC) is crucial for identifying prognostic markers and therapeutic targets for ccRCC.
Methods: Weighted gene co-expression network analysis (WGCNA) was utilized to pinpoint modules related to Treg infiltration in TCGA-KIRC samples. Following this, consensus clustering was employed to derive two clusters associated with Treg infiltration in ccRCC. A prognostic model was then developed using the gene module associated with Treg infiltration. We then evaluated the ability of the prognostic model to predict ccRCC overall survival and demonstrated that RCN1 can be used as a target to predict ccRCC prognosis.
Results: We deduce that the two clusters associated with Treg infiltration exhibit distinct compositions of the immune microenvironment, pathway activations, prognosis, and drug sensitivities commonly utilized in ccRCC treatment. Furthermore, a 7-gene model risk score, developed based on ccRCC Treg infiltration, proved to be a reliable prognostic marker in both training and validation cohorts. Additionally, survival analysis indicated that RCN1 serves as a reliable prognostic factor for ccRCC. Single-cell sequencing analysis revealed that RCN1 is predominantly expressed in tumor cells. A pan-cancer analysis highlighted that RCN1 is linked with poor prognosis and the activation of inflammatory response pathways across various cancers.
Conclusion: We developed a prognostic model associated with Treg infiltration, which facilitates the clinical categorization of ccRCC progression. Moreover, our findings underscore the significant potential of RCN1 as a ccRCC biomarker.
期刊介绍:
BioData Mining is an open access, open peer-reviewed journal encompassing research on all aspects of data mining applied to high-dimensional biological and biomedical data, focusing on computational aspects of knowledge discovery from large-scale genetic, transcriptomic, genomic, proteomic, and metabolomic data.
Topical areas include, but are not limited to:
-Development, evaluation, and application of novel data mining and machine learning algorithms.
-Adaptation, evaluation, and application of traditional data mining and machine learning algorithms.
-Open-source software for the application of data mining and machine learning algorithms.
-Design, development and integration of databases, software and web services for the storage, management, retrieval, and analysis of data from large scale studies.
-Pre-processing, post-processing, modeling, and interpretation of data mining and machine learning results for biological interpretation and knowledge discovery.