生物
核糖体生物发生
药物基因组学
癌症研究
免疫系统
基因
转录组
膀胱癌
转录因子
基因表达
癌症
重编程
体细胞
生物信息学
基因表达谱
计算生物学
免疫疗法
核糖体蛋白
基因亚型
核糖体
肿瘤科
比例危险模型
基因表达调控
生存分析
临床意义
免疫组织化学
生物发生
基因组学
遗传学
肿瘤进展
作者
Guangyue Luo,Weibo Wang,Supeng Tai,Lei Yan,Hailang Luo,Yifan Chang,Lexing Yang,Junyi Yan,Jun Zhou,Chaozhao Liang
标识
DOI:10.3389/fimmu.2026.1810132
摘要
Background: Bladder cancer (BLCA) is clinically heterogeneous, and conventional staging does not fully capture individual risk. Ribosome biogenesis (RiBi) is implicated in cancer, but its prognostic relevance in BLCA is not well defined. Methods: Survival-annotated tumor transcriptomes from TCGA-BLCA were analyzed and externally evaluated in GSE13507. Tumor-normal differential expression was intersected with a curated RiBi gene set to prioritize candidates. Cox modeling with machine-learning-based strategy selection yielded a three-gene ribosome biogenesis-related score (RBscore). RBscore was evaluated for overall survival (OS) stratification, independence from clinicopathological variables, and integration with nodal status in a nomogram. Pathway enrichment, immune features, pharmacogenomic associations supported by molecular docking, and somatic mutation and transcription factor (TF) network features were examined. Signature gene expression was assessed in bladder cancer cell lines and paired clinical tissues. PRKDC protein expression was further evaluated by immunohistochemistry (IHC). Results: PIN4, POP4, and PRKDC comprised RBscore, which stratified OS in TCGA-BLCA and remained prognostic in GSE13507. High RBscore tumors were enriched for antigen processing and presentation and ribosome-related programs, and RBscore groups differed in immune contexture. PRKDC expression correlated with immune checkpoint-related genes including CD274, TNFRSF14, and TNFRSF25. Pharmacogenomic analyses nominated candidate compounds, with docking supporting putative binding. TP53 mutations were more frequent in the high-RBscore group. RBscore genes showed tumor-associated dysregulation in cells and tissues. Conclusion: RBscore captures prognostic heterogeneity in BLCA and connects RiBi-associated transcriptional programs with pathway activity, immune contexture, and complementary pharmacogenomic and genomic features, providing a basis for integrative risk assessment and testable hypotheses for downstream validation.
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