Integrated Transcriptomic Analysis Identifies a Six-Gene Prognostic Signature, Rna Editing Derived Neoantigens, and Mirna Regulatory Networks in Renal Cell Carcinoma

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Integrated Transcriptomic Analysis Identifies a Six-Gene Prognostic Signature, Rna Editing Derived Neoantigens, and Mirna Regulatory Networks in Renal Cell Carcinoma Publisher

Mehmandoostli Z ; Ashkezari MD ; Seifati SM ; Kardar GA

Source: Iranian Journal of Medical Sciences Published:2026

Abstract

Background: Renal cell carcinoma (RCC) is a heterogeneous malignancy with variable outcomes and limited biomarkers for prognosis or immunotherapy response. Although mutations in VHL, SETD2, PBRM1, BAP1, FLCN, and TP53 are frequent, their integrated effects on tumor biology, RNA editing, and non-coding RNA regulation remain unclear. This study aims to integrate genetic, epigenetic, and immune features to provide mechanistic insights into RCC progression and support precision immuno-oncology and vaccine development. Methods: Transcriptomic data from TCGA-KIRC and four Gene Expression Omnibus (GEO) cohorts were normalized, batchcorrected, and integrated. Differentially expressed genes were analyzed using LASSO-Cox regression, Kaplan–Meier survival, ROC curves, and nomogram modeling. RNA editing events from REDIportal were annotated for nonsynonymous substitutions and assessed for human leukocyte antigen (HLA) class I binding. Parallel miRNA–mRNA analyses identified regulatory interactions. Functional enrichment and immune LASSO deconvolution were used to explore pathways and tumor microenvironment features. Results: VHL, SETD2, and BAP1 were downregulated, while FLCN showed heterogeneous upregulation. A six-gene prognostic signature (BAP1, SETD2, TP53, PBRM1, FLCN, VHL) stratified patients into high-and low-risk groups with AUCs>0.70 at 1, 3, and 5 years. RNA editing revealed 35 recurrent events, including 25 nonsynonymous substitutions in TP53, BAP1, and SETD2. Predicted neoantigens included both broadly presented and population-specific epitopes. Deregulated miRNAs highlighted post-transcriptional regulation influencing progression and immune evasion. Functional enrichment analysis implicated chromatin remodeling, metabolism, and immune regulation, while immune profiling linked BAP1 mutations with reduced NK/Treg infiltration and identified chromatin genes associated with endothelial and immune activity. Conclusion: This integrative study identifies a six-gene signature, recurrent RNA editing–derived neoantigens, and miRNA networks in RCC. By connecting genomic, epigenetic, and immune features, it provides mechanistic insights into RCC progression and supports precision immuno-oncology and vaccine development. ©Iranian Journal of Medical Sciences.

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Style	Citing Format
MLA	Mehmandoostli Z, et al.. "Integrated Transcriptomic Analysis Identifies a Six-Gene Prognostic Signature, Rna Editing Derived Neoantigens, and Mirna Regulatory Networks in Renal Cell Carcinoma." Iranian Journal of Medical Sciences, vol. 51, no. 5, 2026, pp. 316-339.
APA	Mehmandoostli Z, Ashkezari MD, Seifati SM, Kardar GA (2026). Integrated Transcriptomic Analysis Identifies a Six-Gene Prognostic Signature, Rna Editing Derived Neoantigens, and Mirna Regulatory Networks in Renal Cell Carcinoma. Iranian Journal of Medical Sciences, 51(5), 316-339.
Chicago	Mehmandoostli Z, Ashkezari MD, Seifati SM, Kardar GA. "Integrated Transcriptomic Analysis Identifies a Six-Gene Prognostic Signature, Rna Editing Derived Neoantigens, and Mirna Regulatory Networks in Renal Cell Carcinoma." Iranian Journal of Medical Sciences 51, no. 5 (2026): 316-339.
Harvard	Mehmandoostli Z et al. (2026) 'Integrated Transcriptomic Analysis Identifies a Six-Gene Prognostic Signature, Rna Editing Derived Neoantigens, and Mirna Regulatory Networks in Renal Cell Carcinoma', Iranian Journal of Medical Sciences, 51(5), pp. 316-339.
Vancouver	Mehmandoostli Z, Ashkezari MD, Seifati SM, Kardar GA. Integrated Transcriptomic Analysis Identifies a Six-Gene Prognostic Signature, Rna Editing Derived Neoantigens, and Mirna Regulatory Networks in Renal Cell Carcinoma. Iranian Journal of Medical Sciences. 2026;51(5):316-339.
BibTex	@article{ author = {Mehmandoostli Z and Ashkezari MD and Seifati SM and Kardar GA}, title = {Integrated Transcriptomic Analysis Identifies a Six-Gene Prognostic Signature, Rna Editing Derived Neoantigens, and Mirna Regulatory Networks in Renal Cell Carcinoma}, journal = {Iranian Journal of Medical Sciences}, volume = {51}, number = {5}, pages = {316-339}, year = {2026} }
RIS	TY - JOUR AU - Mehmandoostli Z AU - Ashkezari MD AU - Seifati SM AU - Kardar GA TI - Integrated Transcriptomic Analysis Identifies a Six-Gene Prognostic Signature, Rna Editing Derived Neoantigens, and Mirna Regulatory Networks in Renal Cell Carcinoma JO - Iranian Journal of Medical Sciences VL - 51 IS - 5 SP - 316 EP - 339 PY - 2026 ER -

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