AI Article Synopsis
- Prostate cancer's shift to neuroendocrine prostate cancer (NEPC) is influenced by lineage plasticity, particularly through the RTK/RAS signaling pathway, though this connection is not fully understood.
- A thorough analysis of multi-omics data identified 300 overlapping genes linked to prostate cancer, revealing three novel genes that were validated as upregulated in the disease using RT-qPCR.
- The study highlights that the RTK/RAS pathway enhances prostate cancer lineage plasticity through complex gene regulation, suggesting potential new avenues for NEPC treatment by targeting specific transcription factors.
Article Abstract
Prostate cancer lineage plasticity is a key driver in the transition to neuroendocrine prostate cancer (NEPC), and the RTK/RAS signaling pathway is a well-established cancer pathway. Nevertheless, the comprehensive link between the RTK/RAS signaling pathway and lineage plasticity has received limited investigation. In particular, the intricate regulatory network governing the interplay between RTK/RAS and lineage plasticity remains largely unexplored. The multi-omics data were clustered with the coefficient of argument and neighbor joining algorithm. Subsequently, the clustered results were analyzed utilizing the GSEA, gene sets related to stemness, multi-lineage state datasets, and canonical cancer pathway gene sets. Finally, a comprehensive exploration of the data based on the ssGSEA, WGCNA, GSEA, VIPER, prostate cancer scRNA-seq data, and the GPSAdb database was conducted. Among the six modules in the clustering results, there are 300 overlapping genes, including 3 previously unreported prostate cancer genes that were validated to be upregulated in prostate cancer through RT-qPCR. Function Module 6 shows a positive correlation with prostate cancer cell stemness, multi-lineage states, and the RTK/RAS signaling pathway. Additionally, the 19 leading-edge genes of the RTK/RAS signaling pathway promote prostate cancer lineage plasticity through a complex network of transcriptional regulation and copy number variations. In the transcriptional regulation network, TP63 and FOXO1 act as suppressors of prostate cancer lineage plasticity, whereas RORC exerts a promoting effect. This study provides a comprehensive perspective on the role of the RTK/RAS pathway in prostate cancer lineage plasticity and offers new clues for the treatment of NEPC.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11111877 | PMC |
| http://dx.doi.org/10.1038/s41598-024-62256-z | DOI Listing |
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