4.7 Article

Signatures of Co-Deregulated Genes and Their Transcriptional Regulators in Lung Cancer

Journal

Publisher

MDPI
DOI: 10.3390/ijms231810933

Keywords

lung cancer; tumor heterogeneity; Characteristic Direction; co-deregulated genes; single-gene perturbation; single-drug perturbation; drug repurposing; GEO2Enrichr; X2K

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In this study, the authors reanalyzed deregulated signatures in lung cancer and identified critical co-deregulated genes. These genes were associated with immune response and cell signaling pathway abnormalities, and exhibited overlapping networks with transcription factors and kinases. Additionally, potential repurposing drugs were highlighted using Connectivity Map. These findings provide an innovative framework for the development of personalized therapeutic strategies.
Despite the significant progress made towards comprehending the deregulated signatures in lung cancer, these vary from study to study. We reanalyzed 25 studies from the Gene Expression Omnibus (GEO) to detect and annotate co-deregulated signatures in lung cancer and in single-gene or single-drug perturbation experiments. We aimed to decipher the networks that these co-deregulated genes (co-DEGs) form along with their upstream regulators. Differential expression and upstream regulators were computed using Characteristic Direction and Systems Biology tools, including GEO2Enrichr and X2K. Co-deregulated gene expression profiles were further validated across different molecular and immune subtypes in lung adenocarcinoma (TCGA-LUAD) and lung adenocarcinoma (TCGA-LUSC) datasets, as well as using immunohistochemistry data from the Human Protein Atlas, before being subjected to subsequent GO and KEGG enrichment analysis. The functional alterations of the co-upregulated genes in lung cancer were mostly related to immune response regulating the cell surface signaling pathway, in contrast to the co-downregulated genes, which were related to S-nitrosylation. Networks of hub proteins across the co-DEGs consisted of overlapping TFs (SOX2, MYC, KAT2A) and kinases (MAPK14, CSNK2A1 and CDKs). Furthermore, using Connectivity Map we highlighted putative repurposing drugs, including valproic acid, betonicine and astemizole. Similarly, we analyzed the co-DEG signatures in single-gene and single-drug perturbation experiments in lung cancer cell lines. In summary, we identified critical co-DEGs in lung cancer providing an innovative framework for their potential use in developing personalized therapeutic strategies.

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