Identification of Candidate mRNA Genes and Their Potential MicroRNA Targets in Lung Cancer Induced by Smoking Tobacco

Smoking is considered the single highest risk factor for lung cancer and has been suggested to be associated with accelerated somatic mutations in respiratory mucosa that lead to the development of lung cancer. MicroRNAs serve as modulators in smoking-induced mRNA gene expression changes in the huma...

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Veröffentlicht in:Frontiers in bioscience (Scholar edition) 2023-11, Vol.15 (4), p.13
Hauptverfasser: Mishra, Amresh Kumar, Mumtaz, Neha, Misra, Maneesh Kumar
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Sprache:eng
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Zusammenfassung:Smoking is considered the single highest risk factor for lung cancer and has been suggested to be associated with accelerated somatic mutations in respiratory mucosa that lead to the development of lung cancer. MicroRNAs serve as modulators in smoking-induced mRNA gene expression changes in the human airway epithelium and are linked to the development of lung cancer. The thermodynamics in the microRNA (miRNA)-mRNA interactions may be affected in tobacco smokers, consequently, leading to phenotypic variations in lung cancer patients. Therefore, this study aimed to investigate the impact of smoking tobacco on somatic mutations in mRNA genes and assess their potential impact on miRNA-mRNA interactions in lung cancers. The clinically significant pathogenic variants in mRNA genes in the dataset in lung cancer cases linked to smoking tobacco (n = 330) were obtained from the Cancer Atlas database (TCGA, http://cancergenome.nih.gov/) and used to assess the potential role of tobacco consumption in driving the genetic alterations in proto-oncogenes associated with lung cancer. The analysis of the miRNA interaction with the top five altered mRNA proto-oncogenes in lung cancer cases due to tobacco consumption was performed using the target prediction function in the miRDP program (Database version 5.2.3.1, https://mirdb.org/). We identified the top five mRNA proto-oncogenes enriched with simple somatic mutations (SSM) in lung cancer were , , , , and . Interestingly, we observed the highest incidence of SSM in the ( ) gene at 63.64%. Similarly, the SSM incidence was 23.94% in the ( ), 22.12% in the ( ), 18.48% in the ( ), and 14.24% in the ( ) genes. Subsequently, we used a bioinformatics approach to assess the effect of miRNA-mRNA interactions in lung cancer among the top five SSM-enriched mRNA proto-oncogenes. Among the top 20 identified and selected miRNAs, we observed 18 unique microRNAs that bind specifically to , , and genes and 17 and 19 microRNAs that exclusively bind with the and genes, respectively. Our study found that the top five SSM-enriched mRNA proto-oncogenes in lung cancers among tobacco smokers were , , , , and . Further, our results provide an important insight into the involvement of the intricate network of mRNA-miRNA interactions in the development of lung cancer.
ISSN:1945-0516
1945-0524
DOI:10.31083/j.fbs1504013