4.6 Article

Disparities in Lung Cancer: miRNA Isoform Characterization in Lung Adenocarcinoma

Journal

CANCERS
Volume 14, Issue 3, Pages -

Publisher

MDPI
DOI: 10.3390/cancers14030773

Keywords

miRNA isoform; isomiR; miRNA editing; lung adenocarcinoma; race-disparities

Categories

Funding

  1. National Institutes of Health [NCI 5U01CA213330, 1P20CA252717-01A1, NCATS 5KL2TR002648]

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Post-transcriptional modifications in miRNA molecules have provided new insights into cancer biology and potential cancer biomarkers. In this study, we analyzed the profiles of canonical and non-canonical miRNAs in lung cancer patients of different races. We identified distinct post-transcriptional modifications in lung cancer tissues, indicating the relevance of miRNA isoforms as potential biomarkers. Concurrent profiling of canonical and non-canonical miRNAs may help identify additional biological pathways and biomarkers in lung cancer.
Simple Summary Post-transcriptional modification events in miRNA molecules have revealed a more complex layer to cancer biology. Such modifications have created a novel path to developing and testing potential cancer biomarkers. Here, we concurrently profiled canonical and non-canonical miRNA molecules in White American (W) and Black or African American (B/AA) lung adenocarcinoma (LUAD) patients from The Cancer Genome Atlas (TCGA) cohort. We identified distinct potential post-transcriptional modifications in lung cancer tissues from W versus B/AA patients. Our results suggested the relevance of miRNA isoforms as potential biomarkers in lung cancer. Despite the development of targeted therapeutics, immunotherapy, and strategies for early detection, lung cancer carries a high mortality. Further, significant racial disparities in outcomes exist for which the molecular drivers have yet to be fully elucidated. The growing field of Epitranscriptomics has introduced a new layer of complexity to the molecular pathogenesis of cancer. RNA modifications can occur in coding and non-coding RNAs, such as miRNAs, possibly altering their gene regulatory function. The potential role for such modifications as clinically informative biomarkers remains largely unknown. Here, we concurrently profiled canonical miRNAs, shifted isomiRs (templated and non-templated), and miRNAs with single-point modification events (RNA and DNA) in White American (W) and Black or African American (B/AA) lung adenocarcinoma (LUAD) patients. We found that while most deregulated miRNA isoforms were similar in W and B/AA LUAD tissues compared to normal adjacent tissues, there was a subgroup of isoforms with deregulation according to race. We specifically investigated an edited miRNA, miR-151a-3p with an A-to-I editing event at position 3, to determine how its altered expression may be associated with activation of divergent biological pathways between W and B/AA LUAD patients. Finally, we identified distinct race-specific miRNA isoforms that correlated with prognosis for both Ws and B/AAs. Our results suggested that concurrently profiling canonical and non-canonical miRNAs may have potential as a strategy for identifying additional distinct biological pathways and biomarkers in lung cancer.

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