Τίτλος:
Effects of high-dose ionizing radiation in human gene expression: A meta-analysis
Γλώσσες Τεκμηρίου:
Αγγλικά
Περίληψη:
The use of high-dose Ionizing Radiation (IR) is currently one of the most common modalities in treatment of many types of cancer. The objective of this work was to investigate the effects of high-dose ionizing radiation on healthy human tissue, utilizing quantitative analysis of gene expression. To this end, publicly available transcriptomics datasets from human samples irradiated with a high dose of radiation and non-irradiated (control) ones were selected, and gene expression was determined using RNA-Seq data analysis. Raw data from these studies were subjected to quality control and trimming. Mapping of RNA-Seq reads was performed by the partial selective alignment method, and differential gene expression analysis was conducted. Subsequently, a meta-analysis was performed to select differentially expressed genes across datasets. Based on the differentially expressed genes discovered by meta-analysis, we constructed a protein-to-protein interaction network, and we identified biological pathways and processes related to high-dose IR effects. Our findings suggest that cell cycle arrest is activated, supported by our top down-regulated genes associated with cell cycle activation. DNA repair genes are down-regulated in their majority. However, several genes implicated in the nucleotide excision repair pathway are upregulated. Nevertheless, apoptotic mechanisms seem to be activated probably due to severe high-dose-induced complex DNA damage. The significant upregulation of CDKN1A, as a downstream gene of TP53, further validates programmed cell death. Finally, down-regulation of TIMELESS, signifies a correlation between IR response and circadian rhythm. Nonetheless, high-dose IR exposure effects regarding normal tissue (radiation toxicity) and its possible long-term outcomes should be studied to a greater extend. © 2020 by the authors. Licensee MDPI, Basel, Switzerland.
Συγγραφείς:
Kanakoglou, D.S.
Michalettou, T.-D.
Vasileiou, C.
Gioukakis, E.
Maneta, D.
Kyriakidis, K.V.
Georgakilas, A.G.
Michalopoulos, I.
Περιοδικό:
International Journal of Molecular Sciences
Λέξεις-κλειδιά:
DNA mismatch repair protein MSH2; POLA2 gene; protein MSH6; protein p53; transcription factor; transcription factor Dp1; transcription factor E2F1; transcription factor E2F2; unclassified drug; XRCC3 protein, Article; B-3 cell line (lens epithelium); bioinformatics; cell cycle arrest; chromatin assembly and disassembly; controlled study; DNA damage; down regulation; excision repair; gene; gene control; gene expression; gene mapping; gene ontology; gene targeting; genome; human; human cell; human tissue; IMR-90 cell line; ionizing radiation; lung fibroblast; meta analysis; microarray analysis; protein protein interaction; quality control; quantitative analysis; RNA extraction; RNA sequence; sequence alignment; transcriptomics; upregulation; cell cycle checkpoint; DNA repair; gene expression; gene expression profiling; procedures; radiation response, Cell Cycle Checkpoints; DNA Damage; DNA Repair; Dose-Response Relationship, Radiation; Down-Regulation; Gene Expression; Gene Expression Profiling; Humans; Radiation, Ionizing; Up-Regulation
DOI:
10.3390/ijms21061938