Transcriptome-Based Traits of Radioresistant Sublines of Non-Small Cell Lung Cancer Cells

Radioresistance is a major obstacle for the successful therapy of many cancers, including non-small cell lung cancer (NSCLC). To elucidate the mechanism of radioresistance of NSCLC cells and to identify key molecules conferring radioresistance, the radioresistant subclones of p53 wild-type A549 and p53-deficient H1299 cell cultures were established. The transcriptional changes between parental and radioresistant NSCLC cells were investigated by RNA-seq. In total, expression levels of 36,596 genes were measured. Changes in the activation of intracellular molecular pathways of cells surviving irradiation relative to parental cells were quantified using the Oncobox bioinformatics platform. Following 30 rounds of 2 Gy irradiation, a total of 322 genes were differentially expressed between p53 wild-type radioresistant A549IR and parental A549 cells. For the p53-deficient (H1299) NSCLC cells, the parental and irradiated populations differed in the expression of 1628 genes and 1616 pathways. The expression of genes associated with radioresistance reflects the complex biological processes involved in clinical cancer cell eradication and might serve as a potential biomarker and therapeutic target for NSCLC treatment.

Automated summary

Radioresistance is a major obstacle in the successful therapy of many cancers, including non-small cell lung cancer (NSCLC). By comparing the transcriptional changes of radioresistant NSCLC cells with parental cells using RNA-seq, differentially expressed genes associated with radioresistance were identified. These gene expressions reflect the complex biological processes involved in clinical cancer cell eradication and might serve as potential biomarkers and therapeutic targets for NSCLC treatment.