Discovery of the inhibitor of DNA binding 1 as a novel marker for radioresistance in pancreatic cancer using genome-wide RNA-seq.

IF 4.6 Q1 ONCOLOGY 癌症耐药(英文) Pub Date : 2022-01-01 DOI:10.20517/cdr.2022.60
Oscar Zuniga, Stephanie Byrum, Adam R Wolfe
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Abstract

Purpose/Objective(s): Discovery of genetic drivers of radioresistance is critical for developing novel therapeutic strategies to combine with radiotherapy of radioresistant PDAC. In this study, we used genome-wide RNA-seq to identify genes upregulated in generated radioresistant PDAC cell lines and discovered the Inhibitor of DNA Binding 1 (ID1) gene as a potential regulator of radioresistance in PDAC. Materials/Methods: Radioresistant clones of the PDAC cell lines MIA PaCa-2 and PANC-1 were generated by delivering daily ionizing irradiation (IR) (2 Gy/day) in vitro over two weeks (total 20 Gy) followed by standard clonogenic assays following one week from the end of IR. The generated RR and parental cell lines were submitted for RNA-seq analysis to identify differentially expressed genes. The Limma R package was used to calculate differential expression among genes. Log2 fold change values were calculated for each sample compared to the control. Genes with an absolute fold change > 1 were considered significant. RNA sequencing expression data from the Cancer Genome Atlas (TCGA) database was analyzed through the online databases GEPIA, cBioPortal, and the Human Protein Atlas. Results: Following exposure to two weeks of 2 Gy daily IR in vitro, the two PDAC cell lines showed significantly greater clonogenic cell survival than their parental cell lines, indicating enhanced RR in these cells. RNA-seq analysis comparing parental and RR cell lines found upregulated seven genes (TNS4, ZDHHC8P1, APLNR, AQP3, SPP1, ID1, ID2) and seven genes downregulated (PTX3, ITGB2, EPS8L1, ALDH1L2, KCNT2, ARHGAP9, IFI16) in both RR cell lines. Western blotting confirmed increased expression of the ID1 protein in the RR cell lines compared to their parental cell lines. We found that ID1 mRNA was significantly higher in PDAC tumors compared to matched normal and high ID1 expression correlated with significantly worse disease-free survival (DFS) in PDAC patients (HR = 2.2, log rank P = 0.009). ID1 mRNA expression was also strongly correlated in tumors with TP53 mutation, a known driver of radioresistance. Conclusion: Our analysis indicates a novel role of ID1 in PDAC radioresistance. ID1 expression is higher in tumor tissue compared to normal, and high expression correlates with both worse DFS and association with the TP53 mutation, suggesting that targeting ID1 prior to IR is an attractive strategy for overcoming radioresistance in PDAC.

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利用全基因组RNA-seq发现DNA结合1抑制剂作为胰腺癌放射耐药的新标志物。
目的/目的:发现放射耐药的遗传驱动因素对于开发新的治疗策略以结合放射耐药PDAC的放疗至关重要。在这项研究中,我们使用全基因组RNA-seq技术鉴定了在产生的PDAC耐辐射细胞系中上调的基因,发现了DNA结合1抑制剂(ID1)基因是PDAC耐辐射的潜在调节因子。材料/方法:PDAC细胞系MIA PaCa-2和PANC-1的耐辐射克隆是通过在体外进行2周(总20 Gy)的每日电离照射(IR),然后在IR结束后一周进行标准克隆测定产生的。将生成的RR和亲本细胞系提交RNA-seq分析,以鉴定差异表达基因。采用Limma R包计算基因间差异表达量。与对照相比,计算每个样本的Log2倍变化值。绝对折叠变化大于1的基因被认为是显著的。通过在线数据库GEPIA、cBioPortal和Human Protein Atlas分析来自癌症基因组图谱(TCGA)数据库的RNA测序表达数据。结果:在体外暴露于2周每日2 Gy的IR后,两种PDAC细胞系的克隆细胞存活率明显高于其亲本细胞系,表明这些细胞的RR增强。RNA-seq分析发现,亲本和RR细胞系中有7个基因(TNS4、ZDHHC8P1、APLNR、AQP3、SPP1、ID1、ID2)表达上调,7个基因(PTX3、ITGB2、EPS8L1、ALDH1L2、KCNT2、ARHGAP9、IFI16)表达下调。Western blotting证实,与亲本细胞系相比,RR细胞系中ID1蛋白的表达增加。我们发现,ID1 mRNA在PDAC肿瘤中的表达明显高于匹配的正常肿瘤,且ID1高表达与PDAC患者显著较差的无病生存(DFS)相关(HR = 2.2, log rank P = 0.009)。肿瘤中ID1 mRNA的表达也与TP53突变密切相关,TP53突变是已知的辐射耐药驱动因素。结论:我们的分析表明ID1在PDAC耐药中的新作用。与正常相比,ID1在肿瘤组织中的表达更高,高表达与更差的DFS和与TP53突变相关,这表明在IR之前靶向ID1是克服PDAC放射耐药的一种有吸引力的策略。
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