MEK抑制剂GSK1120212介导的胰腺癌细胞放射增敏作用涉及对DNA双链断裂修复途径的抑制。
MEK inhibitor GSK1120212-mediated radiosensitization of pancreatic cancer cells involves inhibition of DNA double-strand break repair pathways.
作者信息
Estrada-Bernal Adriana, Chatterjee Moumita, Haque S Jaharul, Yang Linlin, Morgan Meredith A, Kotian Shweta, Morrell David, Chakravarti Arnab, Williams Terence M
机构信息
a The Ohio State University Medical Center; Arthur G James Comprehensive Cancer Center and Richard J Solove Research Institute ; Columbus , OH USA.
b University of Michigan Comprehensive Cancer Center ; Ann Arbor , MI , USA.
出版信息
Cell Cycle. 2015;14(23):3713-24. doi: 10.1080/15384101.2015.1104437.
PURPOSE
Over 90% of pancreatic adenocarcinoma PC express oncogenic mutant KRAS that constitutively activates the Raf-MEK-MAPK pathway conferring resistance to both radiation and chemotherapy. MEK inhibitors have shown promising anti-tumor responses in recent preclinical and clinical studies, and are currently being tested in combination with radiation in clinical trials. Here, we have evaluated the radiosensitizing potential of a novel MEK1/2 inhibitor GSK1120212 (GSK212,or trametinib) and evaluated whether MEK1/2 inhibition alters DNA repair mechanisms in multiple PC cell lines.
METHODS
Radiosensitization and DNA double-strand break (DSB) repair were evaluated by clonogenic assays, comet assay, nuclear foci formation (γH2AX, DNA-PK, 53BP1, BRCA1, and RAD51), and by functional GFP-reporter assays for homologous recombination (HR) and non-homologous end-joining (NHEJ). Expression and activation of DNA repair proteins were measured by immunoblotting.
RESULTS
GSK212 blocked ERK1/2 activity and radiosensitized multiple KRAS mutant PC cell lines. Prolonged pre-treatment with GSK212 for 24-48 hours was required to observe significant radiosensitization. GSK212 treatment resulted in delayed resolution of DNA damage by comet assays and persistent γH2AX nuclear foci. GSK212 treatment also resulted in altered BRCA1, RAD51, DNA-PK, and 53BP1 nuclear foci appearance and resolution after radiation. Using functional reporters, GSK212 caused repression of both HR and NHEJ repair activity. Moreover, GSK212 suppressed the expression and activation of a number of DSB repair pathway intermediates including BRCA1, DNA-PK, RAD51, RRM2, and Chk-1.
CONCLUSION
GSK212 confers radiosensitization to KRAS-driven PC cells by suppressing major DNA-DSB repair pathways. These data provide support for the combination of MEK1/2 inhibition and radiation in the treatment of PC.
目的
超过90%的胰腺腺癌(PC)表达致癌性突变KRAS,其可组成性激活Raf-MEK-MAPK通路,使肿瘤对放疗和化疗均产生抗性。在最近的临床前和临床研究中,MEK抑制剂已显示出有前景的抗肿瘤反应,目前正在临床试验中与放疗联合进行测试。在此,我们评估了新型MEK1/2抑制剂GSK1120212(GSK212,或曲美替尼)的放射增敏潜力,并评估了MEK1/2抑制是否会改变多种PC细胞系中的DNA修复机制。
方法
通过克隆形成试验、彗星试验、核灶形成(γH2AX、DNA-PK、53BP1、BRCA1和RAD51)以及用于同源重组(HR)和非同源末端连接(NHEJ)的功能性GFP报告基因试验来评估放射增敏和DNA双链断裂(DSB)修复。通过免疫印迹法测量DNA修复蛋白的表达和激活情况。
结果
GSK212可阻断ERK1/2活性,并使多种KRAS突变的PC细胞系产生放射增敏作用。需要用GSK212进行24至48小时的延长预处理才能观察到显著的放射增敏效果。GSK212处理导致彗星试验中DNA损伤的修复延迟以及γH2AX核灶持续存在。GSK212处理还导致放疗后BRCA1、RAD51、DNA-PK和53BP1核灶的出现和消退发生改变。使用功能性报告基因,GSK212导致HR和NHEJ修复活性均受到抑制。此外,GSK212抑制了包括BRCA1、DNA-PK、RAD51、RRM2和Chk-1在内的多种DSB修复途径中间体的表达和激活。
结论
GSK212通过抑制主要的DNA-DSB修复途径使KRAS驱动的PC细胞产生放射增敏作用。这些数据为MEK1/2抑制与放疗联合用于PC治疗提供了支持。
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