Genome-wide CRISPR/Cas9 screening identifies CARHSP1 responsible for radiation resistance in glioblastoma

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作者
Guo-dong Zhu
Jing Yu
Zheng-yu Sun
Yan Chen
Hong-mei Zheng
Mei-lan Lin
Shi Ou-yang
Guo-long Liu
Jie-wen Zhang
Feng-min Shao
机构
[1] Guangzhou Geriatric Hospital,Departments of Geriatrics and Oncology
[2] Guangzhou First People’s Hospital,Departments of Geriatrics and Oncology
[3] School of Medicine,Department of Blood Transfusion
[4] South China University of Technology,Department of Neurology, Henan Provincial People’s Hospital
[5] Wuhan No.1 Hospital/Wuhan Hospital of Traditional Chinese and Western Medicine,Department of Geriatrics
[6] Tongji Medical College,Department of Breast Surgery
[7] Huazhong University of Science and Technology,Department of Infection Disease
[8] Zhengzhou University People’s Hospital,Department of Nephrology
[9] The First Affiliated Hospital of Chongqing Medical University,undefined
[10] Hubei Cancer Hospital,undefined
[11] Tongji Medical College,undefined
[12] Huazhong University of Science and Technology and Hubei Provincial Clinical Research Center for Breast Cancer,undefined
[13] The Fifth Affiliated Hospital of Guangzhou Medical University,undefined
[14] Henan Provincial Key Laboratory of Kidney Disease and Immunology,undefined
[15] Henan Provincial People’s Hospital,undefined
[16] Zhengzhou University People’s Hospital,undefined
来源
Cell Death & Disease | / 12卷
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摘要
Glioblastomas (GBM) is the most common primary malignant brain tumor, and radiotherapy plays a critical role in its therapeutic management. Unfortunately, the development of radioresistance is universal. Here, we identified calcium-regulated heat-stable protein 1 (CARHSP1) as a critical driver for radioresistance utilizing genome-wide CRISPR activation screening. This is a protein with a cold-shock domain (CSD)-containing that is highly similar to cold-shock proteins. CARHSP1 mRNA level was upregulated in irradiation-resistant GBM cells and knockdown of CARHSP1 sensitized GBM cells to radiotherapy. The high expression of CARHSP1 upon radiation might mediate radioresistance by activating the inflammatory signaling pathway. More importantly, patients with high levels of CARHSP1 had poorer survival when treated with radiotherapy. Collectively, our findings suggested that targeting the CARHSP1/TNF-α inflammatory signaling activation induced by radiotherapy might directly affect radioresistance and present an attractive therapeutic target for GBM, particularly for patients with high levels of CARHSP1.
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