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

Guodong Zhu, Jing Yu, Zhengyu Sun, Yan Chen, Hongmei Zheng, Mei‐Lan Lin, Shi Ouyang, Guo-Long Liu, Jiewen Zhang, Fengmin Shao

2021Cell Death and Disease38 citationsDOIOpen Access PDF

Abstract

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.

Topics & Concepts

RadioresistanceGene knockdownCancer researchRadiation therapyDownregulation and upregulationHeat shock proteinBiologySignal transductionTemozolomideGlioblastomaMedicineGeneCell biologyGeneticsInternal medicineHeat shock proteins researchEndoplasmic Reticulum Stress and DiseaseMitochondrial Function and Pathology
Genome-wide CRISPR/Cas9 screening identifies CARHSP1 responsible for radiation resistance in glioblastoma | Litcius