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LncRNA LIMp27 Regulates the DNA Damage Response through p27 in p53‐Defective Cancer Cells

Ting La, Song Chen, Xiao Hong Zhao, Shuai Zhou, Ran Xu, Teng Liu, Yuan Yuan Zhang, Kaihong Ye, Liang Xu, Tao Guo, M. Fairuz B. Jamaluddin, Yuchen Feng, Hai Jie Tang, Yanliang Wang, Qin Xu, Yue Gu, Huixia Cao, Tao Liu, Rick F. Thorne, Fengmin Shao, Xu Dong Zhang, Lei Jin

2023Advanced Science19 citationsDOIOpen Access PDF

Abstract

P53 inactivation occurs in about 50% of human cancers, where p53-driven p21 activity is devoid and p27 becomes essential for the establishment of the G1/S checkpoint upon DNA damage. Here, this work shows that the E2F1-responsive lncRNA LIMp27 selectively represses p27 expression and contributes to proliferation, tumorigenicity, and treatment resistance in p53-defective colon adenocarcinoma (COAD) cells. LIMp27 competes with p27 mRNA for binding to cytoplasmically localized hnRNA0, which otherwise stabilizes p27 mRNA leading to cell cycle arrest at the G0/G1 phase. In response to DNA damage, LIMp27 is upregulated in both wild-type and p53-mutant COAD cells, whereas cytoplasmic hnRNPA0 is only increased in p53-mutant COAD cells due to translocation from the nucleus. Moreover, high LIMp27 expression is associated with poor survival of p53-mutant but not wild-type p53 COAD patients. These results uncover an lncRNA mechanism that promotes p53-defective cancer pathogenesis and suggest that LIMp27 may constitute a target for the treatment of such cancers.

Topics & Concepts

DNA damageMutantCell cycle checkpointCancer researchCell cycleCytoplasmCell biologyBiologyDownregulation and upregulationCancer cellCancerDNA repairWild typeG2-M DNA damage checkpointDNAChemistryMolecular biologyGeneGeneticsCancer-related molecular mechanisms researchCancer-related Molecular PathwaysRNA modifications and cancer