N4-Acetylcytidine-Mediated CD2BP2-DT Drives YBX1 Phase Separation to Stabilize CDK1 and Promote Breast Cancer Progression

IF 14.1 1区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Advanced Science Pub Date : 2025-02-20 DOI:10.1002/advs.202411834

Hongyu Wang, Bozhi Zhao, Jiayu Zhang, Qunyu Hu, Linlin Zhou, Yinghui Zhang, Yixin Cai, Yuansong Qu, Tao Jiang, Dongwei Zhang

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Abstract

Long noncoding RNAs (lncRNAs) play critical roles in the initiation and progression of breast cancer. However, the specific mechanisms and biological functions of lncRNAs in breast cancer remain incompletely understood. Bioinformatics analysis identifies a novel lncRNA, CD2BP2-DT, that is overexpressed in breast cancer and correlates with adverse clinicopathological features and poor overall survival. Both in vivo and in vitro experiments demonstrate that CD2BP2-DT promotes proliferation of breast cancer cells. Mechanistically, NAT10 mediates the N4-acetylcytidine (ac4C) modification of CD2BP2-DT, enhancing its RNA stability and expression. More importantly, CD2BP2-DT enhances the stability of CDK1 mRNA by mediating YBX1 phase separation, thereby promoting the proliferation of breast cancer cells. In conclusion, the lncRNA CD2BP2-DT is identified as a crucial driver of breast cancer cell proliferation through the YBX1/CDK1 axis, highlighting its potential as a promising biomarker and therapeutic target for breast cancer.

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n4 -乙酰胞苷介导的CD2BP2-DT驱动YBX1相分离稳定CDK1并促进乳腺癌进展

长链非编码rna （lncRNAs）在乳腺癌的发生和发展中起着关键作用。然而，lncrna在乳腺癌中的具体机制和生物学功能尚不完全清楚。生物信息学分析发现了一种新的lncRNA CD2BP2-DT，它在乳腺癌中过表达，并与不良的临床病理特征和较差的总生存率相关。体内和体外实验均表明，CD2BP2-DT促进乳腺癌细胞增殖。机制上，NAT10介导CD2BP2-DT的n4 -乙酰胞苷（ac4C）修饰，增强其RNA稳定性和表达。更重要的是，CD2BP2-DT通过介导YBX1相分离，增强CDK1 mRNA的稳定性，从而促进乳腺癌细胞的增殖。总之，lncRNA CD2BP2-DT通过YBX1/CDK1轴被鉴定为乳腺癌细胞增殖的关键驱动因素，突出了其作为乳腺癌有前途的生物标志物和治疗靶点的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Advanced Science CHEMISTRY, MULTIDISCIPLINARYNANOSCIENCE &-NANOSCIENCE & NANOTECHNOLOGY

CiteScore

18.90

自引率

2.60%

发文量

1602

审稿时长

1.9 months

期刊介绍： Advanced Science is a prestigious open access journal that focuses on interdisciplinary research in materials science, physics, chemistry, medical and life sciences, and engineering. The journal aims to promote cutting-edge research by employing a rigorous and impartial review process. It is committed to presenting research articles with the highest quality production standards, ensuring maximum accessibility of top scientific findings. With its vibrant and innovative publication platform, Advanced Science seeks to revolutionize the dissemination and organization of scientific knowledge.