Non-coding small nucleolar RNA SNORD17 promotes the progression of hepatocellular carcinoma through a positive feedback loop upon p53 inactivation

癌症研究 小核仁RNA 长非编码RNA 生物 核质 核磷蛋白 p14arf公司 肝细胞癌 肿瘤进展 BRD4 下调和上调 癌症 核仁 溴尿嘧啶 基因 乙酰化 细胞生物学 抑癌基因 癌变 遗传学 髓系白血病 细胞质
作者
Junnan Liang,Ganxun Li,Jingyu Liao,Zhao Hui Huang,Jingyuan Wen,Yu Wang,Zeyu Chen,Guangzhen Cai,Weiqi Xu,Zeyang Ding,Huifang Liang,Pran K. Datta,Xing’ao Li,Xiaoping Chen,Bixiang Zhang
出处
期刊:Cell Death & Differentiation [Springer Nature]
卷期号:29 (5): 988-1003 被引量:8
标识
DOI:10.1038/s41418-022-00929-w
摘要

Recent evidence suggests that small nucleolar RNAs (snoRNAs) are involved in the progression of various cancers, but their precise roles in hepatocellular carcinoma (HCC) remain largely unclear. Here, we report that SNORD17 promotes the progression of HCC through a positive feedback loop with p53. HCC-related microarray datasets from the Gene Expression Omnibus (GEO) database and clinical HCC samples were used to identify clinically relevant snoRNAs in HCC. SNORD17 was found upregulated in HCC tissues compared with normal liver tissues, and the higher expression of SNORD17 predicted poor outcomes in patients with HCC, especially in those with wild-type p53. SNORD17 promoted the growth and tumorigenicity of HCC cells in vitro and in vivo by inhibiting p53-mediated cell cycle arrest and apoptosis. Mechanistically, SNORD17 anchored nucleophosmin 1 (NPM1) and MYB binding protein 1a (MYBBP1A) in the nucleolus by binding them simultaneously. Loss of SNORD17 promoted the translocation of NPM1 and MYBBP1A into the nucleoplasm, leading to NPM1/MDM2-mediated stability and MYBBP1A/p300-mediated activation of p53. Interestingly, p300-mediated acetylation of p53 inhibited SNORD17 expression by binding to the promoter of SNORD17 in turn, forming a positive feedback loop between SNORD17 and p53. Administration of SNORD17 antisense oligonucleotides (ASOs) significantly suppressed the growth of xenograft tumors in mice. In summary, this study suggests that SNORD17 drives cancer progression by constitutively inhibiting p53 signaling in HCC and may represent a potential therapeutic target for HCC.

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