Phase separation of p85β modulates hepatocellular carcinoma progression through POLR1A
Yifan Zhang, Dong Zhang, Yi Duan, Gaoping Cui, Yanhua Zhang, Baoyu He, Meilian Yao, Xiangyu Li, Chengkun Chen, Zhe Li, Shiyi Yang, Jiahao Zheng, Jun Gu, Dongmei Zhang, Yongzhong Liu, Zhang Lin, Huali
Journal:International Journal of Biological Sciences
IF:11.7
DOI:10.7150/ijbs.130598
PMID:42212331
Published:2026-05-18
research field:细胞生物学癌症生物学分子肿瘤学信号转导RNA生物学基因调控
Abstract
PI3K complex consists of catalytic subunit p110s and regulatory subunit p85s. Emerging evidence indicates that p110-free p85 subunits play pivotal roles in diverse biological processes, including cancer progression. In this study, we demonstrate the underlying mechanism of p110-free p85β in hepatocellular carcinoma (HCC) development. PIK3R2/p85β is upregulated in HCC and correlates with poor patient survival. Nuclear p85β, but not its cytoplasmic counterpart, exhibits oncogenic activity. In the nucleus of HCC cells, p85β undergoes liquid-liquid phase separation (LLPS) and specifically accumulates in the fibrillar centers of nucleoli, where it drives HCC progression. Within the nucleolar compartment, p85β interacts with and stabilizes POLR1A, the catalytic core subunit of RNA polymerase I, thereby enhancing rRNA biosynthesis and maintaining HCC stemness. Furthermore, we develop an engineered circular RNA that encodes a peptide containing p110α ABD domain, which effectively suppresses HCC tumor growth by simultaneously disrupting p85β/POLR1A condensates and inhibiting PI3K/AKT signaling pathway, offering a novel RNA-based therapeutic strategy against HCC.
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