FBP1控制着衰老的MASH肝细胞引发的肝癌演变。

FBP1 controls liver cancer evolution from senescent MASH hepatocytes.

作者信息

Gu Li, Zhu Yahui, Nandi Shuvro P, Lee Maiya, Watari Kosuke, Bareng Breanna, Ohira Masafumi, Liu Yuxiao, Sakane Sadatsugu, Carlessi Rodrigo, Sauceda Consuelo, Dhar Debanjan, Ganguly Souradipta, Hosseini Mojgan, Teneche Marcos G, Adams Peter D, Gonzalez David J, Kisseleva Tatiana, Tirnitz-Parker Janina E E, Simon M Celeste, Alexandrov Ludmil B, Karin Michael

机构信息

Laboratory of Gene Regulation and Signal Transduction, Departments of Pharmacology and Pathology, School of Medicine, University of California San Diego (UCSD), La Jolla, CA, USA.

Department of Laboratory Medicine, West China Hospital, Sichuan University, Chengdu, China.

出版信息

Nature. 2025 Jan;637(8045):461-469. doi: 10.1038/s41586-024-08317-9. Epub 2025 Jan 1.

DOI:10.1038/s41586-024-08317-9

PMID:39743585

Abstract

Hepatocellular carcinoma (HCC) originates from differentiated hepatocytes undergoing compensatory proliferation in livers damaged by viruses or metabolic-dysfunction-associated steatohepatitis (MASH). While increasing HCC risk, MASH triggers p53-dependent hepatocyte senescence, which we found to parallel hypernutrition-induced DNA breaks. How this tumour-suppressive response is bypassed to license oncogenic mutagenesis and enable HCC evolution was previously unclear. Here we identified the gluconeogenic enzyme fructose-1,6-bisphosphatase 1 (FBP1) as a p53 target that is elevated in senescent-like MASH hepatocytes but suppressed through promoter hypermethylation and proteasomal degradation in most human HCCs. FBP1 first declines in metabolically stressed premalignant disease-associated hepatocytes and HCC progenitor cells, paralleling the protumorigenic activation of AKT and NRF2. By accelerating FBP1 and p53 degradation, AKT and NRF2 enhance the proliferation and metabolic activity of previously senescent HCC progenitors. The senescence-reversing and proliferation-supportive NRF2-FBP1-AKT-p53 metabolic switch, operative in mice and humans, also enhances the accumulation of DNA-damage-induced somatic mutations needed for MASH-to-HCC progression.

摘要

肝细胞癌（HCC）起源于在病毒或代谢功能障碍相关脂肪性肝炎（MASH）损伤的肝脏中进行代偿性增殖的分化肝细胞。虽然MASH会增加HCC风险，但它会触发p53依赖性肝细胞衰老，我们发现这种衰老与营养过剩诱导的DNA断裂相似。此前尚不清楚这种肿瘤抑制反应是如何被绕过从而允许致癌性诱变并促进HCC演变的。在这里，我们鉴定出糖异生酶果糖-1,6-二磷酸酶1（FBP1）是p53的一个靶标，它在类似衰老的MASH肝细胞中升高，但在大多数人类HCC中通过启动子高甲基化和蛋白酶体降解而受到抑制。FBP1首先在代谢应激的癌前疾病相关肝细胞和HCC祖细胞中下降，这与AKT和NRF2的促肿瘤激活过程相似。通过加速FBP1和p53的降解，AKT和NRF2增强了先前衰老的HCC祖细胞的增殖和代谢活性。在小鼠和人类中起作用的衰老逆转和增殖支持性NRF2-FBP1-AKT-p53代谢开关，也增强了MASH向HCC进展所需的DNA损伤诱导的体细胞突变的积累。

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FBP1控制着衰老的MASH肝细胞引发的肝癌演变。

FBP1 controls liver cancer evolution from senescent MASH hepatocytes.

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