In Vivo CRISPR Activation Screening Reveals Chromosome 1q Genes VPS72, GBA1, and MRPL9 Drive Hepatocellular Carcinoma

IF 7.1 1区医学 Q1 GASTROENTEROLOGY & HEPATOLOGY Cellular and Molecular Gastroenterology and Hepatology Pub Date : 2025-01-01 DOI:10.1016/j.jcmgh.2025.101460

Alexandra M. Vázquez Salgado , Chunmiao Cai , Markcus Lee II , Dingzi Yin , Marie-Lise Chrystostome , Adrienne F. Gefre , Shirui He , Julia E. Kieckhaefer , Kirk J. Wangensteen

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Abstract

Background & Aims

Hepatocellular carcinoma (HCC) frequently undergoes regional chromosomal amplification, resulting in elevated gene expression levels. We aimed to elucidate the role of these poorly understood genetic changes by using CRISPR activation (CRISPRa) screening in mouse livers to identify which genes within these amplified loci are cancer driver genes.

Methods

We used data from The Cancer Genome Atlas to identify that frequently copy number-amplified and up-regulated genes all reside on human chromosomes 1q and 8q. We generated CRISPRa screening transposons that contain oncogenic Myc to drive tumor formation. We conducted CRISPRa screens in vivo in the liver to identify tumor driver genes. We extensively validated the findings in separate mice and performed RNA sequencing analysis to explore mechanisms driving tumorigenesis.

Results

We targeted genes that frequently undergo amplification in human HCC using an in vivo CRISPRa screening system in mice, which induced extensive liver tumorigenesis. Human chromosome 1q genes Zbtb7b, Vps72, Gba1, and Mrpl9 emerged as drivers of liver tumorigenesis. In human HCC there is a trend in correlation between levels of MRPL9, VPS72, or GBA1 and poor survival. In validation assays, activation of Vps72, Gba1, or Mrpl9 resulted in extensive liver tumorigenesis and decreased survival in mice. RNA sequencing revealed different mechanisms driving HCC, with Mrpl9 activation altering genes functionally related to mitochondrial function, Vps72 levels altering phospholipid metabolism, and Gba1 activation enhancing endosomal-lysosomal activity, all leading to promotion of cellular proliferation. Analysis of human tumor tissues with high levels of MRPL9, VPS72, or GBA1 revealed congruent results, indicating conserved mechanisms driving HCC.

Conclusions

This study reveals chromosome 1q genes Vps72, Gba1, and Mrpl9 as drivers of HCC. Future efforts to prevent or treat HCC can focus on these new driver genes.

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体内CRISPR激活筛选揭示1q染色体基因VPS72， GBA1和MRPL9驱动肝细胞癌

背景与目的：肝细胞癌（HCC）经常发生区域性染色体扩增，导致基因表达水平升高。我们的目的是通过在小鼠肝脏中使用CRISPR激活（CRISPRa）筛选来确定这些扩增基因座中的哪些基因是癌症驱动基因，从而阐明这些鲜为人知的遗传变化的作用。方法：利用癌症基因组图谱（Cancer Genome Atlas）的数据，鉴定出频繁复制数扩增和上调的基因都位于人类染色体1q和8q上。我们生成了含有致癌Myc的CRISPRa筛选转座子，以驱动肿瘤形成。我们在肝脏中进行了CRISPRa筛选，以鉴定肿瘤驱动基因。我们在单独的小鼠中广泛验证了这些发现，并进行了RNA测序分析，以探索驱动肿瘤发生的机制。结果：我们利用小鼠体内CRISPRa筛选系统靶向人类HCC中频繁扩增的基因，这些基因诱导了广泛的肝肿瘤发生。人类染色体1q基因Zbtb7b、Vps72、Gba1和Mrpl9是肝脏肿瘤发生的驱动因素。在人类HCC中，MRPL9、VPS72或GBA1水平与不良生存率之间存在相关性趋势。在验证试验中，Vps72、Gba1或Mrpl9的激活导致小鼠肝脏广泛肿瘤发生并降低存活。RNA测序揭示了HCC的不同驱动机制，Mrpl9激活改变与线粒体功能功能相关的基因，Vps72水平改变磷脂代谢，Gba1激活增强内体溶酶体活性，均可促进细胞增殖。对具有高水平MRPL9、VPS72或GBA1的人类肿瘤组织的分析显示出一致的结果，表明HCC的驱动机制是保守的。结论：本研究揭示1q染色体基因Vps72、Gba1和Mrpl9是HCC的驱动因素。未来预防或治疗HCC的努力可以集中在这些新的驱动基因上。

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来源期刊

Cellular and Molecular Gastroenterology and Hepatology Medicine-Gastroenterology

CiteScore

13.00

自引率

2.80%

发文量

246

审稿时长

42 days

期刊介绍： "Cell and Molecular Gastroenterology and Hepatology (CMGH)" is a journal dedicated to advancing the understanding of digestive biology through impactful research that spans the spectrum of normal gastrointestinal, hepatic, and pancreatic functions, as well as their pathologies. The journal's mission is to publish high-quality, hypothesis-driven studies that offer mechanistic novelty and are methodologically robust, covering a wide range of themes in gastroenterology, hepatology, and pancreatology. CMGH reports on the latest scientific advances in cell biology, immunology, physiology, microbiology, genetics, and neurobiology related to gastrointestinal, hepatobiliary, and pancreatic health and disease. The research published in CMGH is designed to address significant questions in the field, utilizing a variety of experimental approaches, including in vitro models, patient-derived tissues or cells, and animal models. This multifaceted approach enables the journal to contribute to both fundamental discoveries and their translation into clinical applications, ultimately aiming to improve patient care and treatment outcomes in digestive health.