多组学整合方法揭示 ZMAT3 和 p21 是 p53 肿瘤抑制网络中的保守枢纽

Anthony M. Boutelle, Aicha R. Mabene, David Yao, Haiqing Xu, Mengxiong Wang, Yuning J. Tang, Steven S. Lopez, Sauradeep Sinha, Janos Demeter, Ran Cheng, Brooks A. Benard, Liz J. Valente, Alexandros P. Drainas, Martin D. Fischer, Ravindra Majeti, Dmitri Petrov, Peter K Jackson, Fan Yang, Monte M Winslow, Michael C Bassik, Laura D. Attardi
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摘要

TP53 是人类癌症中最常见的突变基因,它编码的转录激活因子可诱导无数下游靶基因。尽管 p53 在抑制肿瘤方面起着重要作用,但对抑制肿瘤起重要作用的特定 p53 靶基因仍不清楚。最近的研究发现,p53 诱导的基因 Zmat3 是抑制肿瘤的关键效应因子,但关于它对 p53 的依赖性、在不同环境中的活性以及单独或与其他 p53 诱导的基因共同抑制肿瘤的机制仍存在许多问题。为了解决这些问题,我们在小鼠肺腺癌模型中使用了Tuba-seqUltra体细胞基因组编辑和肿瘤条形码、CRISPR/Cas9体内组合筛选、基因表达和癌症依赖图谱数据的荟萃分析以及RNA测序和散射蛋白质组的综合分析。我们确定 Zmat3 是 p53 介导的肿瘤抑制的核心成分,并确定 Cdkn1a 是 p53 诱导的肿瘤抑制中最有效的合作基因。我们发现,ZMAT3/CDKN1A几乎是p53介导的肿瘤抑制的普遍效应因子,可调节细胞分裂、迁移和细胞外基质组织。因此,与对照组相比,ZMAT3-CDKN1A联合失活会显著增强细胞增殖和迁移,这与p53失活类似。总之,我们的研究结果表明,ZMAT3 和 CDKN1A 是 p53 诱导的基因程序的枢纽,在各种细胞和基因环境中反对肿瘤发生。
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Integrative multiomic approaches reveal ZMAT3 and p21 as conserved hubs in the p53 tumor suppression network
TP53, the most frequently mutated gene in human cancer, encodes a transcriptional activator that induces myriad downstream target genes. Despite the importance of p53 in tumor suppression, the specific p53 target genes important for tumor suppression remain unclear. Recent studies have identified the p53-inducible gene Zmat3 as a critical effector of tumor suppression, but many questions remain regarding its p53-dependence, activity across contexts, and mechanism of tumor suppression alone and in cooperation with other p53-inducible genes. To address these questions, we used Tuba-seqUltra somatic genome editing and tumor barcoding in a mouse lung adenocarcinoma model, combinatorial in vivo CRISPR/Cas9 screens, meta-analyses of gene expression and Cancer Dependency Map data, and integrative RNA-sequencing and shotgun proteomic analyses. We established Zmat3 as a core component of p53-mediated tumor suppression and identified Cdkn1a as the most potent cooperating p53-induced gene in tumor suppression. We discovered that ZMAT3/CDKN1A serve as near-universal effectors of p53-mediated tumor suppression that regulate cell division, migration, and extracellular matrix organization. Accordingly, combined Zmat3-Cdkn1a inactivation dramatically enhanced cell proliferation and migration compared to controls, akin to p53 inactivation. Together, our findings place ZMAT3 and CDKN1A as hubs of a p53-induced gene program that opposes tumorigenesis across various cellular and genetic contexts.
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