A common druggable signature of oncogenic c-Myc, mutant KRAS and mutant p53 reveals functional redundancy and competition among oncogenes in cancer.

IF 8.1 1区 生物学 Q1 CELL BIOLOGY Cell Death & Disease Pub Date : 2024-08-31 DOI:10.1038/s41419-024-06965-3
Maria Grześ, Akanksha Jaiswar, Marcin Grochowski, Weronika Wojtyś, Wojciech Kaźmierczak, Tomasz Olesiński, Małgorzata Lenarcik, Magdalena Nowak-Niezgoda, Małgorzata Kołos, Giulia Canarutto, Silvano Piazza, Jacek R Wiśniewski, Dawid Walerych
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Abstract

The major driver oncogenes MYC, mutant KRAS, and mutant TP53 often coexist and cooperate to promote human neoplasia, which results in anticancer therapeutic opportunities within their downstream molecular programs. However, little research has been conducted on whether redundancy and competition among oncogenes affect their programs and ability to drive neoplasia. By CRISPR‒Cas9-mediated downregulation we evaluated the downstream proteomics and transcriptomics programs of MYC, mutant KRAS, and mutant TP53 in a panel of cell lines with either one or three of these oncogenes activated, in cancers of the lung, colon and pancreas. Using RNAi screening of the commonly activated molecular programs, we found a signature of three proteins - RUVBL1, HSPA9, and XPO1, which could be efficiently targeted by novel drug combinations in the studied cancer types. Interestingly, the signature was controlled by the oncoproteins in a redundant or competitive manner rather than by cooperation. Each oncoprotein individually upregulated the target genes, while upon oncogene co-expression each target was controlled preferably by a dominant oncoprotein which reduced the influence of the others. This interplay was mediated by redundant routes of target gene activation - as in the case of mutant KRAS signaling to c-Jun/GLI2 transcription factors bypassing c-Myc activation, and by competition - as in the case of mutant p53 and c-Myc competing for binding to target promoters. The global transcriptomics data from the cell lines and patient samples indicate that the redundancy and competition of oncogenic programs are broad phenomena, that may constitute even a majority of the genes dependent on oncoproteins, as shown for mutant p53 in colon and lung cancer cell lines. Nevertheless, we demonstrated that redundant oncogene programs harbor targets for efficient anticancer drug combinations, bypassing the limitations for direct oncoprotein inhibition.

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致癌基因 c-Myc、突变 KRAS 和突变 p53 的共同可药用特征揭示了癌症中致癌基因之间的功能冗余和竞争。
主要驱动癌基因 MYC、突变 KRAS 和突变 TP53 经常共存并合作促进人类肿瘤的发展,从而在其下游分子程序中产生抗癌治疗机会。然而,对于癌基因之间的冗余和竞争是否会影响它们的程序和驱动瘤变的能力,目前还鲜有研究。通过 CRISPR-Cas9 介导的下调,我们评估了肺癌、结肠癌和胰腺癌细胞系中 MYC、突变 KRAS 和突变 TP53 的下游蛋白质组学和转录组学程序。通过对通常激活的分子程序进行 RNAi 筛选,我们发现了三种蛋白质的特征--RUVBL1、HSPA9 和 XPO1,在所研究的癌症类型中,这些蛋白质可以被新型药物组合有效地靶向。有趣的是,该特征是由肿瘤蛋白以冗余或竞争的方式而非合作的方式控制的。每种癌蛋白都能单独上调靶基因,而当癌基因共同表达时,每种靶基因都会受到一种优势癌蛋白的控制,从而降低其他癌蛋白的影响。这种相互作用是由靶基因激活的冗余途径(如突变 KRAS 信号传导至 c-Jun/GLI2 转录因子,绕过 c-Myc 激活)和竞争(如突变 p53 和 c-Myc 竞争结合到靶启动子)介导的。细胞系和患者样本的全局转录组学数据表明,致癌程序的冗余和竞争是一种广泛的现象,甚至可能构成依赖于癌蛋白的大部分基因,如结肠癌和肺癌细胞系中突变 p53 的情况。尽管如此,我们还是证明了冗余致癌基因程序蕴藏着高效抗癌药物组合的靶点,从而绕过了直接抑制癌蛋白的限制。
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来源期刊
Cell Death & Disease
Cell Death & Disease CELL BIOLOGY-
CiteScore
15.10
自引率
2.20%
发文量
935
审稿时长
2 months
期刊介绍: Brought to readers by the editorial team of Cell Death & Differentiation, Cell Death & Disease is an online peer-reviewed journal specializing in translational cell death research. It covers a wide range of topics in experimental and internal medicine, including cancer, immunity, neuroscience, and now cancer metabolism. Cell Death & Disease seeks to encompass the breadth of translational implications of cell death, and topics of particular concentration will include, but are not limited to, the following: Experimental medicine Cancer Immunity Internal medicine Neuroscience Cancer metabolism
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