Engineered extrachromosomal oncogene amplifications promote tumorigenesis

染色体外DNA 癌变 生物 癌基因 清脆的 平方毫米 基因 癌症研究 计算生物学 细胞生物学 遗传学 质粒 细胞周期
作者
Davide Pradella,Minsi Zhang,Rui Gao,Melissa A. Yao,Katarzyna Głuchowska,Ylenia Cendón,Tanmay Mishra,Gaspare La Rocca,Moritz Weigl,Ziqi Jiao,Hieu H. M. Nguyen,Marta Lisi,Mateusz M. Ozimek,Chiara Mastroleo,Kevin Chen,Felix Grimm,Jens Luebeck,Shu Zhang,Andrea Alice Zolli,Eric G. Sun,Bhargavi Dameracharla,Zhengqiao Zhao,Yuri Pritykin,Carlie Sigel,Howard Y. Chang,Paul S. Mischel,Vineet Bafna,Cristina R. Antonescu,Andrea Ventura
出处
期刊:Nature [Springer Nature]
标识
DOI:10.1038/s41586-024-08318-8
摘要

Focal gene amplifications are among the most common cancer-associated mutations1 but have proven challenging to engineer in primary cells and model organisms. Here we describe a general strategy to engineer large (more than 1 Mbp) focal amplifications mediated by extrachromosomal DNAs (ecDNAs)2 in a spatiotemporally controlled manner in cells and in mice. By coupling ecDNA formation with expression of selectable markers, we track the dynamics of ecDNA-containing cells under physiological conditions and in the presence of specific selective pressures. We also apply this approach to generate mice harbouring Cre-inducible Myc- and Mdm2-containing ecDNAs analogous to those occurring in human cancers. We show that the engineered ecDNAs spontaneously accumulate in primary cells derived from these animals, promoting their proliferation, immortalization and transformation. Finally, we demonstrate the ability of Mdm2-containing ecDNAs to promote tumour formation in an autochthonous mouse model of hepatocellular carcinoma. These findings offer insights into the role of ecDNA-mediated gene amplifications in tumorigenesis. We anticipate that this approach will be valuable for investigating further unresolved aspects of ecDNA biology and for developing new preclinical immunocompetent mouse models of human cancers harbouring specific focal gene amplifications. Large extrachromosomal DNAs are engineered using a CRISPR- and Cre–loxP-based approach and shown to drive cancer in mouse models, with potential applications in determining the role of oncogene amplifications in human cancers.
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