Fiorini Elena, Malinova Antonia, Schreyer Daniel, Pasini Davide, Bevere Michele, Alessio Giorgia, Rosa Diego, D'Agosto Sabrina, Azzolin Luca, Milite Salvatore, Andreani Silvia, Lupo Francesca, Veghini Lisa, Grimaldi Sonia, Pedron Serena, Castellucci Monica, Nourse Craig, Salvia Roberto, Malleo Giuseppe, Ruzzenente Andrea, Guglielmi Alfredo, Milella Michele, Lawlor Rita T, Luchini Claudio, Agostini Antonio, Carbone Carmine, Pilarsky Christian, Sottoriva Andrea, Scarpa Aldo, Tuveson David A, Bailey Peter, Corbo Vincenzo
Department of Engineering for Innovation Medicine, University of Verona, Verona, Italy.
School of Cancer Sciences, University of Glasgow, Glasgow, UK.
Nature. 2025 Apr;640(8059):811-820. doi: 10.1038/s41586-025-08721-9. Epub 2025 Mar 12.
Intratumour heterogeneity and phenotypic plasticity drive tumour progression and therapy resistance. Oncogene dosage variation contributes to cell-state transitions and phenotypic heterogeneity, thereby providing a substrate for somatic evolution. Nonetheless, the genetic mechanisms underlying phenotypic heterogeneity are still poorly understood. Here we show that extrachromosomal DNA (ecDNA) is a major source of high-level focal amplification in key oncogenes and a major contributor of MYC heterogeneity in pancreatic ductal adenocarcinoma (PDAC). We demonstrate that ecDNAs drive varying levels of MYC dosage, depending on their regulatory landscape, enabling cancer cells to rapidly and reversibly adapt to microenvironmental changes. In the absence of selective pressure, a high ecDNA copy number imposes a substantial fitness cost on PDAC cells. We also show that MYC dosage affects cell morphology and dependence of cancer cells on stromal niche factors. Our work provides a detailed analysis of ecDNAs in PDAC and describes a new genetic mechanism driving MYC heterogeneity in PDAC.
肿瘤内异质性和表型可塑性驱动肿瘤进展和治疗抗性。癌基因剂量变异促成细胞状态转变和表型异质性,从而为体细胞进化提供了一个基础。尽管如此,表型异质性背后的遗传机制仍知之甚少。在这里,我们表明,染色体外DNA(ecDNA)是关键癌基因高水平局灶性扩增的主要来源,也是胰腺导管腺癌(PDAC)中MYC异质性的主要促成因素。我们证明,ecDNA根据其调控格局驱动不同水平的MYC剂量,使癌细胞能够快速且可逆地适应微环境变化。在没有选择压力的情况下,高ecDNA拷贝数对PDAC细胞施加了巨大的适应性成本。我们还表明,MYC剂量影响细胞形态以及癌细胞对基质生态位因子的依赖性。我们的工作对PDAC中的ecDNA进行了详细分析,并描述了一种驱动PDAC中MYC异质性的新遗传机制。
