Oncogene-like addiction to aneuploidy in human cancers

Vishruth Girish(Johns Hopkins University), Asad A. Lakhani(Cold Spring Harbor Laboratory), Christine M. Scaduto(Cold Spring Harbor Laboratory), Sarah L. Thompson(Yale University), Leanne Brown(Yale University), Ryan A. Hagenson(Yale University), Erin L. Sausville(Cold Spring Harbor Laboratory), Brianna E. Mendelson(Yale University), Devon A. Lukow(Yale University), Monet Lou Yuan(Cold Spring Harbor Laboratory), Pranav K. Kandikuppa(Yale University), Eric C. Stevens(Yale University), Sophia N. Lee(Yale University), Barbora Šalovská(Yale University), Wenxue Li(Yale University), Joan C. Smith(Yale University), Alison M. Taylor(Columbia University), Robert A. Martienssen(Howard Hughes Medical Institute), Yansheng Liu(Yale University), Ruping Sun(University of Minnesota), Jason M. Sheltzer(Yale University)
bioRxiv (Cold Spring Harbor Laboratory)
January 10, 2023
10.1101/2023.01.09.523344
Cited by 17Open Access
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Abstract

Most cancers exhibit aneuploidy, but its functional significance in tumor development is controversial. Here, we describe ReDACT (Restoring Disomy in Aneuploid cells using CRISPR Targeting), a set of chromosome engineering tools that allow us to eliminate specific aneuploidies from cancer genomes. Using ReDACT, we created a panel of isogenic cells that have or lack common aneuploidies, and we demonstrate that trisomy of chromosome 1q is required for malignant growth in cancers harboring this alteration. Mechanistically, gaining chromosome 1q increases the expression of MDM4 and suppresses TP53 signaling, and we show that TP53 mutations are mutually-exclusive with 1q aneuploidy in human cancers. Thus, specific aneuploidies play essential roles in tumorigenesis, raising the possibility that targeting these "aneuploidy addictions" could represent a novel approach for cancer treatment.

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