Faculty, Staff and Student Publications
Publication Date
7-1-2023
Journal
Nature Cancer
Abstract
Molecular routes to metastatic dissemination are critical determinants of aggressive cancers. Through in vivo CRISPR-Cas9 genome editing, we generated somatic mosaic genetically engineered models that faithfully recapitulate metastatic renal tumors. Disruption of 9p21 locus is an evolutionary driver to systemic disease through the rapid acquisition of complex karyotypes in cancer cells. Cross-species analysis revealed that recurrent patterns of copy number variations, including 21q loss and dysregulation of the interferon pathway, are major drivers of metastatic potential. In vitro and in vivo genomic engineering, leveraging loss-of-function studies, along with a model of partial trisomy of chromosome 21q, demonstrated a dosage-dependent effect of the interferon receptor genes cluster as an adaptive mechanism to deleterious chromosomal instability in metastatic progression. This work provides critical knowledge on drivers of renal cell carcinoma progression and defines the primary role of interferon signaling in constraining the propagation of aneuploid clones in cancer evolution.
Keywords
Humans, Carcinoma, Renal Cell, DNA Copy Number Variations, Chromosomal Instability, Aneuploidy, Kidney Neoplasms, Renal cell carcinoma, Cancer genomics, Metastasis, Cancer
Included in
Bioinformatics Commons, Biomedical Informatics Commons, Medical Sciences Commons, Neoplasms Commons, Oncology Commons
Comments
Supplementary Materials
PMID: 37365326