Litcius/Paper detail

Tracing the evolution of single-cell 3D genomes in Kras-driven cancers

Miao Liu, Shengyan Jin, Sherry S. Agabiti, Tyler B Jensen, Tianqi Yang, Jonathan S. D. Radda, Christian Ruiz, Gabriel Baldissera, Moein Rajaei, Fangyong Li, Jeffrey P. Townsend, Mandar D. Muzumdar, Siyuan Wang

2025Nature Genetics16 citationsDOIOpen Access PDF

Abstract

Although three-dimensional (3D) genome structures are altered in cancer, it remains unclear how these changes evolve and diversify during cancer progression. Leveraging genome-wide chromatin tracing to visualize 3D genome folding directly in tissues, we generated 3D genome cancer atlases of oncogenic Kras-driven mouse lung adenocarcinoma (LUAD) and pancreatic ductal adenocarcinoma. Here we define nonmonotonic, stage-specific alterations in 3D genome compaction, heterogeneity and compartmentalization as cancers progress from normal to preinvasive and ultimately to invasive tumors, discovering a potential structural bottleneck in early tumor progression. Remarkably, 3D genome architectures distinguish morphologic cancer states in single cells, despite considerable cell-to-cell heterogeneity. Analyses of genome compartmentalization changes not only showed that compartment-associated genes are more homogeneously regulated but also elucidated prognostic and dependency genes in LUAD, as well as an unexpected role for Rnf2 in 3D genome regulation. Our results highlight the power of single-cell 3D genome mapping to identify diagnostic, prognostic and therapeutic biomarkers in cancer.

Topics & Concepts

BiologyKRASComputational biologyGenomeTracingEvolutionary biologyGeneticsCancer researchCancerGeneColorectal cancerComputer scienceOperating systemCancer Genomics and DiagnosticsSingle-cell and spatial transcriptomicsCancer Cells and Metastasis