Kras mutant genetically engineered mouse models of human cancers are genomically heterogeneous

WJ Chung, A Daemen, JH Cheng… - Proceedings of the …, 2017 - National Acad Sciences
WJ Chung, A Daemen, JH Cheng, JE Long, JE Cooper, B Wang, C Tran, M Singh, F Gnad
Proceedings of the National Academy of Sciences, 2017National Acad Sciences
KRAS mutant tumors are largely recalcitrant to targeted therapies. Genetically engineered
mouse models (GEMMs) of Kras mutant cancer recapitulate critical aspects of this disease
and are widely used for preclinical validation of targets and therapies. Through
comprehensive profiling of exomes and matched transcriptomes of> 200 Kras G12D-
initiated GEMM tumors from one lung and two pancreatic cancer models, we discover that
significant intratumoral and intertumoral genomic heterogeneity evolves during …
KRAS mutant tumors are largely recalcitrant to targeted therapies. Genetically engineered mouse models (GEMMs) of Kras mutant cancer recapitulate critical aspects of this disease and are widely used for preclinical validation of targets and therapies. Through comprehensive profiling of exomes and matched transcriptomes of >200 KrasG12D-initiated GEMM tumors from one lung and two pancreatic cancer models, we discover that significant intratumoral and intertumoral genomic heterogeneity evolves during tumorigenesis. Known oncogenes and tumor suppressor genes, beyond those engineered, are mutated, amplified, and deleted. Unlike human tumors, the GEMM genomic landscapes are dominated by copy number alterations, while protein-altering mutations are rare. However, interspecies comparative analyses of the genomic landscapes demonstrate fidelity between genes altered in KRAS mutant human and murine tumors. Genes that are spontaneously altered during murine tumorigenesis are also among the most prevalent found in human indications. Using targeted therapies, we also demonstrate that this inherent tumor heterogeneity can be exploited preclinically to discover cancer-specific and genotype-specific therapeutic vulnerabilities. Focusing on Kras allelic imbalance, a feature shared by all three models, we discover that MAPK pathway inhibition impinges uniquely on this event, indicating distinct susceptibility and fitness advantage of Kras-mutant cells. These data reveal previously unknown genomic diversity among KrasG12D-initiated GEMM tumors, places them in context of human patients, and demonstrates how to exploit this inherent tumor heterogeneity to discover therapeutic vulnerabilities.
National Acad Sciences