Dynamic rewiring of biological activity across genotype and lineage revealed by context-dependent functional interactions

Dynamic rewiring of biological activity across genotype and lineage revealed by context-dependent functional interactions

Background Coessentiality networks derived from CRISPR screens in cell lines provide a powerful framework for identifying functional modules in the cell and for inferring the roles of uncharacterized genes. However, these networks integrate signal across all underlying data and can mask strong inter...

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Published in:Genome Biology Vol. 23; no. 1; pp. 1 - 140
Main Authors: Kim, Eiru, Novak, Lance C., Lin, Chenchu, Colic, Medina, Bertolet, Lori L., Gheorghe, Veronica, Bristow, Christopher A., Hart, Traver
Format: Journal Article
Language:English
Published: London BioMed Central 29-06-2022
BMC
Subjects:
Biological activity
c-Met protein
Cancer
CRISPR
Encyclopedias
Furin
Genes
Genotypes
Metadata
Mutation
Raf protein
Signal transduction
Tumors
Variables
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Summary:Background Coessentiality networks derived from CRISPR screens in cell lines provide a powerful framework for identifying functional modules in the cell and for inferring the roles of uncharacterized genes. However, these networks integrate signal across all underlying data and can mask strong interactions that occur in only a subset of the cell lines analyzed. Results Here, we decipher dynamic functional interactions by identifying significant cellular contexts, primarily by oncogenic mutation, lineage, and tumor type, and discovering coessentiality relationships that depend on these contexts. We recapitulate well-known gene-context interactions such as oncogene-mutation, paralog buffering, and tissue-specific essential genes, show how mutation rewires known signal transduction pathways, including RAS/RAF and IGF1R-PIK3CA, and illustrate the implications for drug targeting. We further demonstrate how context-dependent functional interactions can elucidate lineage-specific gene function, as illustrated by the maturation of proreceptors IGF1R and MET by proteases FURIN and CPD. Conclusions This approach advances our understanding of context-dependent interactions and how they can be gleaned from these data. We provide an online resource to explore these context-dependent interactions at diffnet.hart-lab.org.
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content type line 23
ISSN:1474-760X
1474-7596
1474-760X
DOI:10.1186/s13059-022-02712-z