AI Article Synopsis
- Somatic mutations in cancer genes often appear together in specific patterns during tumor development, known as co-mutations.
- Research has found a link between these co-mutations and the spatial arrangement of chromatin, leading to the concept of "Spatial Co-mutation Hotspots" (SCHs) in various cancers.
- These SCHs contain conserved mutational signatures and are associated with disruptions in cancer driver genes, suggesting that the structure of chromatin may influence how mutations occur in cancer.
Article Abstract
Somatic mutations of many cancer genes tend to co-occur (termed co-mutations) in certain patterns during tumor initiation and progression. However, the genetic and epigenetic mechanisms that contribute to the co-mutations of these cancer genes have yet to be explored. Here, we systematically investigated the association between the somatic co-mutations of cancer genes and high-order chromatin conformation. Significantly, somatic point co-mutations in protein-coding genes were closely associated with high-order spatial chromatin folding. We propose that these regions be termed Spatial Co-mutation Hotspots (SCHs) and report their occurrence in different cancer types. The conserved mutational signatures and DNA sequences flanking these point co-mutations, as well as CTCF-binding sites, are also enriched within the SCH regions. The genetic alterations that are harboured in the same SCHs tend to disrupt cancer driver genes involved in multiple signalling pathways. The present work demonstrates that high-order spatial chromatin organisation may contribute to the somatic co-mutations of certain cancer genes during tumor development.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5071887 | PMC |
| http://dx.doi.org/10.1038/srep35270 | DOI Listing |
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