DNA methylation, deamination, and translesion synthesis combine to generate footprint mutations in cancer driver genes in B-cell derived lymphomas and other cancers
| Autor: | David Neil Cooper, Kathrin Tyryshkin, Lennard Y. Poliakov, Artem G. Lada, Youri I. Pavlov, Anna R. Panchenko, Andreu Saura, Kelvin Carrasquillo-Carrión, Igor B. Rogozin, Elena Schwartz, Abiel Roche-Lima, Vyacheslav Yurchenko |
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| Jazyk: | angličtina |
| Rok vydání: | 2021 |
| Předmět: |
DNA polymerase
tumor cells Somatic hypermutation QH426-470 medicine.disease_cause chemistry.chemical_compound computational biology Genetics Activation-induced (cytidine) deaminase medicine Gene database Genetics (clinical) Original Research Mutation frequency matrices biology Mutagenesis somatic hypermutation chemistry immunoglobulin genes DNA methylation gene expression biology.protein Molecular Medicine DNA |
| Zdroj: | Frontiers in Genetics Frontiers in Genetics, Vol 12 (2021) |
| ISSN: | 1664-8021 |
| Popis: | Cancer genomes harbor numerous genomic alterations and many cancers accumulate thousands of nucleotide sequence variations. A prominent fraction of these mutations arises as a consequence of the off-target activity of DNA/RNA editing cytosine deaminases followed by the replication/repair of edited sites by DNA polymerases (pol), as deduced from the analysis of the DNA sequence context of mutations in different tumor tissues. We have used the weight matrix (sequence profile) approach to analyze mutagenesis due to Activation Induced Deaminase (AID) and two error-prone DNA polymerases. Control experiments using shuffled weight matrices and somatic mutations in immunoglobulin genes confirmed the power of this method. Analysis of somatic mutations in various cancers suggested that AID and DNA polymerases η and θ contribute to mutagenesis in contexts that almost universally correlate with the context of mutations in A:T and G:C sites during the affinity maturation of immunoglobulin genes. Previously, we demonstrated that AID contributes to mutagenesis in (de)methylated genomic DNA in various cancers. Our current analysis of methylation data from malignant lymphomas suggests that driver genes are subject to different (de)methylation processes than non-driver genes and, in addition to AID, the activity of pols η and θ contributes to the establishment of methylation-dependent mutation profiles. This may reflect the functional importance of interplay between mutagenesis in cancer and (de)methylation processes in different groups of genes. The resulting changes in CpG methylation levels and chromatin modifications are likely to cause changes in the expression levels of driver genes that may affect cancer initiation and/or progression. |
| Databáze: | OpenAIRE |
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