Intrinsic mutagenic properties of 5-chlorocytosine: A mechanistic connection between chronic inflammation and cancer
| Autor: | Samuel H. Wilson, Bret D. Freudenthal, Vipender Singh, Shiou-chi Chang, Deyu Li, Bogdan I. Fedeles, James C. Delaney, John M. Essigmann, Emily Yau |
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| Rok vydání: | 2015 |
| Předmět: |
Models
Molecular Carcinogenesis Base pair DNA Mutational Analysis Oligonucleotides medicine.disease_cause Malignant transformation Lesion Cytosine Neoplasms Biomarkers Tumor medicine Humans Epigenetics Chromatography High Pressure Liquid Polymerase Peroxidase Inflammation Genetics Multidisciplinary biology Oligonucleotide food and beverages Sequence Analysis DNA Inflammatory Bowel Diseases Hypochlorous Acid PNAS Plus Mutagenesis Mutation biology.protein medicine.symptom Mutagens |
| Zdroj: | Proceedings of the National Academy of Sciences. 112 |
| ISSN: | 1091-6490 0027-8424 |
| DOI: | 10.1073/pnas.1507709112 |
| Popis: | During chronic inflammation, neutrophil-secreted hypochlorous acid can damage nearby cells inducing the genomic accumulation of 5-chlorocytosine (5ClC), a known inflammation biomarker. Although 5ClC has been shown to promote epigenetic changes, it has been unknown heretofore if 5ClC directly perpetrates a mutagenic outcome within the cell. The present work shows that 5ClC is intrinsically mutagenic, both in vitro and, at a level of a single molecule per cell, in vivo. Using biochemical and genetic approaches, we have quantified the mutagenic and toxic properties of 5ClC, showing that this lesion caused C→T transitions at frequencies ranging from 3-9% depending on the polymerase traversing the lesion. X-ray crystallographic studies provided a molecular basis for the mutagenicity of 5ClC; a snapshot of human polymerase β replicating across a primed 5ClC-containing template uncovered 5ClC engaged in a nascent base pair with an incoming dATP analog. Accommodation of the chlorine substituent in the template major groove enabled a unique interaction between 5ClC and the incoming dATP, which would facilitate mutagenic lesion bypass. The type of mutation induced by 5ClC, the C→T transition, has been previously shown to occur in substantial amounts both in tissues under inflammatory stress and in the genomes of many inflammation-associated cancers. In fact, many sequence-specific mutational signatures uncovered in sequenced cancer genomes feature C→T mutations. Therefore, the mutagenic ability of 5ClC documented in the present study may constitute a direct functional link between chronic inflammation and the genetic changes that enable and promote malignant transformation. |
| Databáze: | OpenAIRE |
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