When BaP gets into a person’s body and is metabolized, it can turn into a new compound, or metabolite, that irreversibly attaches to one of the nucleic acids in DNA, guanosine. However, humans are also stocked with cellular repair kits that detach the unwanted metabolites. And it’s the balance between damage and repair that impacts whether the mutations that could cause disease carry forward when cells replicate. So, Shana Sturla and colleagues wanted to explore that balance in human lung cells exposed to BaP, determining the distribution of DNA damage throughout the cells’ entire genomes.
The researchers added increasing amounts of the metabolized version of BaP to the culture medium in which human lung cells were growing. Then they determined where the metabolite attached to guanosines using single-nucleotide-resolution DNA mapping. While there was a dose-dependent relationship between exposure and DNA damage, the pattern remained stable across the genome, despite changes in the BaP metabolite’s concentration. In addition, the results showed that the distribution of DNA damage was similar to a mutation pattern found in smoking-related lung cancers, suggesting that this technique could help forecast genetic mutations related to human cancers. As the first single-nucleotide-resolution map of damage patterns specific to BaP in human cells, the researchers say their data provide insight into the dynamic nature of DNA damage and repair processes.
The authors acknowledge funding from Swiss National Science Foundation and Philip Morris International.
The paper’s abstract will be available on Feb. 22 at 8 a.m. Eastern time here: http://pubs.acs.org/doi/abs/10.1021/acscentsci.2c01100
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