DNA, Vol. 5, Pages 52: Light-Induced Formation of DNA Interstrand Cross-Links from Oxidative DNA Lesion
Authors:
Nestor Rodriguez
Aaron L. Rozelle
Seongmin Lee
Background/Objectives: DNA interstrand cross-links (ICLs) mark one of the most deleterious lesions that can preclude strand separation required for essential cellular processes. Efforts to discover ICL-inducing agents and endogenous substrates for ICL repair pathways have led to the identification of structurally diverse ICLs produced by reactive aldehydes and abasic sites, among others. While several studies point to UV rays as ICL-inducing agents, UV ray-induced ICL formation from biologically relevant DNA lesions has been rarely reported. We conjectured that solar radiation-induced reactive oxygen species may give rise to ICLs via further oxidation of DNA lesions with lower redox potential (e.g., 8-oxoadenine (oxoA)). Here, we present the discovery of ICL production via light-induced modification of the major oxidative adenine lesion oxoA. Methods/Results: In the absence of a photosensitizer, both UVC and UVB rays, but not UVA and visible rays, trigger the formation of oxoA-G ICLs, albeit in low yields. By contrast, the inclusion of the naturally occurring photosensitizer riboflavin in the cross-linking reaction makes UVA and visible rays readily generate oxoA-G ICLs, suggesting solar radiation facilitates the formation of oxoA ICLs in vivo. Conclusions: The plausible oxoA-G ICL formation mechanism concerns the further oxidation of oxoA into an iminoquinone, followed by the nucleophilic attack of the opposite guanine on the iminoquinone. OxoA-G ICLs represent rare examples of ICLs produced by photosensitization. These results will contribute to the discovery of a novel form of ICLs induced by solar radiation.
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Nestor Rodriguez www.mdpi.com
