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Review
. 2022 May;98(3):609-616.
doi: 10.1111/php.13551. Epub 2021 Nov 17.

Perspectives on Cyclobutane Pyrimidine Dimers-Rise of the Dark Dimers

Karl P Lawrence  1 George J Delinasios  2 Sanjay Premi  3 Antony R Young  1 Marcus S Cooke  4
Affiliations
Review

Perspectives on Cyclobutane Pyrimidine Dimers-Rise of the Dark Dimers

Karl P Lawrence et al. Photochem Photobiol. 2022 May.

Abstract

Some early reports demonstrate that levels of cyclobutane pyrimidine dimers (CPD) may increase after UVR exposure had ended, although these observations were treated as artifacts. More recently, it has been shown unequivocally that CPD formation does occur post-irradiation, with maximal levels occurring after about 2-3 h. These lesions have been termed "dark CPD" (dCPD). Subsequent studies have confirmed their presence in vitro, in mouse models and in human skin in vivo. Melanin carbonyls have a role in the formation of dCPD, but they have also been observed in amelanotic systems, indicating other, unknown process(es) exist. In both cases, the formation of dCPD can be prevented by the presence of certain antioxidants. We lack data on the spectral dependence of dCPD, but it is unlikely to be the same as for incident CPD (iCPD), which are formed only during irradiation. There is evidence that iCPD and dCPD may have different repair kinetics, although this remains to be elucidated. It is also unknown whether iCPD and dCPD have different biological properties. The formation of dCPD in human skin in vivo has implications for post solar exposure photoprotection, and skin carcinogenesis, with a need for this to be investigated further.

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References

    1. Alfredsson, L., B. K. Armstrong, D. A. Butterfield, R. Chowdhury, F. R. de Gruijl, M. Feelisch, C. F. Garland, P. H. Hart, D. G. Hoel, R. Jacobsen, P. G. Lindqvist, D. J. Llewellyn, H. Tiemeier, R. B. Weller and A. R. Young (2020) Insufficient sun exposure has become a real public health problem. Int. J. Environ. Res. Public Health 17, 5014.
    1. Lucas, R. M., S. Yazar, A. R. Young, M. Norval, F. R. de Gruijl, Y. Takizawa, L. E. Rhodes, C. A. Sinclair and R. E. Neale (2019) Human health in relation to exposure to solar ultraviolet radiation under changing stratospheric ozone and climate. Photochem. Photobiol. Sci. 18, 641-680.
    1. Marrot, L. and J. R. Meunier (2008) Skin DNA photodamage and its biological consequences. J. Am. Acad. Dermatol. 58, S139-148.
    1. Fassihi, H., M. Sethi, H. Fawcett, J. Wing, N. Chandler, S. Mohammed, E. Craythorne, A. M. Morley, R. Lim, S. Turner, T. Henshaw, I. Garrood, P. Giunti, T. Hedderly, A. Abiona, H. Naik, G. Harrop, D. McGibbon, N. G. Jaspers, E. Botta, T. Nardo, M. Stefanini, A. R. Young, R. P. Sarkany and A. R. Lehmann (2016) Deep phenotyping of 89 xeroderma pigmentosum patients reveals unexpected heterogeneity dependent on the precise molecular defect. Proc. Natl Acad. Sci. USA 113, E1236-1245.
    1. Applegate, L. A., R. D. Ley, J. Alcalay and M. L. Kripke (1989) Identification of the molecular target for the suppression of contact hypersensitivity by ultraviolet radiation. J. Exp. Med. 170, 1117-1131.

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