DNA DAMAGE IN RAT 9L CELLS TREATED WITH 8-METHOXYPSORALEN AND NEAR-UV LIGHT ASSAYED BY VISCOELASTOMETRY AND S1 NUCLEASE |
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Authors: | Richard H Shafer Eric S Chase Kai-Lam W Wun |
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Institution: | Department of Pharmaceutical Chemistry, School of Pharmacy, University of California, San Francisco, CA 94143, USA |
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Abstract: | –The techniques of viscoelastometry and S1 nuclease digestion were applied to the analysis of DNA damage in rat 9L cells treated with the combination of 8-MOP (8-methoxysporalen) and near-UV light. Treatment of cells with near-UV light alone resulted in a decrease in the viscoelastic retardation time under both denaturing and nondenaturing conditons. Exposure of cells to 8-MOP alone yielded a maximum in the plot of retardation time vs dose under nondenaturing conditions, similar to that found with ionizing radition. This observation suggests that treatment with 8-MOP alone leads to DNA strand breaks. Viscoelastic analysis of cell lysates under denaturing conditions demonstrated that treatment of cells with 8-MOP and UV radiation led to substantial increases in both the viscoelastic retardation time and recoil, consistent with formation of DNA interstrand cross-links. Viscoelastic analysis of cell lysates under nondenaturing conditions showed that exposure to long wavelength UV light in the presence of 8-MOP produced a decrease in retardation time. This decrease reflects the combined effect of strand breaks and interstrand cross-links. Results from the S1 nuclease assay confirmed these observations and permitted quantitation of DNA damage arising from single-strand breaks and DNA interstrand crosslinks. The importance of including the effect of strand breaks in the quantitation of cross-link formation is discussed. |
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