DNA DAMAGE IN RAT 9L CELLS TREATED WITH 8-METHOXYPSORALEN AND NEAR-UV LIGHT ASSAYED BY VISCOELASTOMETRY AND S1 NUCLEASE

–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.