The formation and removal of cisplatin (CDDP) induced DNA adducts in a CDDP sensitive and resistant human small cell lung carcinoma (HSCLC) cell line

Abstract

In DNA digested samples of a CDDP sensitive (GLC4) and an 11-fold resistant (GLC4-CDDP) hSCLC line, the CDDP induced DNA adducts Pt-GG (Pt-(NH3)2d (pGpG)), Pt-AG (Pt-(NH3)2d (pApG)), G-Pt-G (Pt-(NH3)2d) (GMP)2)and Pt-GMP (Pt-(NH3)3d GMP), were measured with polyclonal antibodies. The total amount of platinum (Pt) bound to DNA was also measured but with the help of atomic absorption spectroscopy (AAS). An increased net formation in GLC4 compared with GLC4-CDDP is found for the total Pt bound to DNA, Pt-GG and Pt-AG adducts after a 2 h 100 .mu.M CDDP treatment. No significant difference is detected in the nest formation of the Pt-GMP and G-Pt-G adducts. A slow Pt-AG adduct formation, with a maximum reached 10 h after CDDP composition, is found for both cell lines. In the 22 h period after the 2 h 100 .mu.M CDDP treatment, a significant removal in GLC4 is measured for the Pt-GG, Pt-AG and the Pt-GMP adducts. For GLC4-CDDP a significant removal is detected in the total Pt bound to DNA, the Pt-AG and the Pt-GMP adducts. The removal of the total Pt bound to DNA in GLC4-CDDP cannot be explained by an adduct measured with the immunochemical method. In conclusion, no evidence is found that CDDP resistance is based upon the repair of the Pt-GG, Pt-AG, G-Pt-G and Pt-GMP adducts.