Vol. 57, Issue 3, 529-538, March 2000

Effect of 6-Aminonicotinamide and Other Protein Synthesis Inhibitors on Formation of Platinum-DNA Adducts and Cisplatin Sensitivity

I. Imawati Budihardjo,¹ Scott A. Boerner, Steven Eckdahl, Phyllis A. Svingen, Robert Rios,² Matthew M. Ames, and Scott H. Kaufmann

Division of Oncology Research (I.I.B., S.A.B., P.A.S., R.R., M.M.A., S.H.K.) and Department of Laboratory Medicine (S.E.), Mayo Clinic and Department of Molecular Pharmacology and Experimental Therapeutics (S.H.K., M.M.A.), Mayo Medical School, Rochester, Minnesota

The present study was undertaken to examine the mechanistic basis for the recent observation that the pyridine nucleotide derivative 6-aminonicotinamide (6AN, NSC 21206) enhances the accumulation and resulting cytotoxicity of cisplatin in a variety of tumor cell lines. When A549 lung cancer cells or K562 leukemia cells were treated with 62.5 µM 6AN for 21 h and then pulse-labeled with [³⁵S]methionine for 1 h, increased labeling of five polypeptides, one of which corresponded to a M_r ~78,000 glucose-regulated protein (GRP78), was observed. Two subsequent observations, however, suggested that up-regulation of these polypeptides was unlikely to explain the interaction between 6AN and cisplatin: 1) the concentration of 6AN required to induce GRP78 was 4-fold higher than the dose required to sensitize cells to cisplatin; and 2) simultaneous treatment of cells with 6AN and cycloheximide prevented the increase in GRP78 but not the sensitizing effect of 6AN. On the contrary, treatment with the protein synthesis inhibitors cycloheximide, anisomycin, or puromycin as well as prolonged exposure to the RNA synthesis inhibitor actinomycin D mimicked the biochemical modulating effects of 6AN on cisplatin action. Conversely, 6AN inhibited protein synthesis, whereas 18 6AN analogs that failed to enhance Pt-DNA adducts and cisplatin cytotoxicity failed to inhibit protein synthesis. These observations are consistent with a model in which 6AN and other inhibitors of protein synthesis act as modulating agents by increasing cisplatin accumulation, thereby enhancing the formation of Pt-DNA adducts and subsequent cisplatin-induced cell death.