In vitro cytotoxicity of three 4,9-diazapyrenium hydrogensulfate derivatives on different human tumor cell lines.

DNA intercalating agents interfere with DNA's role as a template in replication and transcription by inserting an intercalator molecule between adjacent base pairs. We synthesized three potential novel intercalators, 4,9-diazapyrenium hydrogensulfate derivatives: 5, 10-diphenyl-4,9-dimethyl-4,9-diazapyrenium hydrogensulfate (FDAP), 4, 9-dimethyl-4,9-diazapyrenium hydrogensulfate (GDAP) and 2,4,7, 9-tetramethyl-4,9-diazapyrenium hydrogensulfate (MDAP) and tested their biological effects in vitro on four human tumor cell lines (SKBr3: breast carcinoma, HeLa: cervical carcinoma, CaCo2: colon carcinoma and SW620: poorly differentiated cells from lymph node metastasis of colon carcinoma). Cytotoxic effects on cell growth and viability were determined using tetrazolium dye (MTT) assay. DNA synthesis and proliferation of treated cells were studied by the [(3)H]-thymidine incorporation test. DNA fragmentation was analyzed by agarose gel electrophoresis. The growth inhibitory effect was cell-specific and dose-dependent. The most pronounced antiproliferative effect was observed on SKBr3 cells for FDAP (10(-5) M) 91.8%, for MDAP (10(-5) M) 85.3% and on SW620 cells for GDAP (10(-5) M) 65.3%. The DNA ladder fragmentation of treated HeLa and SKBr3 cells, as a hallmark of apoptosis, was observed. Based on specific DNA fragmentation, morphological changes (reduced cell volume, round cell shape, condensed chromatin) and growth inhibition of treated human tumor cells we conclude that tested substances induced apoptotic cell death.