Cadmium-induced apoptosis in C6 glioma cells:: Mediation by caspase 9-activation

The induction of apoptotic cell death by cadmium was investigated in eight mammalian cell lines. Great differences in the cytotoxicity of cadmium were found with different cell lines: Rat C6 glioma cells turned out to be most sensitive with an IC50-value of 0.7 muM, while human A549 adenocarcinoma cells were relatively resistant with an IC50-value of 164 muM CdCl2. The mode of cadmium-induced cellular death was identified to involve apoptotic DNA fragmentation in three cell lines, i.e., in C6 glioma cells, E367 neuroblastoma cells and NIH3T3 fibroblasts. In C6 glioma cells, this process was investigated in detail. Internucleosomal DNA-fragmentation occurred 40 h after application of CdCl2 and was concentration-dependent between 1-100 muM CdCl2, followed by a decrease at higher concentrations due to necrotic processes. Apoptotic chromatin-condensation and nuclear fragmentation was observed 48 h after application of 2.5 muM CdCl2. Furthermore, cadmium (1 muM, 48 h) caused a breakdown of the mitochondrial membrane potential as shown by the decline in mitochondrial uptake of rhodamine 123. Also, we found an activation of caspase 9, a protease known to be activated in apoptotic processes following mitochondrial damage. Besides Cd-2+, other toxic heavy metal ions (Hg2+, Pb2+, Ni2+, Fe2+, CrO42-, Cu2+ or Co2+) did not induce apoptotic DNA fragmentation in C6 cells. The only exception was Zn2+ which caused apotosis at high concentrations (> 150 muM) whereas it protected against cadmium-induced apoptosis at low concentrations (10-50 muM).