Cellular cadmium responses in subpopulations T20 and T27 of human lung carcinoma A549 cells.

Subpopulations T20 and T27, cloned from the human lung carcinoma line A549, differ significantly in their Cd2+ cytotoxic response. T27 has an LC50 of 31 microM Cd2+ and a cytotoxic response threshold of 5 microM Cd2+, whereas the T20s LC50 is 15 microM Cd2+ and there is no observed threshold for cytotoxicity. Cadmium-induced metallothionein (MT) synthesis, cadmium accumulation, glutathione (GSH) content, and Cd2(+)-induced changes in GSH content were studied in T20 and T27 in an attempt to determine the mechanism(s) causing differential cytotoxic response. MT synthesis measured by following Cd2(+)-induced [35S] incorporation into MT was found not to differ between T20 and T27. There is, however, a difference in Cd2+ accumulation between the two subclones. T20 and T27 cells were exposed to 5 microM Cd2+ for different times or to different concentrations of Cd2+ for 8 h. The T27 subline, which is the more Cd2+ resistant, was found to accumulate significantly more Cd2(+)-both as a function of time exposed to Cd2+ and as a function of Cd2+ concentration. The two subpopulations were found to have comparable initial GSH contents, but showed different Cd2(+)-induced changes in [GSH] when the cells were exposed to 5 microM Cd2+. T27 cells maintained their GSH content following Cd2+ exposure but T20 cells showed a Cd2(+)-induced decrease in GSH content. The results indicate that the difference in Cd2+ cytotoxic response between A549--T20 and A549--T27 cells is not attributable to alterations in MT synthesis nor to a difference in initial GSH content. Relative Cd2+ cytotoxicity also does not in these cells correlate with relative Cd2+ accumulation. The fact that T27 cells accumulate more Cd2+ and yet are more Cd2+ resistant than T20 cells suggests that T27 cells have a much more effective non-MT mechanism to handle intracellular Cd2+. This may involve different GSH metabolism and/or yet undefined molecular factors.