Effect of Nitrate on Human Cell Lines in Culture
Nitrate was cytotoxic to both cell types at high concentrations, with EC50 values between 1557 mg/L (approximately) 5852mg/L for viability, and ~2.5 mg/L 3631 mg/L for proliferation. Several EC50 values were not calculable based on the available data, but appeared to be far greater than 5000 mg/L. Ammonium nitrate was generally more toxic than potassium nitrate, and increasing exposure time generally resulted in greater toxicity. The HepG2 and HEK293 cells displayed similar responses for most assays, except the 24 hour KNO3 Neutral Red assay. Here, HEK293 viability increased with increasing KNO3 concentrations, while HepG2 viability decreased. The reason for this finding is unknown, but may involve cell-specific homeostatic mechanisms. A hormetic-like effect was observed in both cell types in several of the proliferation assays; the biological significance of this effect remains unknown.
No significant changes in protein expression were observed under these experimental conditions. Some subtle trends were present, such as a slight increase in Hsp70 expression with increasing nitrate concentration in both cell types. In HepG2 cells, PCNA expression increased slightly with increasing nitrate concentrations; however, the opposite effect was observed in HEK293 cells. This may be due to transcriptional or translational regulation.
In summary, environmentally relevant concentrations of nitrate did not appear to evoke significant cytotoxicity or changes in protein expression. Cell viability and proliferation effects were observed at higher concentrations of nitrate. Private water supplies may contain nitrate concentrations above the EC50 values in these experiments. More research is required to determine if this poses a direct threat to human health.
Advisor:Ovsenek, Nicholas (Nick); Hiebert, Linda M.; Blakley, Barry R.; Bharadwaj, Lalita
School:University of Saskatchewan
School Location:Canada - Saskatchewan
Source Type:Master's Thesis
Keywords:cytotoxicity hepg2 nitrates protein expression hek293 tissue culture
Date of Publication:08/15/2007