Abstract: | AbstractSix TiO2 and two CeO2 nanomaterials with dry sizes ranging from 6–410 nm were tested for their ability to cause DNA centered free radicals in vitro in the concentration range of 10–3,000 ug/ml. All eight of the nanomaterials significantly increased the adduction of the spin trap agent 5,5-dimethyl-1-pyroline N-oxide (DMPO) to DNA as measured by the experimental technique of immuno-spin trapping. The eight nanomaterials differed considerably in their potency, slope, and active concentration. The largest increase in DNA nitrone adducts was caused by a TiO2 nanomaterial (25 nm, anatase) from Alfa Aesar. Some nanomaterials that increased the amount of DNA nitrone adducts at the lowest exposure concentrations (100 ug/ml) were Degussa TiO2 (31 nm), Alfa Aesar TiO2 (25 nm, anatase) and Nanoamor CeO2 (8 nm, cerianite). At exposure concentrations of 10 or 30 ug/ml, no nanomaterials showed significant in vitro formation of DNA nitrone adducts. |