Keywords: 
• secondary inorganic fine particulate /
• ultrafine CeO₂ /
• multi-phase interface reaction /
• mouse macrophage cell /
• cytotoxicity

Abstract: The secondary aerosol, including secondary organic aerosol and secondary inorganic aerosol, are found as the major components in PM_2.5 in megacities of China. To data, the toxic components in PM_2.5 that make a contribution to adverse health effects is still unclear due to the complex composition of the fine particulate matters. In the study, we used cerium dioxide (CeO₂) as aerosol mineral particle model to investigate its heterogeneous reaction with sulfur dioxide (SO₂) under various simulated atmospheric conditions, such as various humidity (RH), ultraviolet (UV) irradiation and nitric dioxide (NO₂) existence, which formed secondary fine particulate matter (SFPM), i.e., CeO₂-SFPMs. The preliminary characters of CeO₂-SFPMs were measured by fourier transform infrared spectroscopy (FTIR) and further the structure-cytotoxicity of the CeO₂-SFPMs were investigated. The xCELLigence real time cell analysis system was used to monitor the proliferation of mouse macrophage cell line (RAW264.7) after exposure to the CeO₂-SFPMs. In addition, the lactate dehydrogenase (LDH) release and apoptosis of the cells were assayed after the exposure. The data showed that SO₂ could be oxidized to sulfate after interaction with CeO₂ ultrafine particles under the simulated atmospheric conditions. It is noteworthy that the NO₂ existence can enhance SO₂ transformation. The cytotoxicity of CeO₂-SFPMs is associated with their formation condition and has time-dependent manner. No significant changes of cell proliferation were found after exposure to CeO₂-SFPMs for 8 h. However, after the extended 8-25 h exposure, the significant inhibition of cell proliferation was observed, which following the orders: CeO₂ < @CeO₂+SO₂ < @CeO₂+SO₂+RH ≈ @CeO₂+SO₂+RH+UV < @CeO₂+SO₂+RH+NO₂. The toxic assay by LDH and apoptosis measurements also indicate that the CeO₂-SFPMs@SO₂+RH+NO₂ had the most significant cytotoxicity on RAW264.7 cells.