The effect of PM2.5-related hazards on biomarkers of bronchial epithelial cells (A549) inflammation in Karaj and Fardis cities

Rahmatinia, Tahereh; Kermani, Majid; Farzadkia, Mahdi; Jonidi Jafari, Ahmad; Delbandi, Ali-Akbar; Rashidi, Nesa; Fanaei, Farzad

The effect of PM2.5-related hazards on biomarkers of bronchial epithelial cells (A549) inflammation in Karaj and Fardis cities

2022

Fine particles (especially PM₂.₅ particles) in ambient air can cause irreversible effects on human health. In the present study, seasonal variations in toxicity PM₂.₅ (cell viability and release of pro-inflammatory cytokines) were exposed human lung cells (A549) to concentrations of PM₂.₅ samples in summer (sPM₂.₅) and winter (wPM₂.₅) seasons. Cells were separately exposed to three concentrations of PM₂.₅ (25, 50, and 100 μg/mL) and three times (12 h, 1 and 2 days). We evaluated cell viability by MTT assay [3- (4, 5-dimethylthiazol-2-yl) -2, 5-diphenyltetrazolium bromide] and liberation of pro-inflammatory cytokines (interleukin-6 and interleukin-8) by the ELISA method. The toxicological results of this study showed that increasing the concentration of PM₂.₅ particulates and contact time with it reduces cell viability and increases inflammatory responses. Seasonal cytotoxicity of PM₂.₅ particles in high-traffic areas at summer season compared to winter season was lower. The lowest percent of viability at 2 days of exposure and 100 μg/mL exposure in the winter sample was observed. Also, PM₂.₅ particles were influential in the amount of interleukins 8 and 6. The average release level of IL-6 and IL-8 in the cold season (winter) and the enormous exposure time and concentrations (2 days–100 μg/mL) was much higher than in the hot season (summer). These values were twice as high for winter PM₂.₅ samples as for summer samples. The compounds in PM₂.₅ at different seasons can cause some biological effects. The samples’ chemical characteristics in two seasons displayed that the PMs were diverse in chemical properties. In general, heavy metals and polycyclic aromatic hydrocarbons were more in the winter samples. However, the samples of wPM₂.₅ had a lower mass quota of metals such as aluminum, iron, copper, zinc, and magnesium. Concentrations of chromium, cadmium, arsenic, mercury, nickel, and lead were more significant in the sample of wPM₂.₅.

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