Metallic nanoparticle contamination from environmental atmospheric particulate matter in the last slab of the trophic chain: Nanocrystallography, subcellular localization and toxicity effects

SOUZA, IARA DA C.; MOROZESK, MARIANA; SIQUEIRA, PRISCILA; ZINI, ENZO; GALTER, IASMINI N.; MORAES, DANIEL A. DE; MATSUMOTO, SILVIA T.; WUNDERLIN, DANIEL A.; ELLIOTT, MICHAEL; FERNANDES, MARISA N.

THE SCIENCE OF TOTAL ENVIRONMENT

ELSEVIER

Año: 2022 vol. 814

0048-9697

Atmospheric particulate material (PM) from mining and steel industries comprises several metallic contaminants. PM10 samples collected in a Brazilian region with a recognized influence of the steel and iron pelletizing industries were used to investigate metallic nanoparticle incorporation into human fibroblast cells (MRC-5). MRC-5 cells were exposed to 0 (control, ultrapure water), 2.5, 5, 10, 20 and 40 μg PM10 mL−1, for 24 h. Cytotoxic and genotoxic dose-response effects were observed on lysosome and DNA structure, and concentrations high as 20 and 40 μg PM10 mL−1 induced elevated cell death. Ultrastructure analyses showed aluminosilicate, iron, and the emerging metallic contaminants titanium, bismuth, and cerium nanoparticles were incorporated into lung cells, in hich the nanocrystallography analysis indicated the bismuth as Bi2O3. All internalized metallic nanoparticles were free and unbound in the cytoplasmand nucleus thereby indicating bioavailability and potential interaction to biological processes and cellular structures. Pearson´s correlation analysis showed Fe, Ni, Al, Cr, Pb and Hg as the main cytotoxic elements which are associated with the stainless steel production. The presence of internalized nanoparticles in human lung cells exposed to environmental atmospheric matter highlights the need for a greater effort by regulatory agencies to understand their potential damage and hence the need for future regulation, especially of emerging metallic contaminants.