Lowering the pH leads to the disaggregation of NiO and ZnO nanoparticles and modifies the mutagenic response

Author:

Pescke Ismael Krüger12ORCID,de Oliveira Rozino Lívia12,Zenato Karoline2,Cardozo Tatiane3,Flores Wladimir Hernandez3,Vargas Vera Maria Ferrão12

Affiliation:

1. Programa de Pós‐Graduação em Ecologia Universidade Federal do Rio Grande do Sul (UFRGS) Porto Alegre Brazil

2. Laboratório de Mutagênese Ambiental, Centro de Ecologia Universidade Federal do Rio Grande do Sul (UFRGS) Porto Alegre Brazil

3. Grupo de Materiais Nanoestruturados Universidade Federal do Pampa (UNIPAMPA) Bagé Brazil

Abstract

AbstractIn a changing environmental scenario, acid rain can have a significant impact on aquatic ecosystems. Acidification is known to produce corrosion in metals, hence increasing their harmful effects on the environment, organisms and human health. The prevalent use of metallic nanoparticles (NPs) in everyday products raises concerns regarding exposure and nanotoxicity even in these acidified conditions. We thus report on the cytotoxic and genotoxic potential of nickel oxide (NiO‐NP) and zinc oxide (ZnO‐NP) NPs when suspended in aqueous media in light of pH variations (7.5 and 5). A modified microsuspension method of the Salmonella/microsome assay was adopted, and strains (TA97a, TA98, TA100, TA102) were exposed to NPs (10–1280 μg/plate) with and without a metabolization fraction. The acidic condition favored disaggregation and caused a decrease in NPs size. Mutagenicity was observed in all samples and different strains, with greater DNA base pair substitution damage (TA100 and TA102), but extrinsic conditions (pH) suggest different action mechanisms of NiO‐NP and ZnO‐NP on genetic content. Mutagenic activity was found to increase upon metabolic activation (TA98, TA100, and TA102) demonstrating the bioactivity of NiO‐NP and ZnO‐NP in relation to metabolites generated by the mammalian p450 system in vitro. Modifications in the Salmonella assay methodology increased cell exposure time. The observed responses recommend this modified assay as one of the methodologies of choice for nanoecotoxicological evaluation. These findings emphasize the significance of incorporating the environmental context when evaluating the toxicity of metal‐based NPs.

Publisher

Wiley

Subject

Toxicology

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