Nanomaterials (Aug 2021)

Cellular Responses Induced by Zinc in Zebra Mussel Haemocytes. Loss of DNA Integrity as a Cellular Mechanism to Evaluate the Suitability of Nanocellulose-Based Materials in Nanoremediation

  • Patrizia Guidi,
  • Margherita Bernardeschi,
  • Mara Palumbo,
  • Vittoria Scarcelli,
  • Massimo Genovese,
  • Giuseppe Protano,
  • Valentina Vitiello,
  • Lorenzo Pontorno,
  • Lisa Bonciani,
  • Isabella Buttino,
  • Gianluca Chiaretti,
  • David Pellegrini,
  • Andrea Fiorati,
  • Laura Riva,
  • Carlo Punta,
  • Ilaria Corsi,
  • Giada Frenzilli

DOI
https://doi.org/10.3390/nano11092219
Journal volume & issue
Vol. 11, no. 9
p. 2219

Abstract

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Zinc environmental levels are increasing due to human activities, posing a threat to ecosystems and human health. Therefore, new tools able to remediate Zn contamination in freshwater are highly recommended. Specimens of Dreissena polymorpha (zebra mussel) were exposed for 48 h and 7 days to a wide range of ZnCl2 nominal concentrations (1–10–50–100 mg/L), including those environmentally relevant. Cellulose-based nanosponges (CNS) were also tested to assess their safety and suitability for Zn removal from freshwater. Zebra mussels were exposed to 50 mg/L ZnCl2 alone or incubated with 1.25 g/L of CNS (2 h) and then removed by filtration. The effect of Zn decontamination induced by CNS has been verified by the acute toxicity bioassay Microtox®. DNA primary damage was investigated by the Comet assay; micronuclei frequency and nuclear morphological alterations were assessed by Cytome assay in mussels’ haemocytes. The results confirmed the genotoxic effect of ZnCl2 in zebra mussel haemocytes at 48 h and 7-day exposure time. Zinc concentrations were measured in CNS, suggesting that cellulose-based nanosponges were able to remove Zn(II) by reducing its levels in exposure waters and soft tissues of D. polymorpha in agreement with the observed restoration of genetic damage exerted by zinc exposure alone.

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