Journal of Saudi Chemical Society (Sep 2021)

Mutagenicity of silver nanoparticles synthesized with curcumin (Cur-AgNPs)

  • Jaqueline de Cássia Proença-Assunção,
  • Ederson Constantino,
  • Anna Paula Farias-de-França,
  • Flávia Aparecida Resende Nogueira,
  • Silvio Roberto Consonni,
  • Marco Vinicius Chaud,
  • Carolina Alves dos Santos,
  • Yoko Oshima-Franco

Journal volume & issue
Vol. 25, no. 9
p. 101321

Abstract

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Introduction: Silver nanoparticles (AgNPs) are of particular interest for their antibacterial properties and are produced by the action of reducing agents on silver ions. Curcumin from Curcuma longa (Zingiberaceae) has been used as a precursor for obtaining biogenic AgNPs, to act as a potential drug. Objectives: This study aimed to evaluate the toxicity of AgNPs synthesized with curcumin (Cur-AgNPs 0.081 mg/mL, ~130 nm) through the Salmonella/microsome (Ames test), one of the first required assays for evaluating toxicity. Methods: The study design was experimental and in vitro. After defining the preliminary toxicity, the mutagenicity was assessed in a concentration range of 0.0010–0.0081 mg/plate Cur-AgNPs using histidine negative (His−) Salmonella Typhimurium strains TA97a, TA98, TA100, and TA102, with (+S9) and without metabolic activation (−S9), in triplicate. Assays were monitored by positive and negative controls. The results were statistically analyzed by Salanal software with p < 0.05 values considered significant. Results: The data obtained in the absence of metabolic activation showed that Cur-AgNPs is not mutagenic, but when exposed to the presence of S9, Cur-AgNPs became mutagenic to TA98 and TA100 strains, showing the significance of metabolizer enzymes to activate Cur-AgNPs on these bacteria, which recovered their abilities in synthesizing histidine (His+). Conclusion: Cur-AgNPs is mutagenic in the presence (+S9), but not in the absence (−S9) of metabolic activation, being able to act as indirect mutagens potentially to organisms that share the same genotype vulnerabilities found in TA98 and TA100 strains to cause a frameshift and base-pair substitution mutations, respectively.

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