Mesoporous silica nanoparticles reduce aflatoxin-induced cell damage


  • Bianca Guimarães Furtado
  • Geovana Dagostim Savi
  • Elton Torres Zanoni
  • Rahisa Scussel
  • Emily da Silva Córneo
  • Domingos Lusitâneo Pier Macuvel
  • Janaína Nones
  • Paulo Emilio Feuser
  • Ricardo Andrez Machado-de-Ávila
  • Elidio Angioletto


Aflatoxin B, Mesoporous silica nanoparticles, NIH3T3 cells


One major mycotoxin affecting human and animal health is the Aflatoxin B1 (AFB1), a toxin produced mainly by Aspergillus strains. It is well established that AFB1 cytotoxicity might contribute to DNA adducts formation and the ability to cause oxidative damage. The toxicity studies of mesoporous silica nanoparticles (MSNs) with AFB1 using NIH3T3 cells and hemolysis test were investigated in the current work. The obtained MSNs (39.97±7.85) presents various shapes and higher BET surface area. The results showed no reduction of the cell viability occurred after the MSNs treatment (0.5–2.0 mg/mL) using NIH3T3 cells. Moreover, MSNs treatment completely reversed the cytotoxic effect of AFB1 at all concentrations. It been known that the aflatoxins have been linked to hemolytic anemia and have led to the destruction of erythrocytes (hemolysis). Our study evaluated the impact of the MSNs on human red blood cells (RBCs) using a standard hemolysis assay, which revealed no hemolysis in the MSNs evaluated alone and in those combined with AFB1. The reduction of the aflatoxin-induced cell damage occurs mainly due the adsorption capacity already verified by same authors in previous studies, which AFB1 was adsorbed in the first minutes in contact with the MSNs, reaching up to an adsorption capacity of ~70% after 15 minutes. Our study indicates that MSNs do not affect the viability of NIH3T3 cells in vitro and display high blood biocompatibility. Moreover, the application of MSNs led to a reduction in cytotoxicity caused by AFB1 in NIH3T3 cells in vitro, which might also positively influence different kinds of cells in vivo due to their high adsorption capacity.




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Bianca Guimarães Furtado, Geovana Dagostim Savi, Elton Torres Zanoni, Rahisa Scussel, Emily da Silva Córneo, Domingos Lusitâneo Pier Macuvel, Janaína Nones, Paulo Emilio Feuser, Ricardo Andrez Machado-de-Ávila, & Elidio Angioletto. (2022). Mesoporous silica nanoparticles reduce aflatoxin-induced cell damage. 1° ongresso e Segurança ualidade os limentos, 1(1). ecuperado de

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