Artificial Cells, Nanomedicine, and Biotechnology (Jan 2021)

Green and chemically synthesized zinc oxide nanoparticles: effects on in-vitro seedlings and callus cultures of Silybum marianum and evaluation of their antimicrobial and anticancer potential

  • Faryal Saeed,
  • Muhammad Younas,
  • Hina Fazal,
  • Sadaf Mushtaq,
  • Faiz ur Rahman,
  • Muzamil Shah,
  • Sumaira Anjum,
  • Nisar Ahmad,
  • Mohammad Ali,
  • Christophe Hano,
  • Bilal Haider Abbasi

DOI
https://doi.org/10.1080/21691401.2021.1926274
Journal volume & issue
Vol. 49, no. 1
pp. 450 – 460

Abstract

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Zinc oxide nanoparticles (ZnO-NPs) have been produced by physical and chemical methods. Here, the comparative evaluation of both chemically-synthesised ZnO-NPs (C-ZNPs) and in-vitro cultured S. marianum mediated green-synthesised ZnO-NPs (G-ZNPs) were investigated on seed germination frequency, root and shoot growth, callus induction and biochemical profile of medicinally important plant Silybum marianum. Of all the treatments, callus-mediated ZnO-NPs gave optimum results for seed germination (65%), plantlet’s root length (4.3 cm), shoot length (5.3 cm) and fresh and dry weights (220.4 g L−1 and 21.23 g L−1, respectively). Similarly, the accumulation of phenolic (12.3 µg/mg DW) and flavonoid (2.8 µg/mg DW) contents were also enhanced in callus cultures treated with G-ZNPs. We also observed maximum antioxidant activity (99%) in callus cultures treated with G-ZNPs, however, in case of plantlets, these activities were found highest for in-vitro whole plant-mediated ZnO-NPs. Moreover, G-ZNPs also enhanced total protein content (265.32 BSAE/20g FW) in callus cultures. G-ZNPs were further assessed for their effects on several multidrug resistant bacterial strains and human liver carcinoma (HepG2) cells and our findings revealed that callus extracts treated with G-ZNPs show ameliorated antibacterial (highest zone of inhibition (19 mm) against Klebsiella pneumonia) and anticancer (highest cytotoxicity of 64%) activities.

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