Atomic force microscopy study of the effects of water-soluble fullerenes on the elasticity of living plant cells

Abstract

In this work, atomic force microscopy (AFM) was employed to characterize the elastic properties of a living suspension of Nicotiana tabacum L. cv. Bright Yellow (BY-2) cells and to investigate the changes in plant-cell elasticity that were induced by water-soluble C70 fullerene derivatives. The results revealed different effects of the three fullerene derivatives that had different numbers of carboxylic groups on the cell elasticity. BY-2 cells that were repressed by dimalonic-acid-modified C70 fullerenes (DiF70) and trimalonic-acid-modified C70 fullerenes (TriF70) showed a clear decrease in their Young's modulus. However, the Young's modulus of cells that were treated with tetramalonic-acid-modified C70 fullerenes (TetraF70) increased. Disruption of the actin cytoskeleton arrangement was observed following treatment with DiF70 and TriF70, but not with TetraF70. Moreover, the fullerene-induced cell-elasticity change was consistent with the change in cell-proliferation rate. This work provides a new approach and valuable information for the study of the biological effect of nanomaterials on plant cells.

Keywords: atomic force microscopy; cytotoxity; elasticity; fullerenes; nanoparticles.