posted on 2020-03-24, 15:33authored byPeiran Zhu, Jamar Hawkins, Will Hamilton Linthicum, Menglin Wang, Ningwei Li, Nanjia Zhou, Qi Wen, Alicia Timme-Laragy, Xiaofei Song, Yubing Sun
Biophysical properties
of cells, such as cell mechanics, cell shape,
and cell migration, are emerging hallmarks for characterizing various
cell functions. Conversely, disruptions to these biophysical properties
may be used as reliable indicators of disruptions to cell homeostasis,
such as in the case of chemical-induced toxicity. In this study, we
demonstrate that treatment of lead(II) nitrate and cadmium nitrate
leads to dosage-dependent changes in a collection of biophysical properties,
including cellular traction forces, focal adhesions, mechanical stiffness,
cell shape, migration speed, permeability, and wound-healing efficacy
in mammalian cells. As those changes appear within a few hours after
the treatment with a trace amount of lead/cadmium, our results highlight
the promise of using biophysical properties to screen environmental
chemicals to identify potential toxicants and establish dose response
curves. Our systematic and quantitative characterization of the rapid
changes in cytoskeletal structure and cell functions upon heavy metal
treatment may inspire new research on the mechanisms of toxicity.