Science and Technology of Advanced Materials (Dec 2023)

Mapping stress inside living cells by atomic force microscopy in response to environmental stimuli

  • Hongxin Wang,
  • Han Zhang,
  • Ryo Tamura,
  • Bo Da,
  • Shimaa A. Abdellatef,
  • Ikumu Watanabe,
  • Nobuyuki Ishida,
  • Daisuke Fujita,
  • Nobutaka Hanagata,
  • Tomoki Nakagawa,
  • Jun Nakanishi

DOI
https://doi.org/10.1080/14686996.2023.2265434
Journal volume & issue
Vol. 24, no. 1

Abstract

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The response of cells to environmental stimuli, under either physiological or pathological conditions, plays a key role in determining cell fate toward either adaptive survival or controlled death. The efficiency of such a feedback mechanism is closely related to the most challenging human diseases, including cancer. Since cellular responses are implemented through physical forces exerted on intracellular components, more detailed knowledge of force distribution through modern imaging techniques is needed to ensure a mechanistic understanding of these forces. In this work, we mapped these intracellular forces at a whole-cell scale and with submicron resolution to correlate intracellular force distribution to the cytoskeletal structures. Furthermore, we visualized dynamic mechanical responses of the cells adapting to environmental modulations in situ. Such task was achieved by using an informatics-assisted atomic force microscope (AFM) indentation technique where a key step was Markov-chain Monte Carlo optimization to search for both the models used to fit indentation force–displacement curves and probe geometry descriptors. We demonstrated force dynamics within cytoskeleton, as well as nucleoskeleton in living cells which were subjected to mechanical state modulation: myosin motor inhibition, micro-compression stimulation and geometrical confinement manipulation. Our results highlight the alteration in the intracellular prestress to attenuate environmental stimuli; to involve in cellular survival against mechanical signal-initiated death during cancer growth and metastasis; and to initiate cell migration.

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