Communications Chemistry (Nov 2023)

Cell-compatible isotonic freezing media enabled by thermo-responsive osmolyte-adsorption/exclusion polymer matrices

  • Yui Kato,
  • Yuya Matsuda,
  • Takuya Uto,
  • Daisuke Tanaka,
  • Kojiro Ishibashi,
  • Takeru Ishizaki,
  • Akio Ohta,
  • Akiko Kobayashi,
  • Masaharu Hazawa,
  • Richard W. Wong,
  • Kazuaki Ninomiya,
  • Kenji Takahashi,
  • Eishu Hirata,
  • Kosuke Kuroda

DOI
https://doi.org/10.1038/s42004-023-01061-7
Journal volume & issue
Vol. 6, no. 1
pp. 1 – 10

Abstract

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Abstract During the long-term storage of cells, it is necessary to inhibit ice crystal formation by adding cryoprotectants. Non-cell-permeable cryoprotectants have high osmotic pressure which dehydrates cells, indirectly suppressing intracellular ice crystal formation. However, the high osmotic pressure and dehydration often damage cells. Emerging polymer-type non-cell-permeable cryoprotectants form matrices surrounding cells. These matrices inhibit the influx of extracellular ice nuclei that trigger intracellular ice crystal formation. However, these polymer-type cryoprotectants also require high osmotic pressure to exert an effective cryoprotecting effect. In this study, we designed a poly(zwitterion) (polyZI) that forms firm matrices around cells based on their high affinity to cell membranes. The polyZI successfully cryopreserved freeze-vulnerable cells under isotonic conditions. These matrices also controlled osmotic pressure by adsorbing and desorbing NaCl depending on the temperature, which is a suitable feature for isotonic cryopreservation. Although cell proliferation was delayed by the cellular matrices, washing with a sucrose solution improved proliferation.