一种用于模拟冷冻过程中活细胞内成核限制型冰形成的改进模型。

An improved model for nucleation-limited ice formation in living cells during freezing.

作者信息

Yi Jingru, Liang Xin M, Zhao Gang, He Xiaoming

机构信息

Centre for Biomedical Engineering, Department of Electronic Science and Technology, University of Science and Technology of China, Hefei, Anhui, China.

Centre for Biomedical Engineering, Department of Electronic Science and Technology, University of Science and Technology of China, Hefei, Anhui, China; Department of Mechanical Engineering, University of Washington, Seattle, Washington, United States of America.

出版信息

PLoS One. 2014 May 22;9(5):e98132. doi: 10.1371/journal.pone.0098132. eCollection 2014.

DOI:10.1371/journal.pone.0098132

PMID:24852166

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4031135/

Abstract

Ice formation in living cells is a lethal event during freezing and its characterization is important to the development of optimal protocols for not only cryopreservation but also cryotherapy applications. Although the model for probability of ice formation (PIF) in cells developed by Toner et al. has been widely used to predict nucleation-limited intracellular ice formation (IIF), our data of freezing Hela cells suggest that this model could give misleading prediction of PIF when the maximum PIF in cells during freezing is less than 1 (PIF ranges from 0 to 1). We introduce a new model to overcome this problem by incorporating a critical cell volume to modify the Toner's original model. We further reveal that this critical cell volume is dependent on the mechanisms of ice nucleation in cells during freezing, i.e., surface-catalyzed nucleation (SCN) and volume-catalyzed nucleation (VCN). Taken together, the improved PIF model may be valuable for better understanding of the mechanisms of ice nucleation in cells during freezing and more accurate prediction of PIF for cryopreservation and cryotherapy applications.

摘要

活细胞中冰的形成在冷冻过程中是一个致死事件，其特性对于不仅是冷冻保存而且还有冷冻治疗应用的最佳方案的开发都很重要。尽管Toner等人开发的细胞中冰形成概率（PIF）模型已被广泛用于预测成核限制的细胞内冰形成（IIF），但我们冷冻Hela细胞的数据表明，当冷冻过程中细胞内的最大PIF小于1（PIF范围为0到1）时，该模型可能会对PIF给出误导性预测。我们引入了一个新模型来克服这个问题，通过纳入一个临界细胞体积来修改Toner的原始模型。我们进一步揭示，这个临界细胞体积取决于冷冻过程中细胞内冰成核的机制，即表面催化成核（SCN）和体积催化成核（VCN）。综上所述，改进后的PIF模型对于更好地理解冷冻过程中细胞内冰成核的机制以及更准确地预测冷冻保存和冷冻治疗应用的PIF可能具有重要价值。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/382c/4031135/3319b8a6e01d/pone.0098132.g001.jpg

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一种用于模拟冷冻过程中活细胞内成核限制型冰形成的改进模型。

An improved model for nucleation-limited ice formation in living cells during freezing.

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