Use of membrane transport models to design cryopreservation procedures for oocytes

IF 2.2 2区 农林科学 Q1 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Sükrü Caliskan , Dejia Liu , Harriëtte Oldenhof , Harald Sieme , Willem F. Wolkers
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Abstract

Oocyte cryopreservation is increasingly being used in reproductive technologies for conservation and breeding purposes. Further development of oocyte cryopreservation techniques requires interdisciplinary insights in the underlying principles of cryopreservation. This review aims to serve this purpose by: (1) highlighting that preservation strategies can be rationally designed, (2) presenting mechanistic insights in volume and osmotic stress responses associated with CPA loading strategies and cooling, and (3) giving a comprehensive listing of oocyte specific biophysical membrane characteristics and commonly used permeation model equations. It is shown how transport models can be used to simulate the behavior of oocytes during cryopreservation processing steps, i.e., during loading of cryoprotective agents (CPAs), cooling with freezing as well as vitrification, warming and CPA unloading. More specifically, using defined cellular and membrane characteristics, the responses of oocytes during CPA (un)loading were simulated in terms of temperature- and CPA type-and-concentration-dependent changes in cell volume and intracellular solute concentration. In addition, in order to determine the optimal cooling rate for slow programmable cooling cryopreservation, the freezing-induced cell volume response was simulated at various cooling rates to estimate rates with tolerable limits. For vitrification, special emphasis was on prediction of the timing of reaching osmotic tolerance limits during CPA exposure, and the need to use step-wise CPA addition/removal protocols. In conclusion, we present simulations and schematic illustrations that explain the timing of events during slow cooling cryopreservation as well as vitrification, important for rationally designing protocols taking into account how different CPA types, concentrations and temperatures affect the oocyte.

利用膜传输模型设计卵母细胞冷冻保存程序
卵母细胞冷冻保存技术正越来越多地应用于以保存和繁殖为目的的生殖技术中。卵母细胞冷冻保存技术的进一步发展需要对冷冻保存的基本原理有跨学科的深入了解。本综述旨在通过以下方面实现这一目的(1)强调保存策略可以合理设计,(2)介绍与 CPA 装载策略和冷却相关的体积和渗透压力反应的机理,(3)全面列出卵母细胞特定的生物物理膜特性和常用的渗透模型方程。图中显示了如何利用传输模型模拟卵母细胞在冷冻保存处理步骤中的行为,即在装载冷冻保护剂(CPA)、冷冻冷却以及玻璃化、升温和卸载 CPA 期间的行为。更具体地说,利用确定的细胞和膜特征,模拟了卵母细胞在 CPA(卸载)过程中的反应,即细胞体积和细胞内溶质浓度随温度和 CPA 类型和浓度而发生的变化。此外,为了确定慢速可编程冷却低温保存的最佳冷却速率,还模拟了各种冷却速率下冷冻引起的细胞体积反应,以估计可容忍限度的速率。在玻璃化过程中,我们特别强调了在 CPA 暴露期间达到渗透耐受极限的时间预测,以及使用分步添加/移除 CPA 方案的必要性。总之,我们通过模拟和示意图解释了缓慢冷却低温保存和玻璃化过程中的事件发生时间,这对合理设计方案非常重要,其中考虑到了不同的 CPA 类型、浓度和温度对卵母细胞的影响。
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来源期刊
Animal Reproduction Science
Animal Reproduction Science 农林科学-奶制品与动物科学
CiteScore
4.50
自引率
9.10%
发文量
136
审稿时长
54 days
期刊介绍: Animal Reproduction Science publishes results from studies relating to reproduction and fertility in animals. This includes both fundamental research and applied studies, including management practices that increase our understanding of the biology and manipulation of reproduction. Manuscripts should go into depth in the mechanisms involved in the research reported, rather than a give a mere description of findings. The focus is on animals that are useful to humans including food- and fibre-producing; companion/recreational; captive; and endangered species including zoo animals, but excluding laboratory animals unless the results of the study provide new information that impacts the basic understanding of the biology or manipulation of reproduction. The journal''s scope includes the study of reproductive physiology and endocrinology, reproductive cycles, natural and artificial control of reproduction, preservation and use of gametes and embryos, pregnancy and parturition, infertility and sterility, diagnostic and therapeutic techniques. The Editorial Board of Animal Reproduction Science has decided not to publish papers in which there is an exclusive examination of the in vitro development of oocytes and embryos; however, there will be consideration of papers that include in vitro studies where the source of the oocytes and/or development of the embryos beyond the blastocyst stage is part of the experimental design.
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