Visualization of intracellular ice formation and growth in mouse oocytes.

IF 1 4区 生物学 Q3 BIOLOGY Cryo letters Pub Date : 2024-05-01
X Li, S Zhang, Y Zhang, X Zhou
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Abstract

Background: Characterization of intracellular ice formation (IIF) in oocytes during the freezing and thawing processes will contribute to optimizing their cryopreservation. However, the observation of the ice formation process in oocytes is limited by the spatiotemporal resolution of the cryomicroscope systems.

Objective: To observe the intracellular icing of oocytes during cooling and rewarming, and to study the mechanism of formation and growth of intracellular ice in oocytes.

Materials and methods: Mouse oocytes were frozen at different cooling rates to induce intracellular ice formation using a cryomicroscopy system consisting of a microscope equipped with a cryogenic cold stage, an automatic cooling system, a temperature control system, and a high-speed camera. The growth patterns of intracellular ice in oocytes were analyzed from the images recorded. Finally, the growth rate of intracellular ice formation in oocytes was calculated using an automatic intracellular ice tracking method.

Results: The IIF temperature decreased gradually with the increase in cooling rate. Initiation sites of IIF could be classified into three categories: marginal type, internal type and coexisting type. There was a strong predominance for ice crystal initiation site in the oocytes, with up to 80% of the initiation sites located in the marginal region. The intracellular ice growth modes of darkening and twitching cells were characterized by "spreading" and "clustering", respectively. In addition, twitching cells started to recrystallize during rewarming, while darkening cells did not. The instantaneous maximal growth rate of ice crystals in twitching cells was about 10 times higher than that in darkening cells.

Conclusion: By visualising the growth of ice crystals in mouse oocytes during cooling and rewarming, we obtained valuable information on the kinetics of ice formation and melting in these cells. This information can help us understand how ice formation and melting affect the viability and quality of oocytes after cryopreservation. Doi.org/10.54680/fr24310110412.

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小鼠卵母细胞内冰形成和生长的可视化。
背景:表征卵母细胞在冷冻和解冻过程中细胞内冰的形成(IIF)有助于优化卵母细胞的冷冻保存。然而,对卵母细胞内冰形成过程的观察受到冷冻显微镜系统时空分辨率的限制:观察卵母细胞在冷却和回温过程中的胞内结冰现象,并研究卵母细胞胞内冰的形成和生长机制:使用低温显微系统冷冻小鼠卵母细胞,以不同的降温速率诱导细胞内冰的形成,该系统包括配备低温冷台、自动冷却系统、温度控制系统和高速相机的显微镜。根据记录的图像分析卵母细胞内冰的生长模式。最后,利用细胞内冰自动跟踪方法计算了卵母细胞内冰形成的增长率:结果:随着冷却速度的增加,细胞内冰的温度逐渐降低。IIF的起始点可分为三类:边缘型、内部型和共存型。在卵母细胞中,冰晶萌发点占绝大多数,高达 80% 的萌发点位于边缘区域。变黑细胞和抽搐细胞的胞内冰生长模式分别以 "扩散 "和 "聚集 "为特征。此外,抽动细胞在回温过程中开始再结晶,而变黑细胞则没有。抽动细胞中冰晶的瞬时最大生长率是变暗细胞的 10 倍:通过观察小鼠卵母细胞在冷却和回温过程中冰晶的生长情况,我们获得了有关这些细胞中冰形成和融化动力学的宝贵信息。这些信息有助于我们了解冰的形成和融化如何影响冷冻保存后卵母细胞的活力和质量。Doi.org/10.54680/fr24310110412.
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来源期刊
Cryo letters
Cryo letters 生物-生理学
CiteScore
1.80
自引率
10.00%
发文量
50
审稿时长
1 months
期刊介绍: A bimonthly international journal for low temperature sciences, including cryobiology, cryopreservation or vitrification of cells and tissues, chemical and physical aspects of freezing and drying, and studies involving ecology of cold environments, and cold adaptation The journal publishes original research reports, authoritative reviews, technical developments and commissioned book reviews of studies of the effects produced by low temperatures on a wide variety of scientific and technical processes, or those involving low temperature techniques in the investigation of physical, chemical, biological and ecological problems.
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