不同冷冻保护剂和培养基中内皮细胞的冷冻保存——玻璃化冷冻与慢速冷冻方法

Cryopreservation of Endothelial Cells in Various Cryoprotective Agents and Media - Vitrification versus Slow Freezing Methods.

作者信息

von Bomhard Achim, Elsässer Alexander, Ritschl Lucas Maximilian, Schwarz Silke, Rotter Nicole

机构信息

Technical University of Munich, Department of Maxillofacial Surgery, Langerstr. 3, 81675 Munich, Germany.

University Medical Center Ulm, Department of Otorhinolaryngology, Frauensteige 12, 89075 Ulm, Germany.

出版信息

PLoS One. 2016 Feb 18;11(2):e0149660. doi: 10.1371/journal.pone.0149660. eCollection 2016.

DOI:10.1371/journal.pone.0149660

PMID:26890410

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4758583/

Abstract

Vitrification of endothelial cells (MHECT-5) has not previously been compared with controlled slow freezing methods under standardized conditions. To identify the best cryopreservation technique, we evaluated vitrification and standardized controlled-rate -1°C/minute cell freezing in a -80°C freezer and tested four cryoprotective agents (CPA), namely dimethyl sulfoxide (DMSO), ethylene glycol (EG), propylene glycol (PG), and glycerol (GLY), and two media, namely Dulbecco's modified Eagle medium Ham's F-12 (DMEM)and K+-modified TiProtec (K+TiP), which is a high-potassium-containing medium. Numbers of viable cells in proliferation were evaluated by the CellTiter 96® AQueous One Solution Cell Proliferation Assay (Promega Corporation, Mannheim, Germany). To detect the exact frozen cell number per cryo vial, DNA content was measured by using Hoechst 33258 dye prior to analysis. Thus, results could be evaluated unconstrained by absolute cell number. Thawed cells were cultured in 25 cm2 cell culture flasks to confluence and examined daily by phase contrast imaging. With regard to cell recovery immediately after thawing, DMSO was the most suitable CPA combined with K+TiP in vitrification (99 ±0.5%) and with DMEM in slow freezing (92 ±1.6%). The most viable cells in proliferation after three days of culture were obtained in cells vitrificated by using GLY with K+TiP (308 ±34%) and PG with DMEM in slow freezing (280 ±27%).

摘要

此前尚未在标准化条件下将内皮细胞（MHECT - 5）的玻璃化冷冻与可控慢速冷冻方法进行比较。为了确定最佳的冷冻保存技术，我们评估了玻璃化冷冻以及在-80°C冰箱中以标准化的每分钟-1°C速率进行的细胞冷冻，并测试了四种冷冻保护剂（CPA），即二甲基亚砜（DMSO）、乙二醇（EG）、丙二醇（PG）和甘油（GLY），以及两种培养基，即杜氏改良伊格尔培养基哈姆F - 12（DMEM）和K⁺改良的TiProtec（K⁺TiP），后者是一种含高钾的培养基。通过CellTiter 96® AQueous One Solution细胞增殖检测试剂盒（德国曼海姆的普洛麦格公司）评估增殖中的活细胞数量。为了检测每个冻存管中确切的冷冻细胞数量，在分析之前使用Hoechst 33258染料测量DNA含量。因此，结果可以不受绝对细胞数量的限制进行评估。解冻后的细胞在25 cm²细胞培养瓶中培养至汇合，并通过相差成像每天进行检查。关于解冻后立即的细胞回收率，在玻璃化冷冻中，DMSO与K⁺TiP组合（99±0.5%）是最合适的CPA，在慢速冷冻中与DMEM组合（92±1.6%）是最合适的CPA。培养三天后增殖中活细胞最多的是使用GLY与K⁺TiP进行玻璃化冷冻的细胞（308±34%）以及使用PG与DMEM进行慢速冷冻的细胞（280±27%）。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d333/4758583/cb8ebbd4de47/pone.0149660.g001.jpg

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不同冷冻保护剂和培养基中内皮细胞的冷冻保存——玻璃化冷冻与慢速冷冻方法

Cryopreservation of Endothelial Cells in Various Cryoprotective Agents and Media - Vitrification versus Slow Freezing Methods.

作者信息

von Bomhard Achim, Elsässer Alexander, Ritschl Lucas Maximilian, Schwarz Silke, Rotter Nicole

机构信息

Technical University of Munich, Department of Maxillofacial Surgery, Langerstr. 3, 81675 Munich, Germany.

University Medical Center Ulm, Department of Otorhinolaryngology, Frauensteige 12, 89075 Ulm, Germany.

出版信息

PLoS One. 2016 Feb 18;11(2):e0149660. doi: 10.1371/journal.pone.0149660. eCollection 2016.

DOI:10.1371/journal.pone.0149660

PMID:26890410

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4758583/

Abstract

摘要

不同冷冻保护剂和培养基中内皮细胞的冷冻保存——玻璃化冷冻与慢速冷冻方法

Cryopreservation of Endothelial Cells in Various Cryoprotective Agents and Media - Vitrification versus Slow Freezing Methods.

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不同冷冻保护剂和培养基中内皮细胞的冷冻保存——玻璃化冷冻与慢速冷冻方法

Cryopreservation of Endothelial Cells in Various Cryoprotective Agents and Media - Vitrification versus Slow Freezing Methods.

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