低温和低温贮藏过程中红细胞表面标志物cd44的变化。

N G Zemlianskykh, L A Babijchuk
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引用次数: 2

摘要

我们研究了在甘油和PEG-1500保护下低温保存或低温条件下保存的红细胞中表面标记物CD44的变化。结果表明,在低温贮藏过程中,红细胞悬液中的CD44特性在10天内保持不变。在低温保存的红细胞中,cd44阳性细胞和表面标记物的表达水平明显减少。与甘油相比,PEG-1500在冻融后红细胞CD44特性的变化更明显。在洗涤过程中去除冷冻保护剂和部分细胞的损失导致CD44特性在冻融红细胞悬浮液中恢复,这些红细胞在应激后成功存活。结果表明,低温保存红细胞的变化只覆盖了一部分细胞,它们与CD44特征改变的红细胞群体的不稳定性有关,因此在去除冷冻保护剂并同时溶血不稳定细胞后,红细胞悬液中的CD44参数恢复。冻融红细胞表面标志物CD44参数变化的机制可能与在物理和化学环境因素的影响下,膜内分子间相互作用被破坏,随后CD44被包涵到囊泡中的膜泡化有关。
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CHANGES IN ERYTHROCYTE SURFACE MARKER CD44 DURING HYPOTHERMIC AND LOW TEMPERATURE STORAGE.

We studied the changes in surface marker CD44 in erythrocytes, cryopreserved under the protection of glycerol and PEG–1500, or stored in hypothermic conditions. It was shown that during hypothermic storage the CD44 characteristics in erythrocyte suspension were unchanged within 10 days. In cryopreserved erythrocytes a reduction in CD44–positive cells and in the level of expression of the surface marker were marked. Using PEG–1500 resulted in more pronounced change in erythrocyte CD44 characteristics after freeze–thawing in comparison with glycerol. Removal of cryoprotectants and the loss of a part of cells during the washing process led to the restoration of the CD44 characteristics in freeze–thawed erythrocytes suspension which successfully survived after the stresses. The results indicate that revealed changes in cryopreserved erythrocytes cover only a part of the cells, and they are associated with the instability of the population of erythrocytes with altered CD44 characteristics wherethrough after the removal of cryoprotectants with concomitant hemolysis of unstable cells the CD44 parameters in erythrocyte suspensions recovered. The mechanisms underlying the changes in the parameters of the surface marker CD44 in freeze–thawed erythrocyte may be related to the disruption of intermolecular interactions in the membrane under the influence of physical and chemical environmental factors, followed by the membrane vesiculation with the inclusion of the CD44 into the vesicles.

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