低温损伤：线粒体钙、三磷酸腺苷和活性氧的爱恨三角失衡。

Hypothermic injury: the mitochondrial calcium, ATP and ROS love-hate triangle out of balance.

作者信息

Brinkkoetter Paul-Thomas, Song Hui, Lösel Ralf, Schnetzke Ulf, Gottmann Uwe, Feng Yuxi, Hanusch Christine, Beck Grietje C, Schnuelle Peter, Wehling Martin, van der Woude Fokko J, Yard Benito A

机构信息

Vth Medical Department, University Hospital of Mannheim, University of Heidelberg, Mannheim, Germany.

出版信息

Cell Physiol Biochem. 2008;22(1-4):195-204. doi: 10.1159/000149797. Epub 2008 Jul 25.

DOI:10.1159/000149797

PMID:18769046

Abstract

BACKGROUND/AIMS: Catecholamines prevent hypothermic cell death which accounts for severe tissue damage and impaired allograft function after prolonged organ preservation. Here, we identified cellular processes which govern hypothermia-mediated cell death in endothelial cells and how they are influenced by dopamine.

METHODS

Lactate dehydrogenase assay, intracellular ATP, reactive oxygen species and reduced thio-group measurement, intracellular calcium measurement and mitochondrial calcium staining were performed in the study.

RESULTS

Intracellular ATP was almost completely depleted within 12 hrs of hypothermic preservation in untreated human umbilical vein endothelial cells (HUVEC), while dopamine pre-treatment significantly delayed ATP depletion. 4 hrs after hypothermia a redox imbalance was observed in untreated cells, which increased with the duration of hypothermia. The redox imbalance was primarily caused by depletion of SH reduction equivalents and was significantly inhibited by dopamine. In addition, hypothermia-induced Ca(2+) influx and mitochondrial Ca(2+) accumulation were both prevented by dopamine. The protective effect of dopamine was abrogated by ionomycin and sodium azide and partly by oligomycin and CCCP.

CONCLUSIONS

Our data demonstrated that loss of intracellular ATP, generation of a redox imbalance and accumulation of intracellular Ca(2+) underlie cold preservation injury. Dopamine improves the redox balance, prevents intracellular Ca(2+) accumulation and delays ATP depletion.

摘要

背景/目的：儿茶酚胺可预防低温导致的细胞死亡，而低温导致的细胞死亡是长时间器官保存后严重组织损伤和移植器官功能受损的原因。在此，我们确定了在内皮细胞中控制低温介导的细胞死亡的细胞过程，以及多巴胺如何影响这些过程。

方法

本研究进行了乳酸脱氢酶测定、细胞内ATP、活性氧和还原硫基团测量、细胞内钙测量以及线粒体钙染色。

结果

在未处理的人脐静脉内皮细胞（HUVEC）中，低温保存12小时内细胞内ATP几乎完全耗尽，而多巴胺预处理显著延迟了ATP的耗尽。低温4小时后，未处理的细胞中观察到氧化还原失衡，且随着低温持续时间的延长而增加。氧化还原失衡主要由SH还原当量的耗尽引起，并被多巴胺显著抑制。此外，多巴胺可防止低温诱导的Ca(2+)内流和线粒体Ca(2+)积累。多巴胺的保护作用被离子霉素和叠氮化钠消除，部分被寡霉素和CCCP消除。

结论

我们的数据表明，细胞内ATP的丧失、氧化还原失衡的产生和细胞内Ca(2+)的积累是冷保存损伤的基础。多巴胺可改善氧化还原平衡，防止细胞内Ca(2+)积累，并延迟ATP耗尽。

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低温损伤：线粒体钙、三磷酸腺苷和活性氧的爱恨三角失衡。

Hypothermic injury: the mitochondrial calcium, ATP and ROS love-hate triangle out of balance.

作者信息

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出版信息

METHODS

RESULTS

CONCLUSIONS

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