铜剥夺神经毒性、铜缺乏与神经退行性变。

Cuprizone neurotoxicity, copper deficiency and neurodegeneration.

机构信息

Department of Biology, University of Padova, via U. Bassi 58/B, 35121 Padova, Italy.

出版信息

Neurotoxicology. 2010 Sep;31(5):509-17. doi: 10.1016/j.neuro.2010.05.008. Epub 2010 May 26.

DOI:10.1016/j.neuro.2010.05.008

PMID:20685220

Abstract

Cuprizone is used to obtain demyelination in mice. Cuprizone-treated mice show symptoms similar to several neurodegenerative disorders such as severe status spongiosus. Although it has a simple chemical formula, its neurotoxic mechanism is still unknown. In this work, we examined both physico-chemical properties and biological effects of cuprizone. Our results indicate that cuprizone has very complicated and misunderstood solution chemistry. Moreover, we show here the inability of cuprizone to cross neither the intestinal epithelial barrier nor the neuronal cell membrane, as well its high tolerability by cultured neurons. If added to mice diet, cuprizone does not accumulate in liver or in brain. Therefore, its neurotoxic effect is explainable only in terms of its capability to chelate copper, leading to chronic copper deficiency.

摘要

铜灰霉素用于在小鼠中产生脱髓鞘。铜灰霉素处理的小鼠表现出类似于几种神经退行性疾病的症状，如严重的海绵状状态。尽管它具有简单的化学式，但它的神经毒性机制仍不清楚。在这项工作中，我们研究了铜灰霉素的物理化学性质和生物学效应。我们的结果表明，铜灰霉素的溶液化学性质非常复杂且被误解。此外，我们还表明铜灰霉素既不能穿过肠上皮屏障，也不能穿过神经元细胞膜，而且对培养的神经元具有很高的耐受性。如果添加到小鼠的饮食中，铜灰霉素不会在肝脏或大脑中积累。因此，它的神经毒性作用只能用它螯合铜的能力来解释，导致慢性铜缺乏。

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铜剥夺神经毒性、铜缺乏与神经退行性变。

Cuprizone neurotoxicity, copper deficiency and neurodegeneration.

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