An experimental animal model of aluminium overload.

A L Florence, A Gauthier, C Ponsar, P Van den Bosch de Aguilar, R R Crichton
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Abstract

In order that better therapeutic approaches to disorders in man characterized by aluminium (Al) overload might be developed it is essential to have an appropriate animal model. Chronic oral administration of Al citrate to male Wistar rats leads to an Al overload in a relatively short period of time when compared to previous published animal models. Liver and brain Al levels are increased by 25 and 30-fold respectively compared to control rats after 6 months of loading. Al tissue content was significantly greater when the Al citrate was administered in an iron-free diet. The distribution of Al in brain was similar to that in the Al encephalopathy of patients with chronic renal failure or Alzheimer's disease and is in accord with observations that areas of brain that accumulate greatest amounts of Al have highest concentrations of transferrin receptors. In the brain, the toxic effect of Al at the cellular level was characterized by an extensive cytoplasmic vacuolation in astrocytes (especially) and neurones. These changes are reminiscent of those observed in certain human neurodegenerative diseases.

铝超载实验动物模型。
为了更好地治疗以铝(Al)超载为特征的人类疾病,有必要建立一个适当的动物模型。与先前发表的动物模型相比,长期口服柠檬酸铝给雄性Wistar大鼠导致Al在相对较短的时间内过载。6个月后,肝脏和脑Al水平分别比对照大鼠高25倍和30倍。当枸橼酸铝在无铁饮食中施用时,铝组织含量显著增加。Al在大脑中的分布与慢性肾衰竭或阿尔茨海默病患者的Al脑病相似,与观察到的Al积聚量最大的大脑区域有最高浓度的转铁蛋白受体一致。在大脑中,Al在细胞水平上的毒性作用表现为星形胶质细胞(特别是)和神经元中广泛的细胞质空泡化。这些变化让人想起在某些人类神经退行性疾病中观察到的变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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