Haywood S, Fuentealba I C, Foster J, Ross G
Department of Veterinary Pathology Science, University of Liverpool, UK.
Anal Cell Pathol. 1996 May;10(3):229-41.
The pathogenesis of copper (Cu)-induced liver injury has been investigated in Bedlington terriers with familial Cu toxicosis using ultrastructural and microanalytical techniques. Livers from 3 affected and 1 non-affected Bedlington terrier were fixed in 4% paraformaldehyde and 2% glutaraldehyde for transmission electron microscopy and X-ray electron probe microanalysis. Cu analysis was performed on formalin fixed liver by atomic absorption spectrophotometry. In the dog with liver Cu concentration < 2000 micrograms/g, Cu was located only in electron dense lysosomes with minimal cytoplasmic change. With increasing concentrations of liver Cu, the metal became apparent in the nucleus with early signs of nuclear disturbance. In the dog with highest liver Cu content > 7000 micrograms/g X-ray microanalysis identified Cu peaks in lysosomes, nucleus and cytoplasm in descending order with profound cellular changes. The hepatocytes were shrunken with compacted electron dense organelles and the nuclei were contracted, misshapen with chromatin condensation and fragmentation. Apoptotic bodies were identified in sinusoids. It was concluded that excess Cu is initially sequestered in lysosomes but following increasing saturation of this compartment nuclear accumulation of Cu occurs with DNA damage. Apoptosis follows probably by induction of p53 protein.
利用超微结构和微量分析技术,对患有家族性铜中毒的贝德灵顿梗犬铜(Cu)诱导的肝损伤发病机制进行了研究。将3只患病和1只未患病的贝德灵顿梗犬的肝脏用4%多聚甲醛和2%戊二醛固定,用于透射电子显微镜检查和X射线电子探针微量分析。通过原子吸收分光光度法对福尔马林固定的肝脏进行铜分析。在肝脏铜浓度<2000微克/克的犬中,铜仅位于电子致密的溶酶体中,细胞质变化最小。随着肝脏铜浓度的增加,金属在细胞核中变得明显,出现早期核紊乱迹象。在肝脏铜含量最高>7000微克/克的犬中,X射线微量分析确定溶酶体、细胞核和细胞质中的铜峰依次递减,细胞发生深刻变化。肝细胞萎缩,细胞器电子致密且紧密,细胞核收缩、畸形,染色质浓缩和断裂。在肝血窦中发现了凋亡小体。得出的结论是,过量的铜最初被隔离在溶酶体中,但随着该隔室饱和度的增加,铜会在细胞核中积累并导致DNA损伤。凋亡可能是由p53蛋白的诱导引起的。
