帕金森病患者线粒体转化的细胞中钙稳态的改变。

Altered calcium homeostasis in cells transformed by mitochondria from individuals with Parkinson's disease.

作者信息

Sheehan J P, Swerdlow R H, Parker W D, Miller S W, Davis R E, Tuttle J B

机构信息

Department of Neurological Surgery, University of Virginia, Charlottesville 22908, USA.

出版信息

J Neurochem. 1997 Mar;68(3):1221-33. doi: 10.1046/j.1471-4159.1997.68031221.x.

DOI:10.1046/j.1471-4159.1997.68031221.x

PMID:9048769

Abstract

Parkinson's disease may be linked to defects in mitochondrial function. Mitochondrially transformed cells (cybrids) were created from Parkinson's disease patients or disease-free controls. Parkinson's disease cybrids had 26% less complex I activity, but maintained comparable basal calcium and energy levels. Parkinson's disease cybrids recovered from a carbachol-induced increase in cytosolic calcium 53% more slowly than controls even with lanthanum and thapsigargin blockade. Inhibition of complex I with the Parkinson's disease-inducing metabolite 1-methyl-4-phenylpyridinium (MPP+) similarly reduced the rate of recovery after carbachol. This MPP(+)-induced reduction in recovery rates was much more pronounced in control cybrids than in Parkinson's disease cybrids. Parkinson's disease cybrids had less carbonyl cyanide m-chlorophenylhydrazone-releasable calcium. Bypassing complex I with succinate partially restored Parkinson's disease cybrid, and MPP+ suppressed control cybrid recovery rates. The subtle alteration in calcium homeostasis of Parkinson's disease cybrids may reflect an increased susceptibility to cell death under circumstances not ordinarily toxic.

摘要

帕金森病可能与线粒体功能缺陷有关。从帕金森病患者或无病对照者中创建了线粒体转化细胞（胞质杂种细胞）。帕金森病胞质杂种细胞的复合体I活性降低了26%，但基础钙和能量水平保持相当。即使在镧和毒胡萝卜素阻断的情况下，帕金森病胞质杂种细胞从卡巴胆碱诱导的胞质钙增加中恢复的速度也比对照慢53%。用诱发帕金森病的代谢物1-甲基-4-苯基吡啶鎓（MPP+）抑制复合体I同样降低了卡巴胆碱作用后的恢复速度。这种MPP+诱导的恢复率降低在对照胞质杂种细胞中比在帕金森病胞质杂种细胞中更为明显。帕金森病胞质杂种细胞可释放的羰基氰化物间氯苯腙可释放的钙较少。用琥珀酸绕过复合体I可部分恢复帕金森病胞质杂种细胞，而MPP+则抑制对照胞质杂种细胞的恢复率。帕金森病胞质杂种细胞钙稳态的细微改变可能反映了在通常无毒的情况下对细胞死亡的易感性增加。

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帕金森病患者线粒体转化的细胞中钙稳态的改变。

Altered calcium homeostasis in cells transformed by mitochondria from individuals with Parkinson's disease.

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