Mito-communications

R. DeSalle
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引用次数: 1

摘要

线粒体(mt)异常与一般人类疾病,特别是神经退行性疾病的相关性是广泛的。在这里,我们总结了一项特别有趣的研究工作,利用人类mtDNA变异来检查神经退行性疾病。Blohkin等人(2008)询问mt拷贝数异常是否与多发性硬化症(MS)病理相关。先前的研究已经确定,细胞色素氧化酶阴性(COX 2)的细胞中mtDNA拷贝数存在年龄依赖性影响。在《分子神经科学杂志》上发表的研究中,作者研究了mtDNA拷贝数与组织变性(与COX 2和COX þ单个胶质细胞的炎症脱髓鞘相关)的相关性。他们使用ND1/18s rDNA扩增系统的实时PCR(扩增的18S rDNA成分作为对照或校准)来量化几种类型死后组织中mtDNA分子的拷贝数。检查的组织是MS患者的正常灰质(NAGM)和正常白质(NAWM)区域和慢性活动性斑块。作者确定NAGM神经元的mtDNA拷贝数明显高于MS脑其他区域的细胞。在MS患者和对照组的神经元中,mtdnacopynumber也观察到与年龄相关的下降。该研究的结果排除了拷贝数变化作为MS患者斑块形成的一个因素。然而,作者认为mtdnaormt生物合成的代偿性复制发生在多发性硬化症的神经轴突丧失中。作者认为,迟发性多发性硬化症的一些特征可能与mtDNA拷贝数的年龄相关下降有关。我们引导读者去看Yang等人(2008)最近关于mtDNA异常在神经退行性疾病中的作用的综述。
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Mito-communications
The correlation of mitochondrial (mt) anomalies with human disease in general, and neurodegenerative disorders in particular, is extensive. Here, we summarize the work of one particularly interesting study utilizing human mtDNA variants to examine neurodegenerative disorders. Blohkin et al. (2008) ask whether mt copy number anomalies are pathology-related to multiple sclerosis (MS). Previous work had determined that there is an age-dependent effect on the mtDNA copy number in cells that are cytochrome oxidase negative (COX 2). In the study reported in the Journal of Molecular Neurosciences the authors examined the correlation of mtDNA copy number with tissue degeneration associated with inflammatory demyelination of COX 2 and COX þ single glial cells associatedwithMS.Theyused real-time PCR of an ND1/18s rDNA amplification system (the 18S rDNA component of the amplification serves as a control or calibrator) to quantify the copy number of mtDNA molecules in several types of postmortem tissues. The tissues examined were normal-appearing gray matter (NAGM) and normalappearing white matter (NAWM) regions and chronic active plaques of MS patients. The authors determined that there is a significantly higher mtDNA copy number in neurons of NAGM than in cells of other MS brain regions.Anage-related decline inmtDNAcopynumber was also observed in neurons of both MS patients and controls. The results of the study exclude a change in copy number as a factor in plaque formation in MS patients. However, the authors suggest that a compensatory replication ofmtDNAormt biosynthesis occurs with neuroaxonal loss in MS. The authors suggest that some features of late-onset MS may be explained by the age-related decline of mtDNA copy number. We direct the reader to Yang et al. (2008) for a recent review of the role of mtDNA anomalies in neurodegenerative disorders.
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