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线粒体裂变的抑制有利于突变型而非野生型线粒体DNA。

Inhibition of mitochondrial fission favours mutant over wild-type mitochondrial DNA.

作者信息

Malena Adriana, Loro Emanuele, Di Re Miriam, Holt Ian J, Vergani Lodovica

机构信息

Neuroscience Department, University of Padova, Padova, Italy.

出版信息

Hum Mol Genet. 2009 Sep 15;18(18):3407-16. doi: 10.1093/hmg/ddp281. Epub 2009 Jun 27.

Abstract

Biased segregation of mitochondrial DNA variants has been widely documented, but little was known about its molecular basis. We set out to test the hypothesis that altering the balance between mitochondrial fusion and fission could influence the segregation of mutant and wild-type mtDNA variants, because it would modify the number of organelles per cell. Therefore human cells heteroplasmic for the pathological A3243G mitochondrial DNA mutation were transfected with constructs designed to silence Drp1 or hFis1, whose gene products are required for mitochondrial fission. Drp1 and hFis1 gene silencing were both associated with increased levels of mutant mitochondrial DNA. Thus, the extent of the mitochondrial reticular network appears to be an important factor in determining mutant load. The fact that the level of mutant and wild-type mitochondrial DNA can be manipulated by altering the expression of nuclear encoded factors involved in mitochondrial fission suggests new interventions for mitochondrial DNA disorders.

摘要

线粒体DNA变异的偏向性分离已有广泛记载,但对其分子基础却知之甚少。我们着手检验这样一个假设:改变线粒体融合与分裂之间的平衡可能会影响突变型和野生型线粒体DNA变异的分离,因为这会改变每个细胞中线粒体的数量。因此,将针对病理性A3243G线粒体DNA突变呈异质性的人类细胞用设计用于沉默Drp1或hFis1的构建体进行转染,Drp1和hFis1的基因产物是线粒体分裂所必需的。Drp1和hFis1基因沉默均与突变型线粒体DNA水平升高有关。因此,线粒体网状网络的范围似乎是决定突变负荷的一个重要因素。突变型和野生型线粒体DNA的水平可通过改变参与线粒体分裂的核编码因子的表达来操控,这一事实为线粒体DNA疾病提供了新的干预手段。

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