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Mutant Twinkle increases dopaminergic neurodegeneration, mtDNA deletions and modulates Parkin expression.

Hum. Mol. Genet.2012 Dec 1;21(23):5147-58. Epub 2012 Sep 04
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摘要


Parkinson's disease (PD) is the second most common neurodegenerative disorder in the developed world, and is characterized by the loss of dopaminergic (DA) neurons in the substantia nigra (SN). Somatic mitochondrial DNA (mtDNA) deletions reach their highest concentration with age in the SN in humans, and may contribute to PD; yet whether mtDNA deletions cause DA neuron degeneration remains unclear. Inherited mutations of Twinkle helicase involved in mtDNA replication causes a dominant increase in mtDNA deletions in humans. We constructed a mouse model expressing mutant Twinkle in DA neurons. Mutant mice had an increase in age-related mtDNA deletions, reduction of DA neuron number in SN at 17-22 months and displayed abnormalities in rota-rod behavior. Functional analysis of midbrain indicated a slight reduction in mitochondrial state II respiration in mutants, but no decrease in maximal respiration. Also, Parkin expression was significantly decreased in DA neurons in the SN of 22-month-old mutant mice, and in PC12 cells after 48 h transfection of mutant Twinkle. Both confocal imaging and coimmunoprecipitation indicated interaction of Twinkle with Parkin in the mitochondria. Parkin overexpression rescued the reduction of proteasome activity caused by mutant Twinkle in PC12 cells. In addition, the autophagy marker LC3 was increased in the SN of 22-month transgenics, and this increase was similarly mutant Twinkle-dependent in PC12 cells. Collectively, our data demonstrate that mammalian Twinkle is important for mitochondrial integrity in DA neurons and provide a novel mouse model in which increased mtDNA deletions may lead to DA neuron degeneration and parkinsonism.

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