Huntington’s Disease and Mitochondrial DNA Deletions: Event or Regular Mechanism for Mutant Huntingtin Protein and CAG Repeats Expansion?!

Banoei, Mohammad Mehdi; Houshmand, Massoud; Panahi, Masoud Shariat; Shariati, Parvin; Rostami, Maryam; Manshadi, Masoumeh Dehghan; Majidizadeh, Tayebeh

doi:10.1007/s10571-007-9206-5

Cited by 46 publications

(29 citation statements)

References 36 publications

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“…Recent research has revealed multiple alterations in mitochondria, in HD progression and pathogenesis, including: (i) reduced enzymatic activity in several components of oxidative phosphorylation, including complexes II, III and IV of the electron transport chain, in HD postmortem brains and HD mouse models [22–24], suggesting that mitochondria are involved in HD pathogenesis; (ii) low mitochondrial ATP and decreased mitochondrial ADP uptake in HD knock-in striatal cells and lymphoblasts from patients with HD, revealing expanded polyglutamine repeats [25]; (iii) defective calcium-induced mitochondrial permeability in HD cell lines and HD mice (reviewed in [26]); (iv) mHtt-induced defective mitochondrial trafficking in HD primary neurons [15,17,18,27]; (v) age-dependent mitochondrial (mt)DNA damage and mtDNA deletions in HD-affected neurons [28,29]; and (vi) biochemical, confocal and electron microscopy studies revealed structurally damaged mitochondria with broken cristae, and small and round mitochondria in HD-affected neurons [18–21] (Figure 1). …”

Section: Mitochondrial Abnormalitiesmentioning

confidence: 99%

Increased mitochondrial fission and neuronal dysfunction in Huntington's disease: implications for molecular inhibitors of excessive mitochondrial fission

Reddy

2014

Drug Discovery Today

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Huntington’s disease (HD) is a fatal, progressive neurodegenerative disease with an autosomal dominant inheritance, characterized by chorea, involuntary movements of the limbs and cognitive impairments. Since identification of the HD gene in 1993, tremendous progress has been made in identifying underlying mechanisms involved in HD pathogenesis and progression, and in developing and testing molecular therapeutic targets, using cell and animal models of HD. Recent studies have found that mutant Huntingtin (mHtt) interacts with Dynamin-related protein 1 (Drp1), causing excessive fragmentation of mitochondria, leading to abnormal mitochondrial dynamics and neuronal damage in HD-affected neurons. Some progress has been made in developing molecules that can reduce excessive mitochondrial fission while maintaining both the normal balance between mitochondrial fusion and fission, and normal mitochondrial function in diseases in which excessive mitochondrial fission has been implicated. In this article, we highlight investigations that are determining the involvement of excessive mitochondrial fission in HD pathogenesis, and that are developing inhibitors of excessive mitochondrial fission for potential therapeutic applications.

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Section: Mitochondrial Abnormalitiesmentioning

confidence: 99%

Increased mitochondrial fission and neuronal dysfunction in Huntington's disease: implications for molecular inhibitors of excessive mitochondrial fission

Reddy

2014

Drug Discovery Today

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“…No mtDNA deletions have been found in SCA patients in this study. We have previously shown high frequencies of mtDNA deletions in HD and lower levels in Friedreich's ataxia [24,41] . These findings point to the existence of a complicated mechanism that directly corresponds to the type of protein involved and the related mechanism.…”

Section: Discussionmentioning

confidence: 94%

Mitochondrial <i>tRNALeu/Lys</i> and <i>ATPase 6/8</i> Gene Variations in Spinocerebellar Ataxias

et al. 2008

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Background: The spinocerebellar ataxias (SCA) comprise a heterogeneous group of severe late-onset neurodegenerative diseases that are promoted by the expansion of a tandem-arrayed DNA sequence that modifies the primary structure of the protein. Methods: Genomic DNA of 20 patients affected with SCAs was extracted from peripheral blood and screened for deletions in mitochondrial DNA (mtDNA). Sequencing of tRNA^Leu,tRNA^Lys, cytochrome oxidase II, ATPase 6/8 and NADH dehydrogenase I (NDI) genes belonging to mtDNA from patients with SCAs was also carried out to detect the presence of variations. Results: We identified cytosine-adenine-guanine (CAG) trinucleotide repeat expansions in 20 patients. Seven of these patients had at least one nucleotide change in mtDNA. In such cases, 5 nucleotide variations resulted in amino acid changes with two novel variations T8256G and G9010A. Conclusion: SCA patients showed high levels of mtDNA variations in lymphocytes. It can be proposed that the SCA gene proteins (Ataxins) are involved in the complicated intracellular mechanisms that affect cellular organelles and their components, such as the mitochondrial genome. The instability of CAG repeats in polyglutamine diseases such as SCAs and Huntington’s disease might be a causative factor in mtDNA variation or possible damage.

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“…Involvement of nuclei and mitochondria in HD pathophysiology has been suggested (Sawa et al 1999). Banoei et al (2007) showed that huntington patients had higher mtDNA deletions than normal controls due to the presence of CAG repeats expansion (Banoei et al 2007). Furthermore, HD patients showed increased oxidative stress, together with higher amounts of deleted mtDNA and total mtDNA in peripheral leukocytes.…”

Section: Discussionmentioning

confidence: 99%

Investigation of tRNALeu/Lys and ATPase 6 Genes Mutations in Huntington’s Disease

et al. 2008

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Huntington disease (HD) is a genetically dominant condition caused by expanded CAG repeats which code for glutamine in the HD gene product, huntingtin. Huntingtin is expressed in almost all tissues, so abnormalities outside the brain can also be expected. Involvement of nuclei and mitochondria in HD pathophysiology has been suggested. In fact mitochondrial dysfunction is reported in brains of patients suffering from HD. The tRNA gene mutations are one of hot spots that can cause mitochondrial disorders. In this study, possible mitochondrial DNA (mtDNA) damage was evaluated by screening for mutations in the tRNA(leu/lys) and ATPase 6 genes of 20 patients with HD, using PCR and automated DNA sequencing. Mutations including an A8656G mutation in one patient were observed, which may be causal to the disease. Understanding the role of mitochondria in the pathogenesis of neurodegenerative diseases could potentially be important for the development of therapeutic strategies in HD.

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Huntington’s Disease and Mitochondrial DNA Deletions: Event or Regular Mechanism for Mutant Huntingtin Protein and CAG Repeats Expansion?!

Cited by 46 publications

References 36 publications

Increased mitochondrial fission and neuronal dysfunction in Huntington's disease: implications for molecular inhibitors of excessive mitochondrial fission

Increased mitochondrial fission and neuronal dysfunction in Huntington's disease: implications for molecular inhibitors of excessive mitochondrial fission

Mitochondrial <i>tRNALeu/Lys</i> and <i>ATPase 6/8</i> Gene Variations in Spinocerebellar Ataxias

Investigation of tRNALeu/Lys and ATPase 6 Genes Mutations in Huntington’s Disease

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