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Autosomal dominant and/or recessive progressive external ophthalmoplegia (ad/arPEO) is associated with mtDNA mutagenesis. It can be caused by mutations in three nuclear genes, encoding the adenine nucleotide translocator 1, the mitochondrial helicase Twinkle or DNA polymerase γ (POLG). How mutations in these genes result in progressive accumulation of multiple mtDNA deletions in post- mitotic tissues is still unclear. A recent hypothesis suggested that mtDNA replication infidelity could promote slipped mispairing, thereby stimulating deletion formation. This hypothesis predicts that mtDNA of ad/arPEO patients will contain frequent mutations throughout; in fact, our analysis of muscle from ad/arPEO patients revealed an age-dependent, enhanced accumulation of point mutations in addition to deletions, but specifically in the mtDNA control region. Both deleted and non-deleted mtDNA molecules showed increased point mutation levels, as did mtDNAs of patients with a single mtDNA deletion, suggesting that point mutations do not cause multiple deletions. Deletion breakpoint analysis showed frequent breakpoints around homopolymeric runs, which could be a signature of replication stalling. Therefore, we propose replication stalling as the principal cause of deletion formation.  相似文献   

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The 4977bp deletion of mitochondrial DNA (mtDNA) is known to accumulate with increasing age in post mitotic tissues. Recently, studies came out detecting this specific alteration also in fast replicating cells, e.g. in blood or skin tissue, often in correlation to specific diseases or -- specifically in skin -- external stressors such as UV radiation. In this study, we investigated mitochondrial mutagenesis in 69 patients with a chronic alcoholic disease and 46 age matched controls with a moderate drinking behavior. Two different fragments, specific for total and for deleted mtDNA (dmtDNA) were amplified in a duplex-PCR. A subsequent fragment analysis was performed and for relative quantification, the quotient of the peak areas of amplification products specific for deleted and total mtDNA was determined. Additionally, a real time PCR was performed to quantify mtDNA copy number. The relative amount of 4977bp deleted mtDNA in alcoholics was significantly increased compared to controls. On the other hand, no difference regarding the mtDNA/nuclear DNA ratio in both investigated groups was detected. Additionally, no age dependence could be found nor in alcoholics, neither in the control group. These findings indicate that mtDNA mutagenesis in blood can be influenced by stressors such as alcohol. Ethanol seems to be a significant factor to alter mitochondrial DNA in blood and might be an additional contributor for the cellular aging process.  相似文献   

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 Myoblast cultures were established from muscle biopsies of two patients harboring heteroplasmic mitochondrial (mt) DNA deletions. The accumulation kinetics of the deleted mtDNA was followed during myoblast to myotube differentiation. The percent- age of deleted mtDNA was determined by quantitative PCR in myoblasts, myotubes, and muscle biopsies. The deleted form accounted for 65% of the mtDNA present in a muscle biopsy from a patient harboring a 5.6-kb deletion. The percentage of deleted mtDNA was 1.2% in myoblasts and increased progressively after differentiation, up to 12% at 21 days after the commitment time. In a second patient harboring a 2.8-kb deletion, the percentage of deleted mtDNA increased much more slowly: from 0.07% in myoblasts to 0.21% after 22 days of differentiation, as compared with 45% in the muscle biopsy. Thus, a three- and ten-fold increase, respectively, in the fraction of deleted mtDNA occurred during the differentiation of myoblasts to myotubes from the two patients. The faster accumulation of deleted mtDNA in the first patient’s cells was linked to an earlier myoblast to myotube differentiation, suggesting that the level of deleted mtDNA is inversely related to the rate of cell proliferation. Received: 16 April 1996/Accepted: 29 July 1996  相似文献   

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Neoplastic transformation was found to have a marked effect on the expression of nuclear DNA (nDNA)- and mitochondrial DNA (mtDNA)-encoded oxidative phosphorylation (OXPHOS) genes. Examining three pairs of human diploid fibroblasts and their SV 40-transformed counterparts revealed that mRNAs for the nuclear-encoded ATP synthase beta and the adenine nucleotide translocator (ANT) isoform 1 and 2 genes were markedly induced, whereas the mRNA for the ANT isoform 3 gene remained unchanged. The mRNA levels for the mtDNA-encoded 12 S rRNA, ND2, ATPase6+8, COIII, ND5+6, and Cytb genes were also increased, whereas the mtDNA number declined. Similar analysis of a cervical carcinoma (HeLa), fibrosarcoma (HT1080), and an Epstein-Barr virus (EBV)-transformed lymphoblastoid line (EBV-L) revealed that all three ANT isoforms were also expressed in these cells. Hence, changes in the expression of OXPHOS genes may be a common feature of transformed cells.  相似文献   

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Several types of deletions in mitochondrial DNA (mtDNA) have been recetly identified in various tissues of old humans. In order to determine whether there are differences in the incidence and proportion of deleted mtDNAs in different tissues during human ageing, we examined tha 4,977 bp deletion in mtDNA of various tissues from subjects of different ages. Total DNA was extracted from each of the biopsied tissues and was serially diluted by two-fold with distilled water. A 533 bp DNA fragment was amplified by PCR from total mtDNA using a pair of primers L3304-3323 and H3817-3836, and another 524 bp PCR product was amplified from 4,977 bp deleted mtDNA by identical conditions using another pair of primers L8150-8166 and H13631-13650. The maximum dilution fold of each sample that still allowed the ethidium bromide-stained PCR product (533 bp or 524 bp) in the agarose gel to be visible under UV light illumination was taken as the relative abundance of the mtDNA (wild-type or mutant) in the original sample. By this method, we were able to determine the proportion of deleted mtDNA in human tissues. We found that the 4,977 bp deletion started to appear in the second and third decades of life in human muscle and liver tissues. But the deletion was not detectable in the testis until the age of 60 years. Moreover, the proportion of deleted mtDNA varied greatly in different tissues. Among the tissues examined, muscle was found to harbor higher proportin of deleted mtDNA than the other tissues. The average proportion of the 4,977 bp depleted mtDNA of the muscle from subjects over 70 years old was approximately 0.06%, and that of the liver and the testis was 0.0076% and 0.05%, respectively. These findings suggest that the frequency and proportion of the deleted mtDNA in human tissues increase with age and that the mtDNA deletions occur more frequently and abundantly in high energy-demanding tissues during the ageing process of the human.  相似文献   

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Mitochondrial DNA alterations as ageing-associated molecular events.   总被引:7,自引:0,他引:7  
Y H Wei 《Mutation research》1992,275(3-6):145-155
Mitochondrial DNA (mtDNA) is a naked double-stranded circular extrachromosomal genetic element continuously exposed to the matrix that contains great amounts of reactive oxygen species and free radicals. The age-dependent decline in the capability and capacity of mitochondria to dispose these oxy-radicals will render mtDNA more vulnerable to mutations during the ageing process. During the past 3 years, more than 10 different types of deletions have been identified in the mtDNA of various tissues of old humans. Some of them were found only in a certain tissue but some others appeared in more than one organ or tissue. The 4977-bp deletion is the most prevalent and abundant one among these deletions. Skeletal muscle is the target tissue of most ageing-associated mtDNA deletions and has often been found to carry multiple deletions. The onset age of the various deletions in mtDNA varies greatly with individual and type of the deletion. The 4977-bp deletion has been independently demonstrated to occur in the mtDNA of various tissues of the human in the early third decade of life. However, the 7436-bp deletion was only detected in the heart mtDNA of human subjects in their late thirties. The others appeared only in older humans over 40 years old. No apparent sex difference was found in the onset age of these ageing-associated mtDNA deletions. The various ageing-associated deletions could be classified into two groups. Most of the deletions belong to the first group, in which the 5'- and 3'-end breakpoints of the deletion are flanked by 4-bp or longer direct repeats. The deletion in the second group occurs less frequently and shows no distinct repeat sequences flanking the deletion sites. These two groups of mtDNA deletions may occur by different mechanisms. The first group is most probably caused by internal recombination or slippage mispairing during replication of mtDNA by the D-loop mechanism. The deleted mtDNA and the deleted DNA fragment may be further degraded or escape from the mitochondria and get translocated into the nucleus. The latter route has been substantiated by many observations of inserted mtDNA sequences in the nuclear DNA. Thus, the fragments of migrating mtDNA may change the information content and expression level of certain nuclear genes and thereby promote the ageing process or cause cancer. Similar ageing-associated alterations of mtDNA have also been observed in aged animals and plants. I suggest that mtDNA deletions and other mutations to be discovered are molecular events generally associated with the ageing process.  相似文献   

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Defects of mitochondrial DNA (mtDNA) are an important cause of disease and play a role in the ageing process. There are multiple copies of the mitochondrial genome in a single cell. In many patients with acquired or inherited mtDNA mutations, there exists a mixture of mutated and wild type genomes (termed heteroplasmy) within individual cells. As a biochemical and clinical defect is only observed when there are high levels of mutated mtDNA, a crucial investigation is to determine the level of heteroplasmic mutations within tissues and individual cells. We have developed an assay to determine the relative amount of deleted mtDNA using real-time fluorescence PCR. This assay detects the vast majority of deleted molecules, thus eliminating the need to develop specific probes. We have demonstrated an excellent correlation with other techniques (Southern blotting and three- primer competitive PCR), and have shown this technique to be sensitive to quantify the level of deleted mtDNA molecules in individual cells. Finally, we have used this assay to investigate patients with mitochondrial disease and shown in individual skeletal muscle fibres that there exist different patterns of abnormalities between patients with single or multiple mtDNA deletions. We believe that this technique has significant advantages over other methods to quantify deleted mtDNA and, employed alongside our method to sequence the mitochondrial genome from single cells, will further our understanding of the role of mtDNA mutations in human disease and ageing.  相似文献   

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Quantitation of wild-type and deleted mitochondrial DNA (mtDNA) coexisting within the same cell (a.k.a., heteroplasmy) is important in mitochondrial disease and aging. We report the development of a multiplex three-primer PCR assay that is capable of absolute quantitation of wild-type and deleted mtDNA simultaneously. Molecular beacons were designed to hybridize with either type of mtDNA molecule, allowing real-time detection during PCR amplification. The assay is specific and can detect down to six copies of mtDNA, making it suitable for single-cell analyses. The relative standard deviation in the threshold cycle number is approximately 0.6%. Heteroplasmy was quantitated in individual cytoplasmic hybrid cells (cybrids), containing a large mtDNA deletion, and bulk cell samples. Individual cybrid cells contained 100-2600 copies of wild-type mtDNA and 950-4700 copies of deleted mtDNA, and the percentage of heteroplasmy ranged from 43+/-16 to 95+/-16%. The average amount of total mtDNA was 3800+/-1600 copies/cybrid cell, and the average percentage of heteroplasmy correlated well with the bulk cell sample. The single-cell analysis also revealed that heteroplasmy in individual cells is highly heterogeneous. This assay will be useful for monitoring clonal expansions of mtDNA deletions and investigating the role of heteroplasmy in cell-to-cell heterogeneity in cellular models of mitochondrial disease and aging.  相似文献   

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Recently, efforts have been focused on mitochondrial DNA changes and their relation to human cancers. Among them, a 4977 bp deletion of mitochondrial DNA, named "common deletion", has been investigated in several types of tumors, with inconsistent results. In this study, we investigated the presence of the common deletion in tissues from 25 breast, 25 colorectal and 50 thyroid tumors and in the adjacent healthy tissues from Turkish patients. Samples from healthy volunteers were also evaluated for comparison. Two PCR-based methods were used for the detection of the common deletion. First, two pairs of primers were used to amplify wild-type and deleted mtDNA. Then, a highly sensitive nested-PCR was performed, to determine low amounts of deleted genomes. By the first method, wild-type mtDNAs were observed in all samples, but a deletion was observed in only six thyroid samples, by using the nested-PCR method. In conclusion, the mitochondrial common deletion was very rare in our study group and did not appear to be not related with cancer.  相似文献   

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Polymorphism of animal mitochondrial DNA (mtDNA) has been shown to involve point mutations and limited length variations affecting essentially noncoding regions. In two wild mice of the European subspecies Mus mus musculus we found a mitochondrial mutant with a very large deletion in a coding region. The deletion is 5 kbp long (31% of the mitochondrial chromosome) and encompasses six tRNA genes and seven protein genes. The two mice were heteroplasmic: they contained a mixture of normal mtDNA and the deletion mutant. Although the latter is functionally defective, it represents 78%-79% of the mtDNA molecules in our preparations from each animal.   相似文献   

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