Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0029089 (ophthalmoplegia)
3,338 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

TWINKLE is the helicase at the mitochondrial DNA (mtDNA) replication fork in mammalian cells. Mutations in the PEO1 gene, which encodes TWINKLE, cause autosomal dominant progressive external ophthalmoplegia (AdPEO), a disorder associated with deletions in mtDNA. Here, we characterized seven different AdPEO-causing mutations in the linker region of TWINKLE and we identified distinct molecular phenotypes. For some mutations, protein hexamerization and DNA helicase activity are completely abolished whereas others display more subtle effects. To better understand these distinct phenotypes, we constructed a molecular model of TWINKLE based on the three-dimensional structure of the bacteriophage T7 gene 4 protein. The structural model explains the molecular phenotypes and also predicts the functional consequences of other AdPEO-causing mutations. Our findings provide a molecular platform for further studies in cell- and animal-based model systems and demonstrate that knowledge of the bacteriophage T7 DNA replication machinery may be key to understanding the molecular and phenotypic consequences of mutations in the mtDNA replication apparatus.
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PMID:Structure-function defects of the TWINKLE linker region in progressive external ophthalmoplegia. 1827 90

The Twinkle gene product is important for mtDNA replication. Only a few reports have investigated the clinically effect of mutations in this gene. We describe a new de novo mutation (1110C>A) in the PEO1 gene in a mother and her two sons. The mother had progressive ophthalmoplegia, limb weakness, sensory neuropathy, elevated resting plasma lactate, glucose intolerance and impaired VO2max while her sons only had mild ptosis. In accordance with the clinical presentation, abnormal morphological findings in muscle and multiple deletions and depletion of mtDNA in muscle were more pronounced in the proband than in her sons.
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PMID:Phenotype and clinical course in a family with a new de novo Twinkle gene mutation. 1839 44

Multiple deletions of mitochondrial DNA (mtDNA) are associated with different mitochondrial disorders inherited as autosomal dominant and recessive traits. Causative mutations have been found in five genes, mainly involved in mtDNA replication and stability. They include POLG1, the gene encoding the catalytic subunit of mtDNA polymerase (pol gamma), POLG2 encoding its accessory subunit, ANT1 coding the adenine nucleotide translocator and PEO1 which codes for Twinkle, the mitochondrial helicase. Finally OPA1 missense mutations are involved in phenotypes presenting optic atrophy as a major feature.To define the relative contribution of POLG1, POLG2, ANT1 and PEO1 genes to the mtDNA multiple deletion syndromes, we analysed them in a cohort of 67 probands showing accumulation of multiple mtDNA deletions in muscle. The patients were predominantly affected with a mitochondrial myopathy with or without progressive external ophthalmoplegia (PEO). Genetic analysis revealed that 1) PEO1 has a major role in determining familial PEO, since it accounts for 26.8% of familial cases, followed by ANT1 (14.6%) and POLG1 (9.8%); 2) no mutations in any of the known genes were found in 53.7% of probands of this series. Six novel missense mutations contributing to the mutational load of PEO1 gene (p.R334P, p.W315S, p. S426N, p.W474S, p.F478I, p.E479K) were associated with an adult onset PEO phenotype.
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PMID:Novel Twinkle (PEO1) gene mutations in mendelian progressive external ophthalmoplegia. 1857 22

We describe a patient with myopathy, sensorimotor neuropathy, hypogonadism, and infertility with abnormal sperm mobility and morphology. Analysis of the deltoid muscle DNA revealed a G to A change at nt 1102 in the twinkle gene and multiple mitochondrial DNA deletions. Histochemistry revealed "ragged-red" fibers and many cytochrome-c oxidase negative fibers (32%) that lacked the mitochondrial encoded respiratory chain subunits I and II and the nuclear encoded subunit VIc. Respiratory chain enzyme analysis showed severe deficiency of complex I, III, and IV. This patient has no documented family history of progressive external ophthalmoplegia, which suggests either a sporadic or autosomal-recessive syndrome. This case is a novel phenotype for twinkle gene mutations and multiple mitochondrial DNA deletion syndromes, as these syndromes generally follow an autosomal-dominant inheritance pattern.
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PMID:A novel clinical phenotype of myopathy, sensorimotor neuropathy, infertility, and hypogonadism with multiple mitochondrial DNA deletions. 1907 59

TWINKLE is a DNA helicase needed for mitochondrial DNA replication. In lower eukaryotes the protein also harbors a primase activity, which is lost from TWINKLE encoded by mammalian cells. Mutations in TWINKLE underlie autosomal dominant progressive external ophthalmoplegia (adPEO), a disorder associated with multiple deletions in the mtDNA. Four different adPEO-causing mutations (W315L, K319T, R334Q, and P335L) are located in the N-terminal domain of TWINKLE. The mutations cause a dramatic decrease in ATPase activity, which is partially overcome in the presence of single-stranded DNA. The mutated proteins have defects in DNA helicase activity and cannot support normal levels of DNA replication. To explain the phenotypes, we use a molecular model of TWINKLE based on sequence similarities with the phage T7 gene 4 protein. The four adPEO-causing mutations are located in a region required to bind single-stranded DNA. These mutations may therefore impair an essential element of the catalytic cycle in hexameric helicases, i.e. the interplay between single-stranded DNA binding and ATP hydrolysis.
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PMID:Structure-function defects of the twinkle amino-terminal region in progressive external ophthalmoplegia. 1908 93

Nuclear genes affecting mitochondrial genome stability were screened in an Italian family presenting with autosomal dominant progressive external ophthalmoplegia (adPEO) associated with multiple mitochondrial DNA (mtDNA) deletions. We report on a heterozygous c.907C>T (p.R303W) mutation found in the N-terminal domain of the human mitochondrial DNA helicase, Twinkle protein, in six members of a family, in which two individuals manifested late-onset PEO and morphological and molecular signs of mitochondrial dysfunction along with two carriers who are presently free of disease manifestation. We also investigated if the p.R303W mutation in PEO1 gene affected the relative copy number of mitochondrial DNA genomes.
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PMID:Molecular analysis in a family presenting with a mild form of late-onset autosomal dominant chronic progressive external ophthalmoplegia. 1942 52

Variations in the mitochondrial helicase Twinkle (PEO1) gene are usually associated with autosomal dominant chronic progressive external ophthalmoplegia (PEO). We describe five patients from two unrelated Alsatian families with the new R374W variation in the Twinkle linker region who progressively developed an autosomal dominant multisystem disorder with PEO, hearing loss, myopathy, dysphagia, dysphonia, sensory neuropathy, and late-onset dementia resembling Alzheimer's disease. These observations demonstrate that Twinkle variations in the linker domain alter cerebral function and further implicate disrupted mitochondrial DNA integrity in the pathogenesis of dementia.
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PMID:A novel variation in the Twinkle linker region causing late-onset dementia. 1951 67

A Saudi Arabian family presented with adult onset autosomal dominant progressive external ophthalmoplegia (adPEO) complicated by late onset reversible failure of the CNS, respiratory, hepatic, and endocrine systems. Clinical findings were suggestive of mitochondrial dysfunction and multiple mitochondrial DNA deletions were demonstrated on long range and real time polymerase chain reaction assays but not on Southern blotting. The disorder is caused by a novel heterozygous PEO1 mutation predicting a Leu360Gly substitution in the twinkle protein. The peculiar clinical presentation expands the variable phenotype observed in adPEO and Twinkle gene mutations.
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PMID:Novel Twinkle gene mutation in autosomal dominant progressive external ophthalmoplegia and multisystem failure. 1985 44

Disorders of oxidative phosphorylation and mitochondrial function can be caused from mutations involving both mitochondrial DNA (mtDNA) or mitochondrial-targeted nuclear DNA genes. Progressive depletion of mtDNA is one mechanism of mitochondrial dysfunction leading to human disease, which is the end result of loss of the sufficient mtDNA-encoded proteins for normal electron transport chain function. Mitochondrial DNA depletion is caused by germline deletions and duplications of segments within the mtDNA as well as germline mutations in the nuclear genes responsible for mtDNA duplication (the polymerase apparatus including POLG, POLG2 and PEO1) and mtDNA maintenance (those genes that regulate the deoxynucleotide triphosphate pools and other functions including TP1, TK2, DGUOK, SUCLA1, SUCLA2, ANT1, RRM2B and MPV17). This review will focus on the most common disorders that result from mutations with POLG, with some discussion of the other nuclear-encoded genes involved in mtDNA maintenance. Mutations in POLG can cause a wide range of disease, which vary in both age of onset and severity. These disorders comprise a continuous spectrum of overlapping symptoms and signs; and range from a rapidly fatal infantile cerebrohepatic disease to a progressive external ophthalmoplegia (PEO) that may not present until the sixth decade of life. Many of the disorders seem to have a more unique and restrictive clinical presentation, at least to date. Since the first disorders linked to mtDNA depletion were described in 2001, the nomenclature, methods of diagnosis, clinical evaluation and treatment of these disorders have been better defined. However, this remains a rapidly evolving field, with additional proteins and genes are being discovered as DNA testing becomes part of the standard of care in everyday medical practice.
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PMID:The clinical diagnosis of POLG disease and other mitochondrial DNA depletion disorders. 2055 95

Nuclear genes, in particular mitochondrial polymerase gamma (POLG) and PEO1, have been increasingly recognized to cause mitochondrial diseases. Both genes assume a complementary role as part of the mitochondrial DNA (mtDNA) replication fork and, accordingly, seem to present with largely overlapping phenotypical spectra. We assessed the frequency and phenotypic spectrum of PEO1 compared to POLG mutations in a cohort of 80 patients with cerebellar ataxia for which common repeat expansion diseases had been excluded. Patients were selected to present additional features previously described for PEO1 mutations, namely early age of onset, progressive external ophthalmoplegia (PEO), or epilepsy. Whereas PEO1 mutations were not found in our cohort, POLG frequently caused ataxia with PEO (47%), psychiatric comorbidities (20%) and, more rarely, with epilepsy (14%). Thus, PEO1 is rare in Central Europe even in those patients displaying characteristic phenotypic features. In contrast, POLG is rather common in Central European ataxia patients. It should be particularly considered in ataxia patients with PEO, psychiatric comorbidities, and/or sensory neuropathy, even if characteristic mitochondrial extra-CNS features are absent.
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PMID:POLG, but not PEO1, is a frequent cause of cerebellar ataxia in Central Europe. 2080 11


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