UMLS:C0031117 - FACTA Search

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Query: UMLS:C0031117 (peripheral neuropathy)
10,577 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Peripheral neuropathy induced by 2',3'-dideoxycytidine (ddC) could result from the previously shown inhibition of mtDNA replication by the action of ddC on the mitochondrial enzyme DNA polymerase gamma. Such inhibition would be expected to impair oxidative phosphorylation, and this was demonstrated in the present study for the PC12 cell, a model of a peripheral neuron. The dramatic rise in lactate formation upon exposure of the cell to ddC indicated that increased glycolysis was needed to produce ATP. A concomitant rise in O2 uptake indicated that oxidative phosphorylation had become uncoupled. When tested in a standard respiratory control system (isolated rat liver mitochondria), however, we found ddC not to be an uncoupler. Rather, the uncoupling most likely resulted from the failure of synthesis of one or more mitochondrial gene products necessary for oxidative phosphorylation. We also observed an important distinction between the manner in which ddC and 3'-azido-3'-deoxythymidine (AZT) act. ddC-exerted inhibition of oxidative phosphorylation was delayed for several days. This is consistent with the inhibition occurring indirectly, most likely as a result of the prior destruction of the mitochondrial genome, which encodes many of the components of the oxidative phosphorylation system. In contrast, we have shown previously that although AZT also impairs replication of the mitochondrial genome (in the Friend murine erythroleukemic cell), it also attacks directly an additional primary target leading to impairment of oxidative phosphorylation; its initial inhibition of this process is immediate, not occurring via inhibition of mitochondrial DNA replication.
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PMID:Effect of 2',3'-dideoxycytidine on oxidative phosphorylation in the PC12 cell, a neuronal model. 926 Aug 76

Antiretroviral therapy, although successful in reducing HIV load and accordingly decreasing the incidence of HIV infection-related symptoms, has its drawbacks in the form of severe side effects. Recognized drug-related side effects are, for example, nausea, fatigue, lactic acidosis, neuropathy, lipodystrophy, and myopathy. Because not all patients experience these side effects, genetic factors could be involved. It is believed that the main toxicity of nucleoside analog drugs is due to a decrease in mitochondrial function, possibly by inhibition of mitochondrial DNA (mtDNA) replication. mtDNA is replicated by a multienzyme complex, the main component of which is the nuclear-encoded DNA polymerase gamma. Presently, the only known variation in the DNA polymerase gamma gene is variation in the number of CAG repeats in the second exon. To investigate whether CAG repeat expansion or mutations in the DNA polymerase gamma (POLG) gene could predispose to peripheral neuropathy or lactic acidosis, we have sequenced part of the second exon of the DNA polymerase gamma gene, containing the CAG repeat, of 59 drug-treated HIV-infected patients, 11 of whom experienced drug-induced neuropathy, and 3 of whom died from lactic acidosis. No correlation was found between numbers of CAG repeats and any of the symptoms. The coding regions of the POLG gene from the three lactic acidosis patients were then completely sequenced, but no mutations were found. In addition, no variation was detected in exons 3, 8, and 19 of seven neuropathy patients and three control subjects without symptoms. These exons were the only sites of amino acid changes between human and chimpanzee POLG genes, and were chosen as targets of tolerated variation.
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PMID:Lack of correlation between length variation in the DNA polymerase gamma gene CAG repeat and lactic acidosis or neuropathy during antiretroviral treatment. 1203 82

The accumulation of multiple mitochondrial DNA (mtDNA) deletions in stable tissues is a distinctive feature of several autosomal disorders, characterized by Progressive External Ophthalmoplegia (PEO), ptosis, and proximal myopathy. At least three nuclear genes are responsible for these disorders: ANT1 and C10orf2 cause autosomal dominant PEO, while mutations of DNA polymerase gammaA (POLG1 or POLG) gene on chromosome 15q25 causes both autosomal dominant and recessive forms of PEO. To investigate the contribution of these genes to the sporadic cases of PEO with multiple mtDNA deletions, we studied 31 mitochondrial myopathy patients without any family history for the disorder: 23 had PEO with myopathy, with or without the additional features of pigmentary retinopathy, ataxia, neurosensorial hypoacusia and diabetes mellitus, 7 presented isolated myopathy and one a peripheral neuropathy with ptosis. In all patients Southern blot of muscle DNA showed multiple mtDNA deletions; screening for ANT1 and C10ORF2 genes was negative. POLG analysis revealed mutations in eight patients; in six of them the mutations were allelic, while two patients were heterozygous. Five mutations were new, namely one stop codon (c.2407C>T/p.R709X) and four missense mutations (c.1085G>C/p.G268A; c.1967G>A/p.R562Q; c.2702G>C/p.R807P; c.3076C>T/p.H932W). A high degree of conservation was observed for all the new missense mutations. Only patients presenting PEO as part of their clinical phenotype had POLG mutations, in seven of them together with myopathic signs and in one with a sensori-motor peripheral neuropathy.
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PMID:POLG mutations in sporadic mitochondrial disorders with multiple mtDNA deletions. 1463 18

Parkinsonism has been described in patients with mutations in POLG1 gene. The W748S mutation is one of the most common mutations in this gene and it has been found to be a frequent cause of autosomal recessive ataxia in adults and the Alpers syndrome in children. We found the W748S mutation in a 65-year-old man with a late-onset syndrome consisting of ataxia, parkinsonism, ophthalmoplegia, peripheral neuropathy, and sensorineural hearing loss. Parkinsonism is one of the phenotypic features associated also with the W748S mutation.
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PMID:Parkinsonism associated with the homozygous W748S mutation in the POLG1 gene. 1832 54

Gemcitabine, 2'-deoxy-2', 2'-difluorocytidine (dFdC), is a drug approved for use against various solid tumors. Clinically, this moderately toxic nucleoside analog causes peripheral neuropathy, hematological dysfunction, and pulmonary toxicity in cancer patients. Although these side effects closely mimic symptoms of mitochondrial dysfunction, there is no direct evidence to show gemcitabine interferes with mitochondrial DNA replication catalyzed by human DNA polymerase gamma. Here we employed presteady state kinetic methods to directly investigate the incorporation of the 5'-triphosphorylated form of gemcitabine (dFdCTP), the excision of the incorporated monophosphorylated form (dFdCMP), and the bypass of template base dFdC catalyzed by human DNA polymerase gamma. Opposite template base dG, dFdCTP was incorporated with a 432-fold lower efficiency than dCTP. Although dFdC is not a chain terminator, the incorporated dFdCMP decreased the incorporation efficiency of the next 2 correct nucleotides by 214- and 7-fold, respectively. Moreover, the primer 3'-dFdCMP was excised with a 50-fold slower rate than the matched 3'-dCMP. When dFdC was encountered as a template base, DNA polymerase gamma paused at the lesion and one downstream position but eventually elongated the primer to full-length product. These pauses were because of a 1,000-fold decrease in nucleotide incorporation efficiency. Interestingly, the polymerase fidelity at these pause sites decreased by 2 orders of magnitude. Thus, our pre-steady state kinetic studies provide direct evidence demonstrating the inhibitory effect of gemcitabine on the activity of human mitochondrial DNA polymerase.
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PMID:Kinetic investigation of the inhibitory effect of gemcitabine on DNA polymerization catalyzed by human mitochondrial DNA polymerase. 1837 80

Patients harboring A467T and W748S POLG1 mutations present with a broad variety of neurological phenotypes, including cerebellar ataxia, progressive external ophthalmoplegia (PEO), myoclonus, epilepsy, and peripheral neuropathy. With exception of ataxia and myoclonus, movement disorders are not typical features of POLG1 associated disorders. We report on two affected siblings compound heterozygous for A467T and W748S mutations, one suffering from choreoathetosis and apraxia of lid opening due to focal eyelid dystonia that mimicked progression of ptosis, resulting in functional blindness. So far, focal dystonia has not been reported in POLG1 mutation carriers, and should be considered when investigating patients with PEO and ptosis. Further studies on POLG1 mutations in focal dystonia are warranted.
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PMID:Apraxia of lid opening mimicking ptosis in compound heterozygosity for A467T and W748S POLG1 mutations. 1854 43

The aim of the study was to determine the prevalence of MNGIE-like phenotype in patients with recessive POLG1 mutations. Mutations in the POLG1 gene, which encodes for the catalytic subunit of the mitochondrial DNA polymerase gamma essential for mitochondrial DNA replication, cause a wide spectrum of mitochondrial disorders. Common phenotypes associated with POLG1 mutations include Alpers syndrome, ataxia-neuropathy syndrome, and progressive external ophthalmoplegia (PEO). Mitochondrial neurogastrointestinal encephalomyopathy (MNGIE) is an autosomal recessive disorder characterized by severe gastrointestinal dysmotility, cachexia, PEO and/or ptosis, peripheral neuropathy, and leukoencephalopathy. MNGIE is caused by TYMP mutations. Rare cases of MNGIE-like phenotype have been linked to RRM2B mutations. Recently, POLG1 mutations were identified in a family with clinical features of MNGIE but no leukoencephalopathy. The coding regions and exon-intron boundaries of POLG1 were sequence analyzed in patients suspected of POLG1 related disorders. Clinical features of 92 unrelated patients with two pathogenic POLG1 alleles were carefully reviewed. Three patients, accounting for 3.3% of all patients with two pathogenic POLG1 mutations, were found to have clinical features consistent with MNGIE but no leukoencephalopathy. Patient 1 carries p.W748S and p.R953C; patient 2 is homozygous for p.W748S, and patient 3 is homozygous for p.A467T. In addition, patient 2 has a similarly affected sibling with the same POLG1 genotype. POLG1 mutations may cause MNGIE-like syndrome, but the lack of leukoencephalopathy and the normal plasma thymidine favor POLG1 mutations as responsible molecular defect.
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PMID:Mitochondrial neurogastrointestinal encephalomyopathy (MNGIE)-like phenotype: an expanded clinical spectrum of POLG1 mutations. 2199 18

This 54year old woman presented with symptoms of sensory ataxic neuropathy, with cerebellar features. She developed further weakness, visual disturbances with diplopia, dysarthria and dysphasia. After her death at 66years, she was found to have compound heterozygous mutations of POLG1 gene in muscle, and Southern blot showed low levels of multiple deletions of mitochondrial DNA. Neuropathological examination showed profound dorsal column and dorsal spinocerebellar tract degeneration, degeneration of dorsal root ganglia and Clarke's nucleus in spinal cord and severe predominantly sensory peripheral neuropathy. The brain showed severe neuronal loss and gliosis in substantia nigra, medial posterior thalamus and head of caudate. Excess numbers of COX-negative fibres and "ragged-red" fibres were found in five skeletal muscles sampled.
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PMID:A case of myelopathy, myopathy, peripheral neuropathy and subcortical grey matter degeneration associated with recessive compound heterozygous POLG1 mutations. 2235 63

Mitochondrial diseases in children are often associated with a peripheral neuropathy but the presence of the neuropathy is under-recognized because of the overwhelming involvement of the central nervous system (CNS). These mitochondrial neuropathies are heterogeneous in their clinical, neurophysiological, and histopathological characteristics. In this article, we provide a comprehensive review of childhood mitochondrial neuropathy. Early recognition of neuropathy may help with the identification of the mitochondrial syndrome. While it is not definite that the characteristics of the neuropathy would help in directing genetic testing without the requirement for invasive skin, muscle or liver biopsies, there appears to be some evidence for this hypothesis in Leigh syndrome, in which nuclear SURF1 mutations cause a demyelinating neuropathy and mitochondrial DNA MTATP6 mutations cause an axonal neuropathy. POLG1 mutations, especially when associated with late-onset phenotypes, appear to cause a predominantly sensory neuropathy with prominent ataxia. The identification of the peripheral neuropathy also helps to target genetic testing in the mitochondrial optic neuropathies. Although often subclinical, the peripheral neuropathy may occasionally be symptomatic and cause significant disability. Where it is symptomatic, recognition of the neuropathy will help the early institution of rehabilitative therapy. We therefore suggest that nerve conduction studies should be a part of the early evaluation of children with suspected mitochondrial disease.
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PMID:Peripheral neuropathy associated with mitochondrial disease in children. 2243 34

A woman in her early 60s presented to our Movement Disorders Centre with a 5-year history of progressive peripheral neuropathy, gait instability with falls, blurred vision, cognitive impairment and tremors. The patient was found to have profound sensory ataxia, chronic ophthalmoplegia, dementia with significant deficits in registration and construction and bilateral resting tremor of the hands. Investigations revealed an unremarkable MRI of the brain, negative cerebrospinal fluid studies, and unremarkable chemistries. Nerve conduction studies found a severe sensorimotor axonal polyneuropathy. Genetic testing revealed a compound heterozygous mutation in the POLG1 gene consistent with the diagnosis of Sensory Ataxia Neuropathy Dysarthria and Ophthalmoplegia (SANDO) syndrome.
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PMID:Diagnostic challenges in movement disorders: Sensory Ataxia Neuropathy Dysarthria and Ophthalmoplegia (SANDO) syndrome. 2399 76

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