UMLS:C0011053 - FACTA Search

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Query: UMLS:C0011053 (deafness)
10,271 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Wolfram (diabetes insipidus, diabetes mellitus, optic atrophy, and deafness) syndrome is a rare autosomal-recessive neurodegenerative disorder that is characterized by juvenile-onset diabetes mellitus, optic atrophy, diabetes insipidus, and sensorineural hearing impairment. A gene responsible for Wolfram syndrome (WFS1) has been identified on the short arm of chromosome 4 and subsequently mutations in WFS1 have been described. We have screened 12 patients with Wolfram syndrome from nine Dutch families for mutations in the WFS1-coding region by single-strand conformation polymorphism analysis and direct sequencing. Furthermore, we analyzed the mitochondrial genome for gross abnormalities and the A3243G point mutation in the leucyl-tRNA gene, because Wolfram syndrome shows phenotypic similarities with mitochondrial disease. Seven mutations in WFS1 were identified in six of nine families: two missense mutations, one frameshift mutation, one splice donor site mutation, and three deletions. In addition, a splice variant near the 5'UTR of WFS1 was identified, present in patient as well as control RNA samples in various percentages, alternating the translation initiation consensus sequence. Whether this WFS1 splice variant displays impaired translation efficiency remains to be determined. No MtDNA lesions were identified in any of the Wolfram patients. Our results demonstrate the usefulness of molecular analysis of WFS1 in the refinement of clinical diagnostic criteria for Wolfram syndrome that helps to dissect the clinically overlapping syndromes sharing diabetes mellitus and optic atrophy.
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PMID:Molecular characterization of WFS1 in patients with Wolfram syndrome. 1270 73

The A3243G mutation of the mitochondrial tRNA(Leu) gene has been recently reported in rare patients with focal and segmental glomerulosclerosis (FSGS). However, the full spectrum of systemic and kidney manifestations in adults presenting with this mutation remains poorly defined. Assessment of renal and nonrenal manifestations was performed in nine patients with A3243G mutation and prominent kidney disease diagnosed in adulthood. At first renal evaluation, median age was 35 years. Renal lesions consisted of FSGS (n = 2), tubulointerstitial nephropathy (n = 3), or bilateral enlarged cystic kidneys (n = 1). All but one patient exhibited extrarenal manifestations: deafness (8 of 9) requiring hearing aid in half the cases, diabetes mellitus (3 of 9), neuromuscular involvement (2 of 9), hypertrophic cardiomyopathy (1 of 9), and macular dystrophy (1 of 9). After a median follow-up of 5 yr, five patients progressed to end-stage renal disease between the ages of 15 and 51 years, four being successfully transplanted. Similarly, extrarenal manifestations progressed since all patients had deafness and diabetes (including three posttransplants), while half had neuromuscular, cardiac, or retinal involvement. In the adult patients with A3243G mutation and renal involvement, preexisting deafness is almost consistently found. While FSGS remains the most typical lesion, tubulointerstitial nephropathy or bilateral, enlarged cystic kidneys may also be encountered. In most cases, diabetes mellitus, macular dystrophy, hypertrophic cardiomyopathy, or neuromuscular features occur later in the course of the disease. The severity of the clinical course is heterogeneous, with end-stage renal failure being reached between the second and sixth decades. Renal transplantation may be offered to these patients, despite a high incidence of steroid-induced diabetes mellitus.
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PMID:The spectrum of systemic involvement in adults presenting with renal lesion and mitochondrial tRNA(Leu) gene mutation. 1287 64

Mitochondrial tRNA gene mutations, including heteroplasmic deletions that eliminate one or more tRNAs, as well as point mutations that may be either hetero- or homoplasmic, are associated with a wide spectrum of human diseases. These range from rare syndromic disorders to cases of commoner conditions such as sensorineural deafness or cardiomyopathy. The disease spectrum of mutations in a given gene, or even a single mutation, may vary, but some patterns are evident, for example the prominence of cardiomyopathy resulting from tRNAIle defects, or of MERFF-like disease from tRNALys defects. Molecular studies of many laboratories have reached a consensus on molecular mechanisms associated with these mutations. Although precise details vary, loss of translational function of the affected tRNA(s) seems to be the final outcome, whether by impaired pre-tRNA processing, half-life, base-modification or aminoacylation. However, a mechanistic understanding of the consequences of this for the assembly and function of the mitochondrial OXPHOS complexes and for the physiological functions of the affected tissues is still a distant prospect. This review presents some views of possible downstream consequences of specific tRNA deficiencies.
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PMID:Disorders of mitochondrial protein synthesis. 1292 85

We report here the biochemical characterization of the deafness-associated mitochondrial tRNA(Ser(UCN)) T7511C mutation, in conjunction with homoplasmic ND1 T3308C and tRNA(Ala) T5655C mutations using cybrids constructed by transferring mitochondria from lymphoblastoid cell lines derived from an African family into human mtDNA-less (rho degrees ) cells. Three cybrids derived from an affected matrilineal relative carrying the homoplasmic T7511C mutation, exhibited approximately 75% decrease in the tRNA(Ser(UCN)) level, compared with three control cybrids. This amount of reduction in the tRNA(Ser(UCN)) level is below a proposed threshold to support a normal rate of mitochondrial protein synthesis in lymphoblastoid cell lines. This defect is likely a primary contributor to approximately 52% reduction in the rate of mitochondrial protein synthesis and marked defects in respiration and growth properties in galactose-containing medium. Interestingly, the T5655C mutation produces approximately 50% reduction in the tRNA(Ala) level in mutant cells. Strikingly, the T3308C mutation causes a significant decrease both in the amount of ND1 mRNA and co-transcribed tRNA(Leu(UUR)) in mutant cells. Thus, mitochondrial dysfunctions caused by the T5655C and T3308C mutations may modulate the phenotypic manifestation of the T7511C mutation. These observations imply that a combination of the T7511C mutation with two mtDNA mutations accounts for the high penetrance of deafness in this family.
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PMID:Biochemical characterization of the mitochondrial tRNASer(UCN) T7511C mutation associated with nonsyndromic deafness. 1496 Jul 12

We report a novel, heteroplasmic point mutation in the mitochondrial tRNA for tryptophan at position 5532. The mutation was present in all the tissues studied and segregated with the biochemical defect, with higher levels of mutation present in cytochrome c oxidase-deficient muscle fibres. The patient manifested a neurogastrointestinal syndrome with features including failure to thrive, psychomotor retardation, ophthalmoplegia, sensorineural deafness and encephalopathy together with vomiting, diarrhoea and colitis.
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PMID:A novel point mutation in the mitochondrial tRNA(Trp) gene produces a neurogastrointestinal syndrome. 1505 99

We report here the identification and characterization of the mouse mitochondrial seryl-tRNA synthetase (mtSerRS). The genomic organization of mouse mtSerRS has been elucidated. The mouse mtSerRS gene containing 16 exons encodes a 519 residue protein with a strong homology to the mitochondria-like seryl-tRNA synthetase of bacteria, yeast, and other homologs. The mouse mtSerRS is ubiquitously expressed in various tissues, but more abundantly in tissues with high metabolic rates including heart and liver. Surprisingly, this gene, unlike other nuclear genes encoding mitochondrial proteins, exhibited a low expression in skeletal muscle and brain. Furthermore, immunofluorescence analysis of NIH3T3 cells expressing the mtSerRS-GFP fusion protein demonstrated that the mouse mtSerRS localizes in mitochondrion. These observations suggest that the mouse mtSerRS is an evolutionarily conserved protein involved in aminoacylation. Thus, it may play a role in the fidelity in mitochondrial translation and pathogenesis of deafness-associated mutations in the mitochondrial tRNA(Ser(UCN)).
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PMID:Genomic organization, expression, and subcellular localization of mouse mitochondrial seryl-tRNA synthetase. 1508 7

Mutations in the mitochondrial DNA (mtDNA) have been shown to be one important cause of deafness. In particular, mutations in the mtDNA have been associated with both syndromic and nonsyndromic forms of sensori-neural hearing loss. The deafness-linked mutations often occur in the mitochondrial 12S rRNA gene and in tRNA genes. Mutations in the 12S rRNA gene account for most of the cases of aminoglycoside ototoxicity. The other hot spot for mutations associated with hearing impairment is the tRNA(Ser(UCN)) gene, as five deafness-linked mutations have been identified in this gene. Nonsyndromic deafness-linked mtDNA mutations are often homoplasmic or at high levels of heteroplasmy, indicating a high threshold for pathogenicity. Phenotypic expression of these mtDNA mutations requires the contribution of other factors such as nuclear modifier gene(s), environmental factor(s), or mitochondrial haplotype(s).
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PMID:Molecular pathogenetic mechanism of maternally inherited deafness. 1512 2

We describe a young woman with a progressive mitochondrial myopathy that started with muscle weakness and went on to include deafness, dementia and ataxia. Skeletal muscle showed the histological and biochemical features of mitochondrial respiratory chain dysfunction. Genetic analysis identified a novel, heteroplasmic, A to G transition in tRNA(Ser(UCN)) at position 7480 affecting a highly conserved base in the anticodon loop. Single-fibre PCR showed highest levels of mutation in cytochrome c-oxidase-deficient fibres and quantification in two biopsies taken 5 years apart showed no change in percentage heteroplasmy. The mutation was present at lower levels in the patient's blood, but was not found in either her mother's or sister's blood and skeletal muscle, suggesting a sporadic occurrence. This is the eighth disease-causing mutation in this tRNA gene and confirms serine (UCN) as one of the most common sites for mtDNA mutation.
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PMID:Sporadic mitochondrial myopathy due to a new mutation in the mitochondrial tRNASer(UCN) gene. 1521 Jan 64

The deafness-associated 7472insC mtDNA mutation was previously shown to decrease the steady-state level of tRNA(Ser(UCN)) post-transcriptionally. To identify the affected tRNA maturation step(s) we analysed the effects of the mutation on processing in vivo and in vitro. tRNA(Ser(UCN)) from cybrid cells homoplasmic for 7472insC contained a high frequency (>11%) of molecules misprocessed at one or both termini. In vitro assays using partially purified HeLa cell RNase P and mitochondrial tRNA 3' processing endonuclease (tRNase Z) confirmed that the efficiency of both 5' and 3' processing was impaired. A mutant precursor not already processed at the 5' end was poorly processed in vitro by tRNase Z. Misprocessing at the 3' end further impaired the efficiency and accuracy of 5' processing of the mutant substrate. The mutation thus appears to affect several distinct, but interdependent, RNA processing steps, with the predicted outcome dependent on the exact processing pathway operating in vivo.
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PMID:The 7472insC mtDNA mutation impairs 5' and 3' processing of tRNA(Ser(UCN)). 1533 35

Phenotypic expression of the deafness-associated mitochondrial A1555G mutation in the 12S rRNA gene is influenced by aminoglycosides and complex inheritance of nuclear-encoded modifier genes. The position of a major nuclear modifier gene has been localized to chromosome 8p23.1, but the identification of this gene has remained elusive. Recently, we identified a second modifier gene, mitochondrial transcription factor B1 (TFB1M), involved in mitochondrial rRNA modification. In the present study, we tested three genes involved in mitochondrial tRNA or rRNA modification, and two genes associated with non-syndromic deafness, for linkage and linkage disequilibrium (LD) in 214 DNA samples from Spanish, Italian, and Arab-Israeli families with maternally inherited non-syndromic hearing loss. The multipoint non-parametric linkage analysis and transmission disequilibrium test testing were done using all families combined as well as divided based on linkage to the chromosome 8 locus and ethnicity. Two genes, MTO1 and GTPBP3, showed strongly suggestive linkage and significant LD results. Since both genes, as well as TFB1M, are involved in the process of mitochondrial RNA modification, it appears that the modification of mitochondrial RNA is an important regulatory pathway in the phenotypic expression of the deafness-associated mitochondrial A1555G mutation. This conclusion was supported by comparing linkage results of simulated genotypes with actual results for the four genes involved in mitochondrial RNA modification.
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PMID:Phenotype of non-syndromic deafness associated with the mitochondrial A1555G mutation is modulated by mitochondrial RNA modifying enzymes MTO1 and GTPBP3. 1554 90

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