UMLS:C0033377 - FACTA Search

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Single deletions of mitochondrial DNA (mtDNA) are associated with three major clinical conditions: Kearns-Sayre syndrome, a multisystem disorder; Pearson syndrome (PS), a disorder of the hematopoietic system; and progressive external ophthalmoplegia (PEO), primarily affecting the ocular muscles. Typically, single mtDNA deletions are sporadic events, since the mothers, siblings, and offspring of affected individuals are unaffected. We studied a woman who presented with PEO, ptosis, and weakness of pharyngeal, facial, neck, and limb muscles. She had two unaffected children, but another of her children, an infant son, had sideroblastic anemia, was diagnosed with PS, and died at age 1 year. Morphological analysis of a muscle biopsy sample from the mother showed cytochrome c oxidase-negative ragged-red fibers-a typical pattern in patients with mtDNA deletions. Southern blot analysis using multiple restriction endonucleases and probed with multiple mtDNA fragments showed that both the mother and her infant son harbored an identical 5,355-bp single deletion in mtDNA, without flanking direct repeats. The deletion was the only abnormal species of mtDNA identified in both patients, and there was no evidence for duplications. We conclude that, although the vast majority of single large-scale deletions in mtDNA are sporadic, in rare cases, single deletions can be transmitted through the germline.
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PMID:Identical mitochondrial DNA deletion in a woman with ocular myopathy and in her son with pearson syndrome. 1215 48

Chronic progressive external ophthalmoplegia (CPEO) is a descriptive term for a heterogenous group of disorders characterized by chronic, progressive, bilateral, and usually symmetric ocular motility deficit and ptosis. Significant pain, proptosis, or pupil involvement are not features of CPEO and should prompt evaluation for alternative etiologies. Mitochondrial DNA mutations are increasingly being recognized as the etiology for CPEO syndromes. Clinicians should recognize the specific syndromes associated with CPEO, characterized by variable systemic, neurologic, or other findings. Treatment is limited, but newer therapies are being investigated.
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PMID:Chronic progressive external ophthalmoplegia. 1216 21

The authors report on a 34-year-old woman who had developed severe weakness and reduction in grip strength in both upper and lower limbs. Laboratory blood tests revealed increased levels of muscle enzyme. The presence of progressive bilateral ptosis and external ophthalmoplegia raised the suspicion of a mitochondrial disease, subsequently confirmed by deltoid biopsy and genetic analysis of mitochondrial DNA that showed a deletion indicative of Kearns-Sayre syndrome. In this report we emphasise the need for a differential diagnosis between myositis and other myopathies, particularly the mitochondrial ones.
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PMID:Mitochondrial disease mimicking polymyositis: a case report. 1222 94

Nine patients over 5 generations developed progressive bilateral blepharoptosis from 40 to 50 years of age, suggesting that they had an autosomal dominantly inherited blepharoptosis. Except for the ptosis, they had no apparent neurological symptoms: normal ocular movement, no bulbar sign and no muscle weakness in the extremities. On laboratory examination, serum creatine kinase and blood lactate levels were within normal limits, and acetylcholine receptor antibody was not elevated. Electrophysiological studies including EMG and nerve conduction velocities were normal. Muscle biopsies from gastrocnemius and palpebral muscles were nondiagnostic with no ragged-red fibers nor rimmed vacuoles. Nuclear inclusions were not recognized by electron microscopy. Since none of patients examined had mitochondrial DNA deletions and GCG repeat expansion in the poly A binding protein P2 (PABP2) gene, this familial disorder is a unique blepharoptosis with no relationship to progressive external ophthalmoplegia or oculopharyngeal muscular dystrophy with PABP2 mutation.
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PMID:[Familial chronic progressive blepharoptosis without other neurological symptoms: a new clinical entity?]. 1235 44

We describe a 17-year-old male with neurologic and cardiovascular disorders characterized by complete atrioventricular block and a mitochondrial cytopathy with clinical, structural, biochemical, and molecular features shared by chronic progressive external ophthalmoplegia and Kearns-Sayre syndrome. The patient's manifestations included progressive external ophthalmoplegia, bilateral ptosis, muscle weakness, delayed development, and progressive hearing loss with multiple mitochondrial DNA deletions, including an abundant 11-kb novel deletion and reduced specific activities of respiratory complexes I, III, and IV present in skeletal muscle. Ultrastructural analysis of biopsied muscle revealed a heterogenous mixture of normal and abnormal mitochondria with unusual cristae. This unique mitochondrial DNA deletion, which eliminates the origin of mitochondrial DNA replication for the light strand, may be responsible for generating an intermediate clinical phenotype.
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PMID:Severe mitochondrial cytopathy with complete A-V block, PEO, and mtDNA deletions. 1239 31

A 21-year-old woman described proximal muscle weakness since early childhood. At age 16, she developed bilateral ptosis, progressive external ophthalmoplegia, and exercise intolerance. She harbored a heteroplasmic G12315A mutation in the mitochondrial DNA tRNA(Leu(CUN)) gene, which disrupts a highly conserved G-C base pair in the TPsiC stem of the molecule. Mutant mitochondrial DNA was 62% of total in muscle and 17% in blood. The mutation was undetectable in blood, urinary sediment, and hair follicles from the patient's mother. This second patient with G12315A and progressive external ophthalmoplegia confirms the pathogenicity of the mutation and helps to define the correlation between genotype and phenotype.
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PMID:Mitochondrial myopathy and ophthalmoplegia in a sporadic patient with the G12315A mutation in mitochondrial DNA. 1239 39

We report the cases of two male preterm newborns with X-linked centronuclear myopathy (CNM). This is the most severe type of CNM. Each of them presented with generalized hypotonia, weakness, difficulty in swallowing, and respiratory distress at birth. Physical examination of both newborns revealed long thin face, high-arched palate, mild bilateral ptosis, frog-leg posture, and absence of deep tendon reflex. Diagnosis of the disease was made according to fetal history, family history, muscle histopathology, electron microscopy, and genetic analysis. Subdural hemorrhage of brain and subcapsular hematoma of the liver were found at autopsy of Case 1. The results of molecular analysis of Case 2 and his family favored the diagnosis of X-linked CNM. Molecular studies can be easily performed with only minute amount of DNA of patients, and may help the clinician to predict which patients may be at the risk for medical complications.
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PMID:X-linked centronuclear myopathy. 1287 27

We identified a Japanese family with congenital fibrosis of the extraocular muscles, including 24 affected individuals through five generations. To determine their form of congenital fibrosis of the extraocular muscles, we performed clinical and linkage studies. DNA typing for linkage to the FEOM1 (12p11.2-q12) and FEOM3 (16qter) loci was performed on genomic DNA, using fluorescent microsatellite polymorphic markers. All affected individuals shared the common manifestations of congenital fibrosis of the extraocular muscles type 1 including congenital ptosis, infraducted globe position in primary gaze, and upward gaze palsy in both eyes. Unexpectedly, we found apparent spinal canal stenosis in the cervical spine in all affected family members who were examined. Genetic analysis revealed linkage to the FEOM1 locus with a maximum lod score of 4.42 at theta of zero. One affected family member harbored a recombination event between D12S345 and D12S1692, narrowing the FEOM1 locus from the published 3-cM region flanked by D12S1584 and D12S1668 to a 2.1-cM region flanked by D12S345 and D12S1668. Thus, we have established that this family segregates congenital fibrosis of the extraocular muscles type 1 as an autosomal dominant trait and that their disorder both maps to and refines the FEOM1 locus. This is the first clinical and genetic report of such a family in the Japanese population and the first report of spinal involvement in congenital fibrosis of the extraocular muscles.
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PMID:A Japanese family with FEOM1-linked congenital fibrosis of the extraocular muscles type 1 associated with spinal canal stenosis and refinement of the FEOM1 critical region. 1289 74

Bleparophimosis ptosis epicanthus inversus syndrome (BPES) is a rare disorder characterized by eyelid malformation and in some cases associated with premature ovarian failure. Although the familial form is autosomal dominant, many cases are also sporadic. The mutations causing this disorder were found in a winged/forkhead transcription factor gene named FOXL2. We have sequenced the mouse homolog for the FOXL2 gene and identified the Fugu rubripes (pufferfish) ortholog from the database. By alignment of the three sequences, we found an almost complete conservation of the forkhead domain in the three species. There is 95% and 61% conservation at the protein level between human-mouse and human-pufferfish, respectively. The polyalanine and polyproline tracts within the gene are absent in Fugu rubripes. An overview identifies four breaks in the conservation of the gene within these species. Using a direct sequencing approach, we performed mutation analysis from DNA of nine affected individuals from familial and sporadic cases. The mutations are distributed throughout the coding region of the FOXL2 gene. We identified five novel mutations: g.292delG (E19fsX149); g.530G>A (W98X); g.548A>G (H104R); g.652G>T (E139X); and g.1178_1185del8 (A314fsX530). In addition we also identified two known mutations g.823C>T (Q196X) and g.1092_1108dup17, the latter in individuals from three unrelated pedigrees.
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PMID:Comparative analysis of the FOXL2 gene and characterization of mutations in BPES patients. 1293 87

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

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