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:C0162671 (MELAS)
587 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 4-year-old boy presented with developmental delay, aggressive behavior, and incoordination. His EEG showed a diffuse encephalopathy. At age 10 he developed convulsions and severe migraine-like headaches. Muscle wasting, arreflexia, and lactic acidemia following exercise were noted. Electromyography was myopathic and nerve conduction studies revealed a peripheral neuropathy. Muscle biopsy demonstrated variation in fiber size and an excess of lipid droplets. He than had several stroke-like episodes and periods of unconsciousness, associated with severe metabolic acidosis. Muscle cytochrome C oxidase was abnormally low. This boy displayed the classical clinical and biochemical features of MELAS syndrome, namely Mitochondrial myopathy, Encephalopathy, Lactic Acidosis, and Stroke-like episodes. Treatment included carnitine, vitamin C, vitamin K, riboflavin, coenzyme Q10, and corticosteroids. He died at the age of 14 years following an episode of seizures, coma, and gastrointestinal hemorrhage. This is the first reported case of MELAS syndrome in Israel.
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PMID:MELAS syndrome: peripheral neuropathy and cytochrome C-oxidase deficiency: a case report and review of the literature. 772 60

We examined the clinical and biochemical features of 27 cases with acute myoglobinuria who had been suspected of having metabolic myopathies. The systematic biochemical studies included the measurements of 13 glycolytic enzymes, mitochondrial respiratory chain enzymes, carnitine palmitoyltransferase (CPT) and 5 enzymes of fatty acid beta-oxidation. Enzyme defects were found in 9 patients using muscle biopsy specimens: phosphorylase deficiency in 3, CPT deficiency in 4 and phosphoglycerate kinase deficiency in 2. One patient was diagnosed as MELAS (mitochondrial myopathy, encephalopathy, lactic acidosis and stroke-like episodes) with the histopathological examination and clinical data. A suspicion of beta-oxidation disorder was entertained in some patients of which the activities were about 50% of control means. However, no evidence to substantiate its significance as the enzyme defects was obtained from our data. Sixteen of 17 undiagnosed cases could be divided into two groups according to precipitating factors as follows: one had exercise as the factors and the other had infection. These groups also showed some differences in clinical features. In the infection group, myoglobinuria tended to progress more rapidly and was occasionally followed by acute renal failure. And some cases had additional associated conditions such as mental retardation or epilepsy. On the other hand, the exercise group had only myopathic symptoms. The difference in these clinical features between the two groups suggested that they had the different pathogenic mechanisms respectively.
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PMID:[Clinical and biochemical analysis of 27 patients with myoglobinuria of unknown causes]. 778 Dec 10

In the last 4 years much progress has been made in the understanding of mitochondrial disorders. Point-mutations, deletions and depletion of the mitochondrial genome are associated with disorders like Leber's disease, MERRF (Myoclonus Epilepsia with Ragged Red Fibers), MELAS (mitochondrial Myopathy, Encephalopathy, Lactic acidosis and Stroke-like episodes) and several others. Recently, mitochondrial dysfunctions have been also related to neurodegenerative disorders like Parkinson's disease and to aging. Since the brain depends mostly on mitochondrial energy supply, mitochondrial dysfunctions may affect the nervous system more severely than other tissues causing or worsening diseases and playing a role in the biological deterioration of aging. Furthermore, the mitochondrial energy supply is associated with the production of highly reactive oxygen species. Ninety-five percent of the molecular oxygen is metabolized within the mitochondria by the electron-transport chain so that mitochondria are highly exposed to oxidative stress which may damage selected neuronal populations. Oxygen radicals created during respiration induce mitochondrial dysfunction which accelerates the production of more deleterious species of oxygen. The latter step further increases mitochondrial malfunction, thus intensifying and perpetuating the cycle. These two mechanisms combined may lead to cell death in brain and other tissues with high metabolic rate. Therefore, in neurodegenerative disorders such as Parkinson's disease mitochondrial dysfunction and oxidative stress may cause or worsen the clinical features.
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PMID:Oxidative stress and mitochondrial dysfunction in neurodegeneration. 784 18

The clinical manifestations and mitochondrial DNA (mtDNA) mutations in a Taiwanese family with a female proband exhibiting mitochondrial myopathy, encephalopathy, lactic acidosis and stroke-like episodes syndrome are reported. Clinically, the proband had a stroke-like episode with right hemiparesis, hemianopsia and mental dysfunction as well as short stature, hearing impairments, and elevated lactate levels. Brain magnetic resonance images showed multiple increased signal intensities over the left frontal, parietal and temporal areas. There were no ragged-red fibers, but paracrystalline inclusion bodies were shown in the muscle biopsies under electron microscopic examination. A deficiency of NADH-CoQ reductase was also found in biochemical studies of the muscles. The family survey revealed no abnormal findings except for headache and episodic vomiting in her mother. The molecular analysis of mtDNA disclosed a mutation from A to G at the nucleotide pair 3243 of the mitochondrial transfer RNA(Leu) gene in the blood, hair follicles and/or muscle of the maternal relatives. A characteristic finding of the MELAS family is variation of percentage of mutated mtDNA in various tissues and individuals. However, a higher proportion of mutated mtDNA was noted in the proband than that in the asymptomatic or oligosymptomatic family members. From the data, the variable clinical phenotypes in this MELAS family can be explained at least partly, by the different proportions of mutant mtDNA in the target tissues of the proband and maternal relatives.
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PMID:MELAS syndrome: correlation between clinical features and molecular genetic analysis. 788 36

In two sibs antenatal ultrasonography revealed identical intracranial calcification, ventricular widening and microcephaly. The first pregnancy was artificially terminated at 19 weeks. Post-mortem examination of the brain revealed destructive calcification and extracerebral neuronal heterotopia. The second sib went to term but died 48 h after birth from irreversible lactic acidosis. Autopsy showed extensive encephalopathy with cavitation and calcification in the cerebral hemispheres, polymicrogyria, multiple neuronal heterotopia, partial callosal dysgenesis, and severe Leigh syndrome, together forming a continuum of early and late brain disruption. Mitochondrial respiratory chain abnormalities, mainly affecting complexes I and IV, and deficiency of pyruvate dehydrogenase complex were detected in skeletal muscle and in liver. A normal functioning of the respiratory chain was found in the fibroblasts. Analysis of mtDNA from muscle, liver and blood revealed normal amounts of intact mtDNA without any of the known point mutations associated with MELAS, MERRF or Leigh syndromes. The early fetal disruption and necrotic changes in the brains of sibs indicate a specific genetically determined disorder which affects neuronal migration, a finding not previously associated with respiratory chain disorders. The present disorder may mimic antenatal congenital infectious encephalopathy because of the combined finding of microcephaly and destructive intracerebral calcification.
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PMID:Familial mitochondrial encephalopathy with fetal ultrasonographic ventriculomegaly and intracerebral calcifications. 795 69

The second most common mutation associated with MELAS (mitochondrial myopathy, encephalopathy, lactic acidosis, and stroke-like episodes) in Japan is the 3271 mutation. This mutation was found in a Brazilian family of Portuguese and Italian descent, indicating that this mutation also exists in a race other than Japanese. The propositus had mild clinical manifestations atypical of MELAS, suggesting that patients with the 3271 mutation exhibit heterogeneous phenotypic expression as seen in the 3243 mutation.
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PMID:A Caucasian family with the 3271 mutation in mitochondrial DNA. 799 61

MELAS is a mitochondrial cytopathy characterized by encephalopathy with stroke-like episodes and lactic acidosis. Most patients exhibit an A-G transition mutation at np 3243 of mitochondrial DNA (tRNA(Leu)(UUR)). We present a family of four in which the mutation was discovered in blood and in muscle mt DNA. Two patients had the classic MELAS syndrome with multiple stroke-like episodes. Some episodes were precipitated by metabolic stress. The remaining two patients had an oligosymptomatic disease with mild chronic encephalopathy, small stature and hearing loss. MRI was followed over a period of 4-8 years, during which the MELAS patients showed progression from nonspecific multifocal signal change to typical extensive cortico-subcortical parieto-occipital lesions and progressive cerebral atrophy. MRI in the oligosymptomatic cases was normal, or showed non-progressive cerebellar atrophy. Biochemical findings were non-specific, indicating increased mitochondrial volume in all cases, and a relatively complex IV defect in one case. All patients were treated with coenzyme Q with varying clinical response. The percentage of mutant mt DNA in blood and muscle did not correlate with clinical severity. Pathogenetic theories based on molecular genetics, and the therapeutic regimen in terms of the underlying biochemical concepts are discussed.
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PMID:[MELAS syndrome. Clinical aspects, MRI, biochemistry and molecular genetics]. 801 33

Point mutations in the mitochondrial gene tRNA leucine(UUR) have been associated with maternally inherited mitochondrial myopathies including the MELAS syndrome (Mitochondrial Myopathy Encephalopathy Lactic acidosis and Stroke-like episodes). We describe a further mutation in tRNA leucine(UUR) in a patient with mitochondrial encephalomyopathy, pigmentary retinopathy, dementia, hypoparathyroidism and diabetes mellitus. The mutation was heteroplasmic in the proband's blood (30%) and muscle (76%); it was present at high levels in the proband's affected mother (50% in muscle), and at low levels (< 10%) in blood, muscle and fibroblasts of an unaffected sister. The mutation was not found in 121 normal controls or 35 other patients with mitochondrial disorders. The mutation is at a highly conserved position in the tRNA molecule, close to the 3,243 mutation which is associated with more than 80% of MELAS cases. Further more, both mutations lie within a possible transcriptional control region. This finding adds further support to the evidence that mutations in this region and in other mitochondrial tRNA genes may cause disease.
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PMID:A new point mutation associated with mitochondrial encephalomyopathy. 811 77

Two dizygotic twins with myopathy and leukoencephalopathy are described. The female twin had an incomplete form of MELAS syndrome (myopathy, encephalopathy, lactic acidosis, and strokelike episodes) with severe myopathy, epileptic seizures without strokelike episodes. The male twin presented clinical features exclusively of myopathy and subclinical leukoencephalopathy. The MELAS mitochondrial DNA point mutation (MELAS-3243) was found by southern blot and polymerase chain reaction in muscle, skin fibroblasts, and blood of the female twin and was not detected in the skin fibroblasts nor in the blood of the mother, nor in any of the tissues tested in the male twin. The absence of mutation in male twin tissues raises questions about the pathogenetic significance of the mutation in this family.
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PMID:Myo-leukoencephalopathy in twins: study of 3243-myopathy, encephalopathy, lactic acidosis, and strokelike episodes mitochondrial DNA mutation. 812 91

Our ability to identify cerebrovascular lesions in children has improved in recent years and with it our willingness to consider the diagnosis of cerebrovascular disease in children. Magnetic resonance angiography and other tests have made diagnosis easier and safer, particularly in very young children and in patients with sickle cell disease. Transcranial Doppler examination makes it possible to accurately predict without angiography which patients with sickle cell disease are at most risk for stroke. Many patients with mitochondrial myopathy, encephalopathy, lactic acidosis, and strokelike episodes (MELAS) syndrome have a specific mutation of the mitochondrial DNA, and soon the recently devised diagnostic criteria for MELAS syndrome may be replaced by molecular markers. There are many causes of cerebrovascular disease in children, and a thorough evaluation will discover a likely cause in about two thirds of the patients. Recent attention has focused on the HLA-B51 antigen and chicken pox as possible risk factors. Magnetic resonance imaging is also helpful in assessing the prognosis of children with cerebrovascular disease or head trauma.
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PMID:Cerebrovascular disorders and trauma in children. 812 17


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