UMLS:C0025362 - FACTA Search

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Query: UMLS:C0025362 (mental retardation)
15,878 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Duchenne/Becker muscular dystrophy (DMD/BMD) are the most common inherited muscular diseases caused by mutations in the dystrophin gene. The identification of novel dystrophins in the brain has recently implicated its absence or malfunction etiologically in mental retardation (MR). We therefore examined the relationship between molecular abnormalities and clinical phenotypes. Deletions of the dystrophin gene were analyzed in a total of 137 DMD/BMD patients (DMD 94, BMD 43) to determine central nervous system (CNS) symptoms. The mental capacity was assessed and patients with IQs below 70 were defined as mentally retarded. Thirty-nine percent of DMD boys and 12% of BMD patients were classified as mentally retarded. Eight DMD and 2 BMD patients were diagnosed as having autism. Forty-four percent of DMD and 79% of BMD patients had deletions in the dystrophin gene. All the DMD/BMD patients with deletions upstream of the 5' end of the gene were mentally normal. All of DMD/BMD patients with MR and/or autism had deletions containing the 3' end, although some patients with similar deletions were mentally normal. Our data suggest that Dp140, Dp71 and/or Dp116, the C-terminal translational products of dystrophin, may be related to MR and/or autism in DMD/BMD. However, there was an exception in our series. Three of eight sibling pairs in our cases had different phenotypes, although they had the same mutations in the dystrophin gene. Thus the CNS phenotypes were not determined by the mutations of dystrophin gene alone, and the interaction of dystrophin with other nuclear genes may play important roles.
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PMID:[Central nervous system involvements in Duchenne/Becker muscular dystrophy]. 1172 14

Duchenne muscular dystrophy (DMD), the most common inherited neuromuscular disorder, is characterized by progressive muscle wasting and weakness. One third of Duchenne patients suffer a moderate to severe, nonprogressive form of mental retardation. Mutations in the DMD gene are thought to be responsible, with the shorter isoforms of dystrophin implicated in its molecular brain pathogenesis. It is becoming clear that region-specific variations in dystrophin isoforms delegate the composition of the dystrophin-glycoprotein complex in brain, and hence, the function of the specific membrane assembly. Here we summarize the recent advances in the understanding of brain dystrophin, dystrophin-related proteins and dystrophin-associated proteins.
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PMID:Diversity of the Brain Dystrophin-Glycoprotein Complex. 1248 97

Duchenne muscular dystrophy is characterized by a defect in dystrophin, which often causes mental retardation in addition to progressive muscular weakness. As dystrophin is localized in synaptic regions of the CNS, cognitive abnormalities associated with Duchenne muscular dystrophy are attributable to synaptic dysfunction. We report that dystrophin-deficient mdx mice were more resistant to kainic acid-induced seizures but not to GABA antagonist-induced seizures compared with the control mice. The kainic-acid receptor density in the brain was significantly lower in the mdx than in the control, although the density of muscarinic cholinergic receptors, another important neurotransmitter receptor for cognitive function, was normal. Moreover, mdx had significantly lower Timm staining intensity in the mossy fibers, which originate from the dentate granule cells and terminate on the pyramidal cells in the CA3 of the hippocampus. These results suggest that an instability of neurotransmitter receptors, such as kainate-type glutamate receptors, on synaptic membranes due to the disruption of dystrophin complex induces inefficient neurotransmission in Duchenne muscular dystrophy patients.
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PMID:Abnormal kainic acid receptor density and reduced seizure susceptibility in dystrophin-deficient mdx mice. 1261 79

A 2-year-old girl presented with severe global developmental delay weakness, and an elevated serum creatine kinase level. Her muscle biopsy was consistent with an active dystrophy with absence of dystrophin in about half of the muscle fibers. Fluorescent in situ hybridization analysis showed her karyotype to be 46, X, delX p23.1-p21.1. This large deletion includes the dystrophin gene as well as the region involved in X-linked mental retardation. The genetic mechanism for the manifestation of both diseases is likely non-random inactivation of the X chromosome. To our knowledge, the combination of this dystrophinopathy in association with severe mental retardation has not been described in a girl.
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PMID:Mental retardation and early onset of weakness in a girl with a dystrophinopathy and a large Xp21-23 deletion. 1266 47

We report the characterization of two deep intronic mutations in the Duchenne muscular dystrophy (DMD) gene of two unrelated Becker muscular dystrophy (BMD) patients, causing the aberrant inclusion of a pseudoexon in the mature transcripts. These two mutations were identified by the use of RT-PCR on transcripts isolated from muscle. The first abnormally large transcript resulting from a 58-bp insertion between exon 62 and exon 63 was identified in a BMD patient with mental retardation. The origin of this transcript was a mutation in intron 62 (IVS62-285A>G), which resulted in the occurrence of a high quality donor splice site. The IVS25+2036A>G in intron 25 was identified in a subclinical BMD patient with high CK levels. The mutation reinforces the strength of a pre-existing acceptor splice site, resulting in activation of an intronic pseudoexon of 95 bp. By using DHPLC, the patient's mother was found to be a somatic mosaic. The insertion of these newly recognized extra exons leads to premature termination codons, but we could observe that some degree of normal splicing was taking place in both patients. The detection of these residual full length transcripts is consistent with the clinical presentation and dystrophin analyses. This is the first report of pseudoexon activation as a mechanism for Becker muscular dystrophy, and this reveals further the diversity of genetic abnormalities causing BMD.
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PMID:Pseudoexon activation in the DMD gene as a novel mechanism for Becker muscular dystrophy. 1275 7

Mice rendered null for alpha-dystrobrevin, a component of the dystrophin complex, have muscular dystrophy, despite the fact that the sarcolemma remains relatively intact (Grady, R. M., Grange, R. W., Lau, K. S., Maimone, M. M., Nichol, M. C., Stull, J. T., and Sanes, J. R. (1999) Nat. Cell Biol. 1, 215-220) Thus, alpha-dystrobrevin may serve a signaling function that is important for the maintenance of muscle integrity. We have identified a new dystrobrevin-associated protein, DAMAGE, that may play a signaling role in brain, muscle, and peripheral nerve. In humans, DAMAGE is encoded by an intronless gene located at chromosome Xq13.1, a locus that contains genes involved in mental retardation. DAMAGE associates directly with alpha-dystrobrevin, as shown by yeast two-hybrid, and co-immunoprecipitates with the dystrobrevin-syntrophin complex from brain. This co-immunoprecipitation is dependent on the presence of alpha-dystrobrevin but not beta-dystrobrevin. The DAMAGE protein contains a potential nuclear localization signal, 30 12-amino acid repeats, and two MAGE homology domains. The domain structure of DAMAGE is similar to that of NRAGE, a MAGE protein that mediates p75 neurotrophin receptor signaling and neuronal apoptosis (Salehi, A. H., Roux, P. P., Kubu, C. J., Zeindler, C., Bhakar, A., Tannis, L. L., Verdi, J. M., and Barker, P. A. (2000) Neuron 27, 279-288). DAMAGE is highly expressed in brain and is present in the cell bodies and dendrites of hippocampal and Purkinje neurons. In skeletal muscle, DAMAGE is at the postsynaptic membrane and is associated with a subset of myonuclei. DAMAGE is also expressed in peripheral nerve, where it localizes along with other members of the dystrophin complex to the perineurium and myelin. These results expand the role of dystrobrevin and the dystrophin complex in membrane signaling and disease.
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PMID:DAMAGE, a novel alpha-dystrobrevin-associated MAGE protein in dystrophin complexes. 1462 85

Analyses of deletions in the dystrophin gene and of cognitive status were performed on patients with Duchenne (DMD) or Becker (BMD) muscular dystrophy in order to find a correlation between both features. Molecular study by multiplex and simplex PCR of dystrophin exons led to the identification of 51 deletions in 126 unrelated patients. Most of them were frameshift, in full agreement with severe clinical symptoms, three patients with a BMD-like phenotype had in-frame mutations. Deletions were localized with reference to the different dystrophin isoform sequences and were clustered in two main areas, 5' and central+ 3' end of the gene. Cognitive abilities were tested in 47 out of 51 patients with identified mutations, 23 of them being mentally impaired. Comparison of molecular and neuropsychological features showed that deletions localized in central and 3' parts of the gene (18 out of 23) are preferentially associated with mental impairment. Fourteen of them were found in the regulatory and coding sequences for the three CNS specific carboxy terminal isoforms. Therefore, though mutations with variable locations may lead to cognitive impairment, our results show that deletions in the distal portion of the gene are basically related to mental retardation.
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PMID:Dystrophin deletions and cognitive impairment in Duchenne/Becker muscular dystrophy. 1497 63

We have studied a male patient with significant developmental delay, growth failure, hypotonia, girdle weakness, microcephaly, and multiple congenital anomalies including atrial (ASD) and ventricular (VSD) septal defects. Detailed cytogenetic and molecular analyses revealed three de novo X chromosome aberrations and a karyotype 46,Y,der(X)inv(X) (p11.4q11.2)inv(X)(q11.2q21.32 approximately q22.2)del(X)(q22.3q22.3) was determined. The three X chromosome aberrations in the patient include: a pericentric inversion (inv 1) that disrupted the Duchenne muscular dystrophy (DMD) gene, dystrophin, at Xp11.4; an Xq11.2q21.32 approximately q22.2 paracentric inversion (inv 2) putatively affecting no genes; and an interstitial deletion at Xq22.3 that results in functional nullisomy of several known genes, including a gene previously associated with X-linked nonsyndromic mental retardation, acyl-CoA synthetase long chain family member 4 (ACSL4). These findings suggest that the disruption of DMD and the absence of ACSL4 in the patient are responsible for neuromuscular disease and cognitive impairment.
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PMID:Disruption of DMD and deletion of ACSL4 causing developmental delay, hypotonia, and multiple congenital anomalies. 1627 8

Duchenne and Becker muscular dystrophies, generically called dystrophinopathy, are caused by mutations of the dystrophin gene. It is not surprising that mutations of the dystrophin gene cause various neurological symptoms, since dystrophin protein is found in the brain tissue as well as in the muscle fiber cell membrane. However, few studies have reported on the frequency of central nervous complications other than mental retardation. Also, the relationship between the types of abnormal dystrophin gene and central nervous symptoms remains to be revealed. Medical records of 200 patients with dystrophinopathy from 167 extended families who had visited our institution during the past 15 years were reviewed to elucidate the frequency of central nervous complications. Fifty-four (27%) had mental retardation (an intelligence quotient less than 70), 15 (7.5%) had autism, 12 (6%) had epilepsy. 8 (4%) had febrile convulsion. 131 of these patients also underwent genetic testing. All patients with central nervous symptoms except one pair of siblings had some form of genetic deficiency or duplication distal to exon 44. Central nervous symptoms other than mental retardation are also common in patients with dystrophinopathy. These central nervous complications may be associated with mutations in the isoforms derived from exon 44 to 79.
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PMID:[Various central nervous system involvements in dystrophinopathy: clinical and genetic considerations]. 1821 Aug 57

The congenital muscular dystrophies present in infancy with muscle weakness and are often associated with mental retardation. Many of these inherited disorders share a common etiology: defective O-glycosylation of alpha-dystroglycan, a component of the dystrophin complex. Protein-O-mannosyl transferase 1 (POMT1) is the first enzyme required for the glycosylation of alpha-dystroglycan, and mutations in the POMT1 gene can lead to both Walker-Warburg syndrome (WWS) and limb girdle muscular dystrophy type 2K (LGMD2K). WWS is associated with severe mental retardation and major structural abnormalities in the brain; however, LGMD2K patients display a more mild retardation with no obvious structural defects in the brain. In a screen for synaptic mutants in Drosophila, we identified mutations in the Drosophila ortholog of POMT1, dPOMT1. Because synaptic defects are a plausible cause of mental retardation, we investigated the molecular and physiological defects associated with loss of dPOMT1 in Drosophila. In dPOMT1 mutants, there is a decrease in the efficacy of synaptic transmission and a change in the subunit composition of the postsynaptic glutamate receptors at the neuromuscular junction. We demonstrate that dPOMT1 is required to glycosylate the Drosophila dystroglycan ortholog Dg in vivo, and that this is the likely cause of these synaptic defects because (1) mutations in Dg lead to similar synaptic defects and (2) genetic interaction studies suggest that dPOMT1 and Dg function in the same pathway. These results are consistent with the model that dPOMT1-dependent glycosylation of Dg is necessary for proper synaptic function and raise the possibility that similar synaptic defects occur in the congenital muscular dystrophies.
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PMID:Synaptic defects in a Drosophila model of congenital muscular dystrophy. 1838 36

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