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)

X-linked mental retardation is estimated to affect approximately 1 in 600 males. Although numerous genes responsible for syndromic mental retardation have been identified, the study of non-syndromic mental retardation suffers from intrinsic issues of genetic heterogeneity. During the investigation of three brothers with a contiguous gene deletion syndrome of Becker muscular dystrophy, glycerol kinase deficiency, congenital adrenal hypoplasia, and mental retardation, we found their dystrophin gene to be fused tail-to-tail with a gene encoding a novel member of the interleukin-1 receptor family, IL1RAPL1. This gene has a close relative in Xq22, which we call IL1RAPL2. Both IL1RAPL1 and IL1RAPL2 have novel C-terminal sequences not present in other related proteins, and are encoded by very large genes. The 1.8-megabase deletion in these patients removes not only the last exon of the dystrophin gene, the entire glycerol kinase and DAX-1 genes, and the MAGE-B gene cluster, but also three exons encoding the intracellular signalling domain of IL1RAPL1. The literature contains multiple reports of patients with non-syndromic mental retardation in association with an Xp22.1-Xp21.3 microdeletion of a marker which lies within the IL1RAPL1 gene. The gene is also wholly or partially deleted in patients with mental retardation as part of a contiguous deletion syndrome. We suggest that IL1RAPL1, and perhaps IL1RAPL2, are strong candidates for X-linked non-syndromic mental retardation loci, and that molecules resembling IL-1 and IL-18 play a role in the development or function of the central nervous system.
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PMID:Two novel members of the interleukin-1 receptor gene family, one deleted in Xp22.1-Xp21.3 mental retardation. 1075 39

In muscle, dystrophin anchors a complex of proteins at the cell surface which includes alpha-dystroglycan, beta-dystroglycan, syntrophins and dystrobrevins. Mutations in the dystrophin gene lead to muscular dystrophy and mental retardation. In contrast to muscle, little is known about the localization and the molecular interactions of dystrophin and dystrophin associated proteins (DAPs) in brain. In the present study, we show that alpha-dystroglycan and dystrophin are localized to large neurones in cerebral cortex, hippocampus, cerebellum and spinal cord. Furthermore, we show that dystroglycan is a member of three distinct dystrophin-containing complexes. Two of these complexes contain syntrophin and both dystrophin and syntrophin are enriched in post-synaptic densities. These data suggest that dystrophin and DAPs may have a role in the organization of CNS synapses. Interestingly, the enrichment for syntrophin in post-synaptic densities is not affected in mice mutant for all dystrophin isoforms. Thus in the brain, unlike in muscle, the association of syntrophin with dystrophin is not crucial for the DAP complex which suggests that it may be associated with other proteins.
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PMID:Dystroglycan contributes to the formation of multiple dystrophin-like complexes in brain. 1152 Sep 3

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

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

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

Severe childhood autosomal recessive muscular dystrophy (SCARMD) is characterized by a severe Duchene muscular dystrophy like phenotype. Most such cases represent alpha or gamma sarcoglycanopathies. Mental subnormality is very uncommon and other central nervous system deficits have not been documented in patients with SCARMD. We report a brother and sister with the SCARMD phenotype, who additionally had static mental subnormality and choreiform movements. Work-up for sarcolgycan genes, dystrophin gene and known causes of mental retardation and chorea was normal.
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PMID:Severe childhood autosomal recessive muscular dystrophy, mental subnormality and chorea. 1711 66

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

Duchenne muscular dystrophy is caused by mutations in the dystrophin gene and is characterized by progressive muscle wasting. A number of Duchenne patients also present with mental retardation. The dystrophin protein is part of the highly conserved dystrophin-associated glycoprotein complex (DGC) which accumulates at the neuromuscular junction (NMJ) and at a variety of synapses in the peripheral and central nervous systems. Many years of research into the roles of the DGC in muscle have revealed its structural function in stabilizing the sarcolemma. In addition, the DGC also acts as a scaffold for various signaling pathways. Here, we discuss recent advances in understanding DGC roles in the nervous system, gained from studies in both vertebrate and invertebrate model systems. From these studies, it has become clear that the DGC is important for the maturation of neurotransmitter receptor complexes and for the regulation of neurotransmitter release at the NMJ and central synapses. Furthermore, roles for the DGC have been established in consolidation of long-term spatial and recognition memory. The challenges ahead include the integration of the behavioral and mechanistic studies and the use of this information to identify therapeutic targets.
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PMID:The roles of the dystrophin-associated glycoprotein complex at the synapse. 1989 2

Mutations in the dystrophin gene have long been recognised as a cause of mental retardation. However, for reasons that are unclear, some boys with dystrophin mutations do not show general cognitive deficits. To investigate the relationship between dystrophin mutations and cognition, the general intellectual abilities of a group of 25 boys with genetically confirmed Duchenne muscular dystrophy were evaluated. Furthermore, a subgroup underwent additional detailed neuropsychological assessment. The results showed a mean full scale intelligence quotient (IQ) of 88 (standard deviation 24). Patients performed very poorly on various neuropsychological tests, including arithmetics, digit span tests and verbal fluency. No simple relationship between dystrophin mutations and cognitive functioning could be detected. However, our analysis revealed that patients who lack the dystrophin isoform Dp140 have significantly greater cognitive problems.
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PMID:Neuropsychological impairments and the impact of dystrophin mutations on general cognitive functioning of patients with Duchenne muscular dystrophy. 2110 41

Mental retardation is a feature of X-linked Duchenne muscular dystrophy (DMD) which likely results from the loss of the brain full-length (Dp427) and short C-terminal products of the dystrophin gene, such as Dp71. The loss of Dp427 or Dp71 is known to alter hippocampal glutamate-dependent synaptic transmission and plasticity in mice. Although dystrophins have a selective postsynaptic expression in brain, a putative role in retrograde regulation of transmitter release was suggested by studies in Drosophila. Here we used electron microscopy to analyze the distribution of synaptic vesicles in CA1 hippocampal axospinous non perforated-excitatory synapses of mice lacking Dp427 or Dp71 compared to control littermates. We found that the density of morphologically-docked vesicles is increased and the vesicle size is reduced in mice lacking Dp427, while in Dp71-null mice there is a decrease in the density of vesicles located in the vicinity of the active zone and an increase in the vesicle size and in the width of synaptic clefts. This is the first indication that the loss of mammalian brain dystrophins impacts on the presynaptic ultrastructural organization of central glutamatergic synapses, which may explain some of the alterations of synapse function and plasticity that contribute to intellectual disability in DMD.
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PMID:Altered presynaptic ultrastructure in excitatory hippocampal synapses of mice lacking dystrophins Dp427 or Dp71. 2139 23

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