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

There is a standard recommendation that chromosomes be obtained in any patient who presents with developmental delay (DD) or mental retardation (MR) regardless of whether or not they have dysmorphic features. Increasingly, if patients are physically well-formed, the option to perform a karyotype is questioned because of the presumed low yield of a chromosomal abnormality. We hypothesize that patients with DD/MR who are non-dysmorphic do not have abnormal chromosomes at a rate high enough to warrant obtaining a karyotype on all patients in this population. A retrospective analysis of patients with DD/MR who were non-dysmorphic was performed. The total number of subjects was 134. Of these, 120 patients were recommended to have high-resolution chromosomes performed, among whom seven were lost to follow-up. In the remaining 113 patients, all had normal karyotypes. Three subjects were found to have fragile X syndrome, accounting for 3% of the males. One subject had a pathological mutation in MECP2. Our yield of chromosome analysis in non-dysmorphic patients with DD/MR is less than that previously described. The role of array-comparative genomic hybridization (array-CGH) as an auxiliary or alternative procedure in this patient population will be discussed.
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PMID:Diagnostic yield of chromosome analysis in patients with developmental delay or mental retardation who are otherwise nondysmorphic. 1702 71

Genetic mutations of the X-linked gene MECP2, encoding methyl-CpG-binding protein 2, cause Rett syndrome (RTT) and other neurological disorders. It is increasingly recognized that MECP2 is a multifunctional protein, with at least four different functional domains: (1) a methyl-CpG-binding domain; (2) an arginine-glycine repeat RNA-binding domain; (3) a transcriptional repression domain; and (4) an RNA splicing factor binding region (WW group II binding domain). There is evidence that MECP2 is important for large-scale reorganization of pericentromeric heterochromatin during differentiation. Studies in MECP2-deficient mouse brain have identified a diverse set of genes with altered levels of mRNA expression or splicing. It is still unclear how altered MECP2 function ultimately results in neuronal disease after a period of grossly normal development. However, mounting evidence suggests that neuronal health and development depend on precise regulation of MECP2 expression. In genetically engineered mice, both increased and decreased levels of MECP2 result in a neurological phenotype. Furthermore, it was recently discovered that MECP2 gene duplications underlie a small number of atypical Rett cases and mental retardation syndromes. The finding that MECP2 levels are tightly regulated in neurons has important implications for the design of gene replacement or reactivation strategies for treatment of RTT, because affected individuals typically are somatic mosaics with one set of cells expressing a mutated MECP2 from the affected X, and another set expressing normal MECP2 from the unaffected X. Further studies are necessary to elucidate the molecular pathology of both loss-of-function and gain-of-function mutations in MECP2.
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PMID:The molecular pathology of Rett syndrome: synopsis and update. 1702 71

Mutations or duplications in MECP2 cause Rett and Rett-like syndromes, neurodevelopmental disorders characterized by mental retardation, motor dysfunction, and autistic behaviors. MeCP2 is expressed in many mammalian tissues and functions as a global repressor of transcription; however, the molecular mechanisms by which MeCP2 dysfunction leads to the neural-specific phenotypes of RTT remain poorly understood. Here, we show that neuronal activity and subsequent calcium influx trigger the de novo phosphorylation of MeCP2 at serine 421 (S421) by a CaMKII-dependent mechanism. MeCP2 S421 phosphorylation is induced selectively in the brain in response to physiological stimuli. Significantly, we find that S421 phosphorylation controls the ability of MeCP2 to regulate dendritic patterning, spine morphogenesis, and the activity-dependent induction of Bdnf transcription. These findings suggest that, by triggering MeCP2 phosphorylation, neuronal activity regulates a program of gene expression that mediates nervous system maturation and that disruption of this process in individuals with mutations in MeCP2 may underlie the neural-specific pathology of RTT.
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PMID:Brain-specific phosphorylation of MeCP2 regulates activity-dependent Bdnf transcription, dendritic growth, and spine maturation. 1704 89

MeCP2 is a protein that selectively binds to methylated cytosines through its methyl-CpG-binding domain (MBD) and connects DNA methylation to transcriptional repression. Mutations in MECP2 gene, located in Xq28, have been reported as being the major cause of Rett syndrome and are also associated with some cases of X-linked mental retardation in both males and females. In this study, we present the first screening in the MECP2 gene in a Brazilian cohort of 239 unrelated males with idiopathic mental retardation. Eight sequence variations were observed in 10 patients: one novel putative pathogenic variant, two never described variants of unknown pathogenic value and five non-pathogenic variations. We conclude that in mentally retarded Brazilian males, non-pathogenic variants in the MECP2 gene are more common than actual pathogenic mutations, and therefore alterations in this gene have a weak relationship with mental retardation in males.
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PMID:Low significance of MECP2 mutations as a cause of mental retardation in Brazilian males. 1708 70

A new splice variant of the Rett syndrome gene, MECP2, was recently identified, that includes coding sequence from exon 1, and is the predominant transcript in the central nervous system. This sequence encodes polyalanine and polyglycine stretches within the N-terminal portion of MeCP2, and may confer novel functional properties to the protein. We screened autism, mental retardation (MR), and control populations for sequence variation within this region, and identified variation in approximately 1% of MR cases screened (N = 1,410). No variants were identified in the autism sample (N = 401). Most of these variants occur within a trinucleotide repeat region and result in change in number of alanine or glycine residues within the repeat stretches. We suggest some of these variants may be a relatively frequent cause of non-specific MR or developmental delay.
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PMID:Sequence variants within exon 1 of MECP2 occur in females with mental retardation. 1717 59

Mutations in the human methyl-CpG-binding protein gene MECP2 cause the neurological disorder Rett syndrome and some cases of X-linked mental retardation (XLMR). We report that MeCP2 interacts with ATRX, a SWI2/SNF2 DNA helicase/ATPase that is mutated in ATRX syndrome (alpha-thalassemia/mental retardation, X-linked). MeCP2 can recruit the helicase domain of ATRX to heterochromatic foci in living mouse cells in a DNA methylation-dependent manner. Also, ATRX localization is disrupted in neurons of Mecp2-null mice. Point mutations within the methylated DNA-binding domain of MeCP2 that cause Rett syndrome or X-linked mental retardation inhibit its interaction with ATRX in vitro and its localization in vivo without affecting methyl-CpG binding. We propose that disruption of the MeCP2-ATRX interaction leads to pathological changes that contribute to mental retardation.
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PMID:Interaction between chromatin proteins MECP2 and ATRX is disrupted by mutations that cause inherited mental retardation. 1729 36

Mental retardation affects 2 to 3% of the population and is marked by significant etiological heterogeneity, including genetic and non genetic causes. FRAXA (FMR1) trinucleotide expansion is widely searched in routine screening, but found in only about 2% of the patients tested. Mutations of the MECP2 (methyl-CpG-binding protein) gene mainly cause Rett syndrome but were also shown to be involved in mental retardation. This study aimed to estimate the frequency of MECP2 gene mutations in a large group of mentally retarded patients without FRAXA expansion. Screening by heteroduplex analysis and SSCP followed by DNA sequencing of shifted bands were performed on 613 patients, including 442 males and 171 females. Eleven sequence variants were found, including nine polymorphisms. The two others may be pathogenetic. The first one, the double nucleotide substitution c.1162_1163delinsTA leading to a premature stop codon (p.Pro388X) was found in a female patient with random X-inactivation, presenting with borderline mental impairment without any features of Rett syndrome. The second one, the c.679C>G substitution, changing a glutamine to a glutamate in the transcriptional repression functional domain (p.Gln227Glu), was found in a female patient with a moderately biased X-chromosome inactivation profile and presenting with mild intellectual delay and minor psychotic features. The low mutation rate suggests that a large-scale routine screening for MECP2 in mentally retarded subjects is not cost-effective in clinical practice. Screening may be improved by a pre-selection based on clinical features that remain to be established.
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PMID:Mutation screening of the MECP2 gene in a large cohort of 613 fragile-X negative patients with mental retardation. 1738 48

A tiling X-chromosome-specific genomic array with a theoretical resolution of 80 kb was developed to screen patients with idiopathic mental retardation (MR) for submicroscopic copy number differences. Four patients with aberrations previously detected at lower resolution were first analyzed. This facilitated delineation of the location and extent of the aberration at high resolution and subsequently, more precise genotype-phenotype analyses. A cohort of 108 patients was screened, 57 of which were suspected of X-linked mental retardation (XLMR), 26 were probands of brother pairs, and 25 were sporadic cases. A total of 15 copy number changes in 14 patients (13%) were detected, which included two deletions and 13 duplications ranging from 0.1 to 2.7 Mb. The aberrations are associated with the phenotype in five patients (4.6%), based on the following criteria: de novo aberration; involvement of a known or candidate X-linked nonsyndromic(syndromic) MR (MRX(S)) gene; segregation with the disease in the family; absence in control individuals; and skewed X-inactivation in carrier females. These include deletions that contain the MRX(S) genes CDKL5, OPHN1, and CASK, and duplications harboring CDKL5, NXF5, MECP2, and GDI1. In addition, seven imbalances were apparent novel polymorphic regions because they do not fulfill the proposed criteria. Taken together, our data strongly suggest that not only deletions but also duplications on the X chromosome contribute to the phenotype more often than expected, supporting the increased gene dosage mechanism for deregulation of normal cognitive development.
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PMID:Detection of genomic copy number changes in patients with idiopathic mental retardation by high-resolution X-array-CGH: important role for increased gene dosage of XLMR genes. 1754 40

Rett syndrome (RS) is an X-linked neurodevelopmental disorder and the second most common cause of genetic mental retardation in females. Different mutations in MECP2 are found in up to 95% of typical cases of RS. This mainly neuronal expressed gene functions as a major transcription repressor. Extensive studies on girls who have RS and mouse models are aimed at finding main gene targets for MeCP2 protein and defining neuropathologic changes caused by its defects. Studies comparing autistic features in RS with idiopathic autism and mentally retarded patients are presented. Decreased dendritic arborization is common to RS and autism, leading to further research on similarities in pathogenesis, including MeCP2 protein levels in autistic brains and MeCP2 effects on genes connected to autism, like DLX5 and genes on 15q11-13 region. This area also is involved in Angelman syndrome, which has many similarities to RS. Despite these connections, MECP2 mutations in nonspecific autistic and mentally retarded populations are rare.
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PMID:Rett syndrome. 1756 89

Rett syndrome is one of the leading causes of mental retardation and developmental regression in girls. It is characterized by a period of normal psychomotor development followed by the loss of acquired motor and communication skills, autistic features and stereotypic hand movements. Rett syndrome is the first pervasive developmental disorder with a known genetic cause. The majority of cases are caused by de novo mutations in an X-linked MECP2 gene. Its product, methyl-CpG-binding protein 2, plays an important role in the regulation of gene expression and chromatin structure. Because the neuropathology of Rett syndrome shares certain features with other neurodevelopmental disorders, a common pathogenic process may underlie these disorders. This makes Rett syndrome a prototype for the genetic, molecular, and neurobiological analyses of neurodevelopmental disorders.
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PMID:[Rett syndrome: clinical and molecular aspects]. 1787 30


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