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Query: UMLS:C0004352 (
autism
)
32,579
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Rett and Angelman syndromes comprise part of the spectrum of neurologic disorders associated with
autism
. Their clinical presentations overlap, with both presenting in later infancy with global developmental delays, severe speech and communication impairments, progressive microcephaly, seizures, autistic behaviors, and characteristic albeit different movement disorders and stereotypic hand movements. Although other features can help differentiate these disorders, significant phenotypic overlap and variation in severity sometimes cloud the underlying diagnosis. Rett syndrome is caused by a mutation in the
MECP2
gene located on Xq28, whereas Angelman syndrome results from the loss of UBE3A function on chromosomal region 15q11-q13 related to a variety of molecular genetic mechanisms. Recent advances have uncovered interactions between these and other genes that affect the function and structure of neurons in the brain. The reversal of symptoms of Rett syndrome in a mature mouse model suggests the possibility for treatment of these and perhaps other
autism
-related disorders in the future.
...
PMID:The overlapping spectrum of rett and angelman syndromes: a clinical review. 1798 Mar 7
Mutations in
MECP2
cause the
autism
-spectrum disorder Rett syndrome. MeCP2 is predicted to bind to methylated promoters and silence transcription. However, the first large-scale mapping of neuronal MeCP2-binding sites on 26.3 Mb of imprinted and nonimprinted loci revealed that 59% of MeCP2-binding sites are outside of genes and that only 6% are in CpG islands. Integrated genome-wide promoter analysis of MeCP2 binding, CpG methylation, and gene expression revealed that 63% of MeCP2-bound promoters are actively expressed and that only 6% are highly methylated. These results indicate that the primary function of MeCP2 is not the silencing of methylated promoters.
...
PMID:Integrated epigenomic analyses of neuronal MeCP2 reveal a role for long-range interaction with active genes. 1804 15
Rett syndrome is a genetically linked form of
autism
spectrum disorder (ASD) accompanied by intellectual disability (ID). The disorder is also characterized by cardiorespiratory dysregulation, disturbance in muscle tone, reduced brain growth and scoliosis. Over 300 studies have been published on the disorder, most of which has focused on identification of causative factors, which appears to be the result of mutations of gene
MECP2
. Rarely have adults with Rett syndrome been studied, and behavioral characteristics in these individuals are largely unknown. The present study aimed to extend what little is known about behavioral characteristics of Rett syndrome in adults, with particular emphasis on social, communicative, and adaptive behavior. Rett syndrome adults with severe ID were matched to autistic adults with ID and ID only controls. The implications of these data for more fully describing and diagnosing the condition in adults are discussed.
...
PMID:Rett syndrome in adults with severe intellectual disability: exploration of behavioral characteristics. 1820 72
Autism
spectrum disorders (ASD) are complex genetic disorders more frequently observed in males. Skewed X chromosome inactivation (XCI) is observed in heterozygous females carrying gene mutations involved in several X-linked syndromes. In this study, we aimed to estimate the role of X-linked genes in ASD susceptibility by ascertaining the XCI pattern in a sample of 543 informative mothers of children with ASD and in a sample of 163 affected girls. The XCI pattern was also determined in two control groups (144 adult females and 40 young females) with a similar age distribution to the mothers sample and affected girls sample, respectively. We observed no significant excess of skewed XCI in families with ASD. Interestingly, two mothers and one girl carrying known mutations in X-linked genes (NLGN3, ATRX,
MECP2
) showed highly skewed XCI, suggesting that ascertainment of XCI could reveal families with X-linked mutations. Linkage analysis was carried out in the subgroup of multiplex families with skewed XCI (> or = 80:20) and a modest increased allele sharing was obtained in the Xq27-Xq28 region, with a peak Z-score of 1.75 close to rs719489. In summary, our results suggest that there is no major X-linked gene subject to XCI and expressed in blood cells conferring susceptibility to ASD. However, the possibility that rare mutations in X-linked genes could contribute to ASD cannot be excluded. We propose that the XCI profile could be a useful criteria to prioritize families for mutation screening of X-linked candidate genes.
...
PMID:Analysis of X chromosome inactivation in autism spectrum disorders. 1836 25
The methyl-CpG-binding protein MeCP2 was discovered over 15 years ago as part of a search for proteins that selectively bind methylated DNA. It is a nuclear protein that is largely chromatin-bound and has a strong preference for binding to methylated DNA sequences in vivo. Evidence from model systems shows that MeCP2 can recruit the Sin3a co-repressor complex to promoters leading to transcriptional repression, therefore suggesting that MeCP2 can interpret the DNA methylation signal to bring about gene silencing. Mutations in the human
MECP2
gene cause the
autism
spectrum disorder Rett Syndrome. MeCP2 is most highly expressed in neurons, and mice lacking this protein show symptoms that strikingly parallel those of Rett patients. Surprisingly, these symptoms are efficiently reversed by delayed activation of a 'stopped' Mecp2 gene, raising hopes that human Rett syndrome may also be reversible. Future studies of MeCP2 promise to shed light upon brain function, neurological disease and the biology of DNA methylation.
...
PMID:The methyl-CpG-binding protein MeCP2 and neurological disease. 1863 Nov 20
Mutations in
MECP2
, encoding methyl-CpG-binding protein 2 (MeCP2), cause the neurodevelopmental disorder Rett syndrome (RTT). Although
MECP2
mutations are rare in idiopathic
autism
, reduced MeCP2 levels are common in
autism
cortex. MeCP2 is critical for postnatal neuronal maturation and a modulator of activity-dependent genes such as Bdnf (brain-derived neurotropic factor) and JUNB. The activity-dependent early growth response gene 2 (EGR2), required for both early hindbrain development and mature neuronal function, has predicted binding sites in the promoters of several neurologically relevant genes including
MECP2
. Conversely, MeCP2 family members MBD1, MBD2 and MBD4 bind a methylated CpG island in an enhancer region located in EGR2 intron 1. This study was designed to test the hypothesis that
MECP2
and EGR2 regulate each other's expression during neuronal maturation in postnatal brain development. Chromatin immunoprecipitation analysis showed EGR2 binding to the
MECP2
promoter and MeCP2 binding to the enhancer region in EGR2 intron 1. Reduction in EGR2 and MeCP2 levels in cultured human neuroblastoma cells by RNA interference reciprocally reduced expression of both EGR2 and
MECP2
and their protein products. Consistent with a role of MeCP2 in enhancing EGR2, Mecp2-deficient mouse cortex samples showed significantly reduced EGR2 by quantitative immunofluorescence. Furthermore, MeCP2 and EGR2 show coordinately increased levels during postnatal development of both mouse and human cortex. In contrast to age-matched Controls, RTT and
autism
postmortem cortex samples showed significant reduction in EGR2. Together, these data support a role of dysregulation of an activity-dependent EGR2/MeCP2 pathway in RTT and
autism
.
...
PMID:Reciprocal co-regulation of EGR2 and MECP2 is disrupted in Rett syndrome and autism. 1900 Sep 91
WAGR (Wilms tumor, Aniridia, Genitourinary malformations and mental Retardation) syndrome is a rare genomic disorder caused by deletion of the 11p14-p12 chromosome region. The majority of WAGR patients have mental retardation and behavioral problems, and more than 20% of the patients also have features of
autism
. While the Wilms tumor/genitourinary anomalies and aniridia are caused by deletion of WT1 and PAX6 respectively, the genomic cause of mental retardation and
autism
in WAGR syndrome remains unknown. Using oligonucleotide arrays, we have characterized the 11p14-p12 deletions in 31 patients and identified all the genes involved in each deletion. The deletions had sizes ranging from 4.9 to 23 Mb that encompass 18-62 genes (40 on average). In addition to WT1 and PAX6, all the patients had deletion of PRRG4 (transmembrane gamma-carboxyglutamic acid protein 4). The majority of them had deletion of BDNF (brain-derived neurotrophic factor) and SLC1A2 [solute carrier family 1 (glial high affinity glutamate transporter) member 2]. Deletion of BDNF and SLC1A2 occurred in patients with
autism
more frequently than in those without
autism
. Literature review on the functions of the genes suggests that haploinsufficiency of SLC1A2, PRRG4, and BDNF may contribute to mental retardation and behavioral problems. In particular, BDNF may modulate the risk of
autism
in WAGR patients as suggested by its link with Rett syndrome as a target of
MECP2
. We observed that all the de novo deletions occurred in the chromosome 11 inherited from the father in the families genotyped, implying a predisposition for de novo mutations occurring in spermatogenesis and possible involvement of imprinting in cognitive impairment in WAGR patients.
...
PMID:Characterization of 11p14-p12 deletion in WAGR syndrome by array CGH for identifying genes contributing to mental retardation and autism. 1909 15
The methyl-binding protein gene,
MECP2
, is a candidate for involvement in
autism
through its implication as a major causative factor in Rett syndrome that has similarities to
autism
. Rare mutations in
MECP2
have also been identified in autistic individuals. We have examined the possible broader involvement of
MECP2
as a predisposing factor in the disorder. Analysis of polymorphic markers spanning the gene and comprising both microsatellites and single nucleotide polymorphisms (SNPs) by the transmission disequilibrium test in two collections of families (219 in total), one in the USA and one in the UK, has provided evidence for significant association (P = 0.009) for a three-marker SNP haplotype of
MECP2
with
autism
/
autism
spectrum disorders. This association is supported by association of both Single Sequence Repeat (SSR) and SNP single markers located at the 3' end of the
MECP2
locus and flanking sequence, the most significant being that of an indel marker located in intron 2 (P = 0.001 - Bonferroni corrected P = 0.006). This suggests that one or more functional variants of
MECP2
existing at significant frequencies in the population may confer increased risk of
autism
/
autism
spectrum disorders and warrants further investigation in additional independent samples.
...
PMID:Methyl-CpG-binding protein 2 polymorphisms and vulnerability to autism. 1912 63
Epigenetic mechanisms have been proposed to play a role in the etiology of
autism
. This hypothesis is supported by the discovery of increased
MECP2
promoter methylation associated with decreased MeCP2 protein expression in
autism
male brain. To further understand the influence of female X chromosome inactivation (XCI) and neighboring methylation patterns on aberrant
MECP2
promoter methylation in
autism
, multiple methylation analyses were peformed on brain and blood samples from individuals with
autism
. Bisulfite sequencing analyses of a region 0.6 kb upstream of
MECP2
in brain DNA samples revealed an abrupt transition from a highly methylated region in both sexes to a region unmethylated in males and subject to XCI in females. Chromatin immunoprecipitation analysis demonstrated that the CCTC-binding factor (CTCF) bound to this transition region in neuronal cells, consistent with a chromatin boundary at the methylation transition. Male
autism
brain DNA samples displayed a slight increase in methylation in this transition region, suggesting a possible aberrant spreading of methylation into the
MECP2
promoter in
autism
males across this boundary element. In addition, autistic female brain DNA samples showed evidence for aberrant
MECP2
promoter methylation as an increase in the number of bisulfite sequenced clones with undefined XCI status for
MECP2
but not androgen receptor (AR). To further investigate the specificity of
MECP2
methylation alterations in
autism
, blood DNA samples from females and mothers of males with
autism
were also examined for XCI skewing at AR, but no significant increase in XCI skewing was observed compared to controls. These results suggest that the aberrant
MECP2
methylation in
autism
brain DNA samples is due to locus-specific rather than global X chromosome methylation changes.
Autism
Res 2008 Jun
PMID:MECP2 promoter methylation and X chromosome inactivation in autism. 1913 45
Autism
is a severe neurodevelopmental disorder, which typically emerges in early childhood. Most cases of
autism
have not been linked to mutations in a specific gene, and the etioloty of the disorder remains to be established [S.S. Moy, J.J. Nadler, T.R. Magnuson, J.N. Crawley, Mouse models of
autism
spectrum disorders: the challenge for behavioral genetics, Am. J. Med. Genet. 142 (2006) 40-51]. Fragile X syndrome is caused by mutation in the FMR1 gene and is characterized by mental retardation, physical abnormalities, and, in most case, autistic-like behavior [R.J. Hagerman, A.W. Jackson, A. Levitas, B. Rimland, M. Braden, An analysis of
autism
in fifty males with the Fragile X syndrome, Am. J. Med. Genet. 23 (1986) 359-374, C.E. Bakker, C. Verheij, R. Willemsen, R. van der Helm, F. Oerlemans, M. Vermeij, A. Bygrave, A.T. Hoogeveen, B.A. Oostra, E. Reyniers, K. De Boulle, R. D'Hooge, P. Cras, D. van Velzen, G. Nagels, J.J. Marti, P. De Deyn, J.K. Darby, P.J. Willems, Fmr1 knockout mice: a model to study Fragile X mental retardation, Cell 78 (1994) 23-33]. The FMR1 knockout (KO) mouse is one of the best characterized animal models for human disorders associated with
autism
[S.S. Moy, J.J. Nadler, T.R. Magnuson, J.N. Crawley, Mouse models of
autism
spectrum disorders: the challenge for behavioral genetics, Am. J. Med. Genet. 142 (2006) 40-51]. We have used real-time PCR to investigate changes in expression levels of three genes: WNT2,
MECP2
, and FMR1 in different brain regions of Fagile X mice and litter mate controls. We found major changes in the expression pattern for the three genes examined. FMR1,
MECP2
, and WNT2 expression were drastically down regulated in the Fragile X mouse brain.
...
PMID:Altered expression of Autism-associated genes in the brain of Fragile X mouse model. 1913 67
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