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:C0917816 (mental retardation)
15,867 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Primary or nonspecific X-linked mental retardation (MRX) is a heterogeneous condition in which affected patients do not have any distinctive clinical or biochemical features in common apart from cognitive impairment. Although it is present in approximately 0.15-0.3% of males, most of the genetic defects associated with MRX, which may involve more than ten different genes, remain unknown. Here we report the characterization of a new gene on the long arm of the X-chromosome (position Xq12) and the identification in unrelated individuals of different mutations that are predicted to cause a loss of function. This gene is highly expressed in fetal brain and encodes a protein of relative molecular mass 91K, named oligophrenin-1, which contains a domain typical of a Rho-GTPase-activating protein (rhoGAP). By enhancing their GTPase activity, GAP proteins inactivate small Rho and Ras proteins, so inactivation of rhoGAP proteins might cause constitutive activation of their GTPase targets. Such activation is known to affect cell migration and outgrowth of axons and dendrites in vivo. Our results demonstrate an association between cognitive impairment and a defect in a signalling pathway that depends on a Ras-like GTPase.
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PMID:Oligophrenin-1 encodes a rhoGAP protein involved in X-linked mental retardation. 958 72

Non-specific X-linked mental retardation is a heterogeneous group of disorders with an incidence of approximately 1 in 500 males. A recently identified gene in Xq12, encoding a Rho-GTPase-activating protein, was found to be mutated in individuals with mental retardation. We describe here two sisters with a 46,XY karyotype and a microdeletion of the oligophrenin-1 gene and 1.1 Mb of flanking DNA. We have characterised the molecular interval defining this microdeletion syndrome with the fibre-FISH technique. A visual physical map of 1.2 Mb was constructed which spans the oligophrenin-1 gene and the androgen receptor gene. The analysis of the patients revealed a deletion which extended from the 5' end of the AR gene to a region approximately 80 kb proximal to the EPLG2 gene. The clinical manifestations of the two sisters include psychomotor retardation, seizures, ataxia, hypotonia and complete androgen insensitivity. Cranial MRI scans show enlargement of the cerebral ventricles and cerebellar hypoplasia. Our findings give further support for the involvement of the oligophrenin-1 gene in specific morphological abnormalities of the brain which is of importance in the investigation of male patients presenting with mental retardation. In combination with our results from physical mapping we suggest that a region around the oligophrenin-1 locus is relatively bereft of vital genes.
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PMID:Deletion including the oligophrenin-1 gene associated with enlarged cerebral ventricles, cerebellar hypoplasia, seizures and ataxia. 1043 59

We have recently shown that mutations in oligophrenin-1 (OPHN1) are responsible for non-specific X-linked mental retardation (MRX). The structure of the gene encoding the OPHN1 protein was determined by isolation of genomic DNA clones from the human cosmid library. Genomic fragments containing exons were sequenced, and the sequences of the exons and flanking introns were defined. Knowledge of the genomic structure of the OPHN1 gene, which spans at least 500 kb and consists of 25 exons, will facilitate the search for additional mutations in OPHN1. OPHN1 was screened for mutations in 164 subjects with non-specific mental retardation. Three nucleotide substitutions were identified, one of which was a silent mutation in the codon threonine 301 at position 903 (G-->C). The other substitutions were located in exon 2, a G-->A substitution at position 133 (A45T), and in exon 10, a C-->T substitution at position 902 (T301M), but these are common polymorphisms rather than disease-causing mutations.
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PMID:Determination of the gene structure of human oligophrenin-1 and identification of three novel polymorphisms by screening of DNA from 164 patients with non-specific X-linked mental retardation. 1081 14

An integrated large-insert clone map of the region Xq11-q12 is presented. A physical map containing markers within a few hundred kilobases of the centromeric locus DXZ1 to DXS1125 spans nearly 5 Mb in two contigs separated by a gap estimated to be approximately 100-250 kb. The contigs combine 75 yeast artificial chromosome clones, 12 bacterial artificial chromosome clones, and 17 P1-derived artificial chromosome clones with 81 STS or EST markers. Overall marker density across this region is approximately 1 STS/60 kb. Mapped within the contigs are 12 ESTs as well as 5 known genes, moesin (MSN), hephaestin (HEPH), androgen receptor (AR), oligophrenin-1 (OPHN1), and Eph ligand-2 (EPLG2). Orientation of the contigs on the X chromosome, as well as marker order within the contigs, was unambiguously determined by reference to a number of X chromosome breakpoints. In addition, the distal contig spans deletions from chromosomes of three patients exhibiting either complete androgen insensitivity (CAI) or a contiguous gene syndrome that includes CAI, impaired vision, and mental retardation.
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PMID:Large-insert clone/STS contigs in Xq11-q12, spanning deletions in patients with androgen insensitivity and mental retardation. 1084 11

The human oligophrenin-1 gene is ubiquitously expressed at low levels and expressed at high levels in the developing neuroepithelium of the neural tube. Mutations in this gene have been related to the X-linked mental retardation. Using cDNA microarrays, we found evidence that oligophrenin-1 is strongly up-regulated in colorectal tumors. Semiquantitative reverse transcriptase polymerase chain reaction confirmed this finding. Thus, a well-known nervous system-associated human gene transcript may also be an important colorectal tumor marker and potential therapeutic target.
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PMID:Significant overexpression of oligophrenin-1 in colorectal tumors detected by cDNA microarray analysis. 1159 31

Recent human genetic approaches showed that mutations in three genes encoding OPHN1, PAK3, and alphaPIX cause nonspecific X-linked mental retardation. These three proteins act to modulate Rho GTPase signaling pathways and may participate in neuronal morphogenesis by regulating the actin cytoskeleton. Here we showed that the Oligophrenin-1 gene is expressed in the developing spinal cord and later in brain areas that are characterized by high synaptic plasticity. At the cellular level OPHN1 is expressed in both glial and neuronal cells where it colocalizes with actin, notably at the tip of growing neurites. This interaction seems to be direct through a novel uncharacterized domain in the carboxyl-terminal end of OPHN1. Overexpression experiments in fibroblasts showed that the OPHN1 RhoGAP domain regulates in vivo the actin cytoskeleton by inhibition of Rho pathways. Interestingly the amino-terminal domain of OPHN1 inhibits the RhoGAP activity through an as yet unknown mechanism, suggesting that OPHN1 may be tightly regulated in vivo.
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PMID:The RhoGAP activity of OPHN1, a new F-actin-binding protein, is negatively controlled by its amino-terminal domain. 1293 38

Mental retardation is believed to be a result of alterations in molecular pathways underlying neuronal processes involved in cognitive functions. It is not fully understood, however, which molecular pathways are critical for cognitive mechanisms. Furthermore, whether mental retardation is a developmental or ongoing disorder of cognitive functions is unknown. Answering these questions will help elucidate the etiology of mental retardation and possibly lead to new therapies. Several recently published studies suggested that mental retardation might be caused by defects in synapse structure and function. Four genes mutated in families with mental retardation encode proteins known as Rho guanine nucleotide exchange factor 6, oligophrenin-1, p21-activated kinase, and guanine dissociation inhibitor 1. Each of these interacts with various guanine nucleotide-binding proteins involved in signaling pathways that regulate the actin cytoskeleton, neurite outgrowth, neurotransmitter release, and dendritic spine morphology. The goal is to understand the roles of these genes in normal cognitive functions.
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PMID:Is mental retardation a defect of synapse structure and function? 1367 16

Oligophrenin-1 (OPHN-1) gene disruption is known as responsible for so called "non-specific" X-linked mental retardation (MR) Billuart et al. [1998: Nature 392:923-926]. In order to search for a possible specific clinical and radiological profile for mutation in the OPHN-1 gene, clinical and 3D brain MRI studies were performed in the two families with a known mutation in OPHN-1 reported so far: a 19-year-old female with an X;12 balanced translocation encompassing OPHN-1, and four affected males of family MRX60 sharing a frameshift mutation in OPHN-1. Clinical data shared by affected individuals were neonatal hypotonia with motor delay but no obvious ataxia, marked strabismus, early onset complex partial seizures, and moderate to severe MR. Brain MRIs performed in three individuals exhibited a specific vermian dysgenesis including an incomplete sulcation of anterior and posterior vermis with the most prominent defect in lobules VI and VII. In addition, a non-specific cerebral cortico-subcortical atrophy was also observed. These clinical and radiological features suggest a distinct clinico-radiological syndrome. These preliminary data need to be confirmed in other families and will be helpful for further targeted mutation screening of the OPHN-1 gene in male patients with similar clinico-radiological features. In addition, OPHN-1 inactivation should be considered as a relevant model of developmental vermis disorganization, leading to a better understanding of the possible role of the cerebellum in MR.
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PMID:Specific clinical and brain MRI features in mentally retarded patients with mutations in the Oligophrenin-1 gene. 1473 83

Oligophrenin-1 is a recently discovered Rho-GTPase activating protein, mutation of which is associated with X-linked mental retardation. Since little is known about the cellular localization of oligophrenin-1 in central and peripheral neurons, we investigated its expression by RT-PCR and immunochemical analysis. Oligophrenin-1 immunoreactivity was found in glial cells forming myelin sheaths in the vagus nerve, sciatic nerve and dorsal roots of guinea-pig, rat and human, in chromaffin cells of the adrenal medulla, and in chromaffin cells associated with sympathetic ganglia. No immunoreactivity was detected in sympathetic neurons, in glial cells surrounding these neurons, in optic nerve or in spinal cord myelin. The full length cDNA sequence was determined from guinea-pig sciatic nerve. The translated amino acid sequence was 99% identical to the published human oligophrenin-1 sequence. Western blotting revealed two protein forms which were expressed to different relative extents in different tissues. A 91 kDa form was predominant in extracts of sciatic nerve whereas a 36 kDa form was relatively more abundant in adrenal medulla and brain. Greater amounts of the full length oligophrenin-1 protein occurred in the sciatic nerve of adult rats, compared with P2 rats, which reflects the development of myelination. The presence of multiple forms does not appear to be due to alternative mRNA splicing since RT-PCR products amplified from a variety of tissues were identical and only a single mRNA transcript of 7.4 kb was identified by Northern analysis. These findings demonstrate that a major site of oligophrenin-1 expression is peripheral myelin.
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PMID:Evidence that a major site of expression of the RHO-GTPASE activating protein, oligophrenin-1, is peripheral myelin. 1502 18

Of 11 genes involved in nonspecific X-linked mental retardation (MRX), three encode regulators or effectors of the Rho GTPases, suggesting an important role for Rho signaling in cognitive function. It remains unknown, however, how mutations in Rho-linked genes lead to MRX. Here we report that oligophrenin-1, a Rho-GTPase activating protein that is absent in a family affected with MRX, is required for dendritic spine morphogenesis. Using RNA interference and antisense RNA approaches, we show that knock-down of oligophrenin-1 levels in CA1 neurons in rat hippocampal slices significantly decreases spine length. This phenotype can be recapitulated using an activated form of RhoA and rescued by inhibiting Rho-kinase, indicating that reduced oligophrenin-1 levels affect spine length by increasing RhoA and Rho-kinase activities. We further demonstrate an interaction between oligophrenin-1 and the postsynaptic adaptor protein Homer. Our findings provide the first insight into how mutations in a Rho-linked MRX gene may compromise neuronal function.
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PMID:The X-linked mental retardation protein oligophrenin-1 is required for dendritic spine morphogenesis. 1503 83


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