UMLS:C0917816 - FACTA Search

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

We have recently mapped a new rare form of spastic paraplegia complicated by bilateral cataracts, gastroesophageal reflux with persistent vomiting, and amyotrophy to chromosome 10q23.3-q24.2. This locus, named SPG9, is located in an interval spanning about 12 cM of genomic DNA, between markers D10S536 and D10S603, where different neurological disorders have been mapped. In particular, a gene for partial epilepsy has been assigned to a 3 cM interval between markers D10S185 and D10S577, which is completely included in the SPG9 critical region. A few families affected with spastic paraplegia and epilepsy have been reported; in the present study, we tested a pedigree with concurrence of spastic paraplegia, epilepsy, and mental retardation inherited as an autosomal dominant trait, using markers located in the SPG9 interval. Haplotype reconstruction excluded the linkage to 10q23.3-q24.2. In addition, the seven different loci so far reported to be associated with autosomal dominant pure forms of spastic paraplegia have been tested and excluded by linkage analysis and haplotype reconstruction, including SPG4 on chromosome 2p22-p21, where a familial form of spastic paraplegia associated with dementia and epilepsy has been mapped. These data confirm genetic heterogeneity in familial spastic paraplegia with epilepsy and suggest a specific locus for the family here analyzed.
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PMID:Genetic heterogeneity in inherited spastic paraplegia associated with epilepsy. 1256 7

An adult female patient is presented with macrocephaly, mental retardation, seizures, spastic paraplegia and distinctive craniofacial appearance. We believe she represents the fourth case of the Fryns macrocephaly, distinct craniofacial appearance and spastic paraplegia syndrome. Cardinal features are discussed and additional phenotypic manifestations are discussed.
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PMID:Macrocephaly, distinct craniofacial appearance, and spastic paraplegia: a new case and expansion of the phenotype. 1515 Jul 92

We found mutations in the gene PQBP1 in 5 of 29 families with nonsyndromic (MRX) and syndromic (MRXS) forms of X-linked mental retardation (XLMR). Clinical features in affected males include mental retardation, microcephaly, short stature, spastic paraplegia and midline defects. PQBP1 has previously been implicated in the pathogenesis of polyglutamine expansion diseases. Our findings link this gene to XLMR and shed more light on the pathogenesis of this common disorder.
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PMID:Mutations in the polyglutamine binding protein 1 gene cause X-linked mental retardation. 1463 49

X-linked hydrocephalus (hydrocephalus due to congenital stenosis of aqueduct of Sylvius; MIM number 307000) has a variable clinical expression. About 5% of cases of non-syndromal hydrocephalus are affected by this condition. The severe clinical phenotype is characterized by hydrocephalus and adducted thumbs in a newborn boy, the milder phenotype by mental retardation and spastic paraplegia. Female carriers may show mild features. Mutations in the LiCAM gene have been demonstrated to cause the condition. The gene is located at Xq28 and encodes for a cell surface glycoprotein that consists of an extracellular part with 6 immunoglobulin and 5 fibronectin type III-like domains, a single pass transmembrane domain and a short cytoplasmic domain. Mutations are documented in about 75% of classical cases. Reliable prenatal diagnosis is possible when a mutation has been documented.
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PMID:[From gene to disease; X-linked hydrocephalus and LiCAM]. 1532 48

X-linked hydrocephalus, HSAS (hydrocephalus due to stenosis of aqueduct of Sylvius), MASA (mental retardation, aphasia, shuffling gait, and adducted thumbs), and CRASH (corpus callosum hypoplasia, retardation, adducted thumbs, spastic paraplegia, and hydrocephalus) syndromes are allelic disorders. X-linked hydrocephalus and associated phenotypes are due to mutations in the L1CAM gene, which has been identified as a coding neural cell adhesion molecule. We report two cases of L1 spectrum disorders within the same family. The first case was diagnosed by ultrasonographic examination prenatally and the second case was diagnosed postnatally. Both patients and their mothers carry a novel mutation of the L1CAM gene. In this family, nine X-linked hydrocephalus and five female carriers were found in three generations, and molecular genetic analysis was performed to detect the asymptomatic carriers.
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PMID:A novel L1CAM mutation with L1 spectrum disorders. 1566 85

Thin corpus callosum has been recently observed in two patients with an autosomal dominant trait of hereditary spastic paraplegia (HSP) linked to a novel mutation in the spastin gene (SPG4). In the same two patients cerebellar atrophy has been found. Reportedly, in other members of the same family, there has been a variable presence of mental retardation. We report on the clinical and genetic investigation of an Austrian family with a novel mutation in the spastin gene. Genetic analysis of the SPG4 locus revealed a mutation (C1120A) and a known intronic polymorphism (996-47G>A) of the spastin gene. In one affected family member, previously undescribed dysplasia of the corpus callosum (CC) was found in conjunction with otherwise uncomplicated HSP. Dysplastic CC was not paralleled with cortical atrophy, cognitive impairment or other phenotypic variations. Two further affected family members showed the same mutation and polymorphism, but no evidence of CC abnormalities. We conclude that apparently pure HSP may present with MRI features of dysplastic CC. This finding extended the spastin-related phenotype which is distinct from previous reports of thin CC in HSP.
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PMID:Spastin related hereditary spastic paraplegia with dysplastic corpus callosum. 1600 77

Mutations in PQBP1 were recently identified in families with syndromic and non-syndromic X-linked mental retardation (XLMR). Clinical features frequently associated with MR were microcephaly and/or short stature. The predominant mutations detected so far affect a stretch of six AG dinucleotides in the polar-amino-acid-rich domain (PRD), causing frameshifts in the fourth coding exon. We searched for PQBP1 exon 4 frameshifts in 57 mentally retarded males in whom initial referral description indicated at least one of the following criteria: microcephaly, short stature, spastic paraplegia or family history compatible with XLMR, and in 772 mentally retarded males not selected for specific clinical features or family history. We identified a novel frameshift mutation (23 bp deletion) in two half-brothers with specific clinical features, and performed prenatal diagnosis in this family. We also found two different 21 bp in-frame deletions (c.334-354del(21 bp) and c.393-413del(21 bp)) in four unrelated probands from various ethnic origins, each deleting one of five copies of an imperfect seven amino-acid repeat. Although such deletions have not been detected in 1180 X chromosomes from European controls, the c. 334-354del(21 bp) was subsequently found in two of 477 Xs from Indian controls. We conclude that pathogenic frameshift mutations in PQBP1 are rare in mentally retarded patients lacking specific associated signs and that the 21 bp in-frame deletions may be non-pathogenic, or alternatively could act subtly on PQBP1 function. This touches upon a common dilemma in XLMR, that is, how to distinguish between mutations and variants that may be non-pathogenic or represent risk factors for cognitive impairment.
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PMID:Exonic microdeletions in the X-linked PQBP1 gene in mentally retarded patients: a pathogenic mutation and in-frame deletions of uncertain effect. 1649 39

Mutations in the L1CAM gene cause neurological abnormalities of variable severity, including congenital hydrocephalus, agenesis of the corpus callosum, spastic paraplegia, bilaterally adducted thumbs, aphasia, and mental retardation. Inter- and intrafamilial variability is a well-known feature of the L1CAM spectrum, and several patients have a combination of L1CAM mutations and Hirschsprung's disease (HSCR). We report on two siblings with a missense mutation in exon 7 (p.P240L) of the L1CAM gene. In one of the siblings, congenital dislocation of the radial heads and HSCR were present. Neither patient had hydrocephalus, adducted thumbs, or absent speech, but both had a hypoplastic corpus callosum. We suggest that L1CAM mutation testing should be considered in male patients with a positive family history compatible with X-linked inheritance and either the combination of agenesis of the CC and HSCR or the combination of agenesis of the CC and limb abnormalities, including abnormalities other than adducted thumbs.
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PMID:Expanding the phenotypic spectrum of L1CAM-associated disease. 1665 80

X-linked mental retardation has been traditionally divided into syndromic (S-XLMR) and non-syndromic forms (NS-XLMR), although the borderlines between these phenotypes begin to vanish and mutations in a single gene, for example PQBP1, can cause S-XLMR as well as NS-XLMR. Here, we report two maternal cousins with an apparently X-linked phenotype of mental retardation (MR), microphthalmia, choroid coloboma, microcephaly, renal hypoplasia, and spastic paraplegia. By multipoint linkage analysis with markers spanning the entire X-chromosome we mapped the disease locus to a 28-Mb interval between Xp11.4 and Xq12, including the BCOR gene. A missense mutation in BCOR was described in a family with Lenz microphthalmia syndrome, a phenotype showing substantial overlapping features with that described in the two cousins. However, no mutation in the BCOR gene was found in both patients. Subsequent mutation analysis of PQBP1, located within the delineated linkage interval in Xp11.23, revealed a 2-bp deletion, c.461_462delAG, that cosegregated with the disease. Notably, the same mutation is associated with the Hamel cerebropalatocardiac syndrome, another form of S-XLMR. Haplotype analysis suggests a germline mosaicism of the 2-bp deletion in the maternal grandmother of both affected individuals. In summary, our findings demonstrate for the first time that mutations in PQBP1 are associated with an S-XLMR phenotype including microphthalmia, thereby further extending the clinical spectrum of phenotypes associated with PQBP1 mutations.
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PMID:A two base pair deletion in the PQBP1 gene is associated with microphthalmia, microcephaly, and mental retardation. 1703 86

Mutations in the X-chromosomal gene (L1CAM) for cell adhesion molecule L1 are associated with a heterogeneous group of conditions that include agenesis of the corpus callosum, hydrocephalus, spastic paraplegia, adducted thumbs and mental retardation (L1-spectrum disease, CRASH or MASA syndrome). Although L1CAM is expressed during renal development and L1cam-deficient mice have congenital malformations of the kidney and the urinary tract, L1CAM mutations have not been associated with renal anomalies in men. We report on a boy with prenatally detected hydrocephalus. After his birth, bilateral duplex kidneys and ureters, with a unilateral mega-ureter serving a hydronephrotic upper pole, as well as agenesis of the corpus callosum, adducted thumbs, spasticity, and mental retardation were recognized, fulfilling the criteria of an L1-spectrum disease. Genetic testing of the patient and his mother identified a 2 bp deletion in the invariant splice consensus sequence of intron 18 of L1CAM, predicting a largely truncated or absent protein. At the age of 9 years, 7 years after heminephrectomy, the boy has normal renal function. This observation suggests that patients with L1CAM mutations may have renal abnormalities as seen in the L1cam-deficient mouse model. L1CAM might, therefore, also be considered a possible candidate gene for renal malformations.
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PMID:L1CAM mutation in a boy with hydrocephalus and duplex kidneys. 1729 22

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