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)

Familial spastic paraplegia (FSP or SPG) is a genetically heterogeneous group of upper motor neuron syndromes. To date, two distinct loci for X-linked recessive type (SPG1 and SPG2), three loci for autosomal dominant type (FSP1, FSP2 and FSP3), and one locus for autosomal recessive type have been reported. SPG1 and SPG2 have been mapped to Xq28 and Xq21-q22, respectively. SPG1 shows a mutation in the gene for neural cell adhesion molecule L1 (LICAM), which is an axonal glycoprotein involved in neuronal migration and differentiation. Different mutations of the same L1 gene also cause. MASA (mental retardation, aphasia, spastic paraplegia, adducted thumbs) syndrome and X-linked hydrocephalus. SPG2 shows mutations in one of the major myelin proteins, the proteolipid protein (PLP) gene, and is allelic to Pelizaeus-Merzbacher disease. Thus, mutations in two functionally distinct genes manifest the phenotype of X-linked spastic paraparesis. Three dominantly inherited spastic paraplegia genes have been genetically mapped to regions of chromosomes, yet no specific genes or mutations have been identified. FSP1 is mapped to a region of 7 cM on chromosome 14q12-q23 (approximately 20% of dominant FSP families) and FSP2 to 4 cM on chromosome 2p21-p24 (approximately 70% of dominant FSP families). Anticipation (increasing clinical severity in successive generations) has been observed in both FSP1 and FSP2 families. Another autosomal dominant FSP (FSP3) has been mapped in the centromeric region of chromosome 15q (< 10% of dominant FSP families). An autosomal recessive FSP has been mapped to chromosome 8q. The definite genetic heterogeneity in FSP indicates that a multitude of genes/proteins can cause spastic paraplegia. Clinical features of each of the loci which may permit differential diagnosis are discussed. We also present pedigrees of two new FSP families.
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PMID:Molecular genetics of familial spastic paraplegia: a multitude of responsible genes. 878 67

X-linked hydrocephalus (HSAS) is the most common form of inherited hydrocephalus characterized by hydrocephalus due to stenosis of the aqueduct of Sylvius, mental retardation, clasped thumbs, and spastic paraparesis. MASA syndrome (mental retardation, aphasia, shuffling gait and adducted thumbs) and SPG1 (X-linked complicated spastic paraplegia) are also X-linked disorders with overlapping clinical signs. Linkage analysis studies implicated the neural cell adhesion molecule L1 (L1CAM) gene as a candidate gene for these X-linked disorders. This genetic study analyzes the L1CAM gene in a Japanese family with members suffering from HSAS, and describes a deletion of five nucleotides in exon 8. Screening by Bg1I digestion of polymerase chain reaction (PCR) products revealed that two siblings have the same mutation and a sister was identified as a heterozygous carrier. The 5 nucleotide deletion causes a shift of the reading frame and introduces a premature stop codon 72 nucleotides downstream, which might result in a truncated protein. The mutation identified herein is a novel L1CAM mutation, which triggers hydrocephalus. We report a unique L1CAM mutation that causes HSAS: the first report of such a mutation in a Japanese family.
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PMID:A deletion of five nucleotides in the L1CAM gene in a Japanese family with X-linked hydrocephalus. 878 80

Mutations in the gene encoding the neuronal cell adhesion molecule L1 are responsible for several syndromes with clinical overlap, including X-linked hydrocephalus (XLH, HSAS), MASA (mental retardation, aphasias, shuffling gait, adducted thumbs) syndrome, complicated X-linked spastic paraplegia (SP 1), X-linked mental retardation-clasped thumb (MR-CT) syndrome, and some forms of X-linked agenesis of the corpus callosum (ACC). We review 34 L1 mutations in patients with these phenotypes.
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PMID:The clinical spectrum of mutations in L1, a neuronal cell adhesion molecule. 882 52

We report a G-->A transition at nucleotide 431 of the proteolipid protein gene (PLP) results in a nonsense codon in a family with an unusual form of Pelizaeus-Merzbacher disease (PMD). The mutation, which creates a second AluI restriction site, results in a nonsense mutation in PLP. The clinical picture resembles somewhat that of X-linked spastic paraplegia (SPG). It differs from this and both the classical and connatal forms of PMD in that it is relatively mild in form, onset is delayed beyond age 2 years, nystagmus is absent, tremors are prominent, mental retardation is not severe, some patients show dementia or personality disorders, the disease is progressive rather than static in some, and several females show signs of disease. The nonsense mutation, which is in exon 3B, should block the synthesis of normal PLP but spare DM20, the isoform whose persistence has been associated with mild forms of PLP-associated disease in both humans and mice.
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PMID:Nonsense mutation in exon 3 of the proteolipid protein gene (PLP) in a family with an unusual form of Pelizaeus-Merzbacher disease. 905 47

X-linked hydrocephalus, MASA syndrome and certain forms of X-linked spastic paraplegia and agenesis of corpus callosum are now known to be due to mutations in the gene for the neural cell adhesion molecule L1 (19, 30). As a result, these syndromes have recently been reclassified as CRASH syndrome, an acronym for Corpus callosum hypoplasia, Retardation, Adducted thumbs, Spasticity and Hydrocephalus (8). A comparison of existing case reports with molecular genetic analysis reveals a striking correlation between the type of mutation in the L1CAM gene and the severity of the disease. Mutations that produce truncations in the extracellular domain of the L1 protein are more likely to produce severe hydrocephalus, grave mental retardation or early death than point mutations in the extracellular domain or mutations affecting only the cytoplasmic domain of the protein. While less severe than extracellular truncations, point mutations in the extracellular domain do produce more severe neurologic problems than mutations in just the cytoplasmic domain.
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PMID:CRASH syndrome: mutations in L1CAM correlate with severity of the disease. 926 56

15 families (27 patients) with hereditary spastic paraplegia (HSP) were found in the course of monogenic disorders investigation in 6 Russian populations. High HSP prevalence (7.21+1.61) x 10(-5) was found in Kirov Province [the frequency of the gene of autosomal-dominant form was (3.61 +/- 1.14) x 10(-5), autosomal-recessive-(64.5 +/- 9.74)- 10(-6)]. The pronounced interfamilial polymorphism of HSP was observed. Two families with rare autosomal-recessive variation of "clear" HSP as well as two families with HSP associated with peroneal amyotrophies were revealed. Accumulation of cases with unusual combination of autosomal-dominant HSP together with mental deficiency was remarkable in Kirov Province.
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PMID:[Hereditary spastic paraplegias: a comparative study of Russian populations]. 928 Dec 69

The neuronal cell adhesion molecule L1 (L1CAM) is a transmembrane glycoprotein belonging to the immunoglobulin superfamily and is essential in the development of the nervous system. It is mainly expressed on neurons and Schwann cells, and plays a key role in axon outgrowth and pathfinding through interactions with various extracellular ligands and intracellular second messenger systems. Mutations in L1 are responsible for a wide spectrum of neurologic abnormalities and mental retardation. This spectrum includes X-linked hydrocephalus, MASA syndrome, X-linked complicated spastic paraplegia type 1 and X-linked agenesis of the corpus callosum. These four diseases were initially described as distinct clinical entities with an overlapping clinical spectrum, but can now be lumped into one syndrome caused by mutations in the L1 gene. The main clinical features of this spectrum are Corpus callosum hypoplasia, mental Retardation, Adducted thumbs, Spastic paraplegia and Hydrocephalus, which has led to the acronym CRASH syndrome.
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PMID:L1-associated diseases: clinical geneticists divide, molecular geneticists unite. 930 Jun 53

The adhesion molecule L1 is a member of the immunoglobulin superfamily. L1 is involved in various recognition processes in the CNS and PNS, and binding to L1 can activate signal transduction pathways. Mutations in the human L1 gene are associated with a variable phenotype, including mental retardation and anomalous development of the nervous system, referred to as 'CRASH' (corpus callosum hypoplasia, retardation, adducted thumbs, spastic paraplegia, and hydrocephalus). We generated an animal model of these conditions by gene targetting. Mutant mice were smaller than wild-type and were less sensitive to touch and pain, and their hind-legs appeared weak and uncoordinated. The size of the corticospinal tract was reduced and, depending on genetic background, the lateral ventricles were often enlarged. Non-myelinating Schwann cells formed processes not associated with axons and showed reduced association with axons. In vitro, neurite outgrowth on an L1 substrate and fasciculation were impaired. The mutant mouse described here will help to elucidate the functions of L1 in the nervous system and how these depend on genetic influences.
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PMID:Disruption of the mouse L1 gene leads to malformations of the nervous system. 935 4

Mutations in the gene encoding neural cell adhesion molecule L1 (L1CAM) are involved in X-linked hydrocephalus (HSAS, hydrocephalus due to stenosis of the aqueduct of Sylvius), MASA syndrome (mental retardation, aphasia, shuffling gait, and adducted thumbs), and spastic paraplegia type 1. We examined the L1CAM mutation in a Japanese family with HSAS for the purpose of DNA-based genetic counseling. The proband was a 9-year-old boy who had a 1-bp deletion in exon 22 of the L1CAM gene. This resulted in a shift of the reading frame, and introduction of a premature stop codon. Translation of this mRNA will create a truncated protein without the transmembrane domain, which cannot be expressed on the cell surface. Magnetic resonance images (MRI) revealed markedly enlarged lateral ventricles, hypoplastic white matter, thin cortical mantle, agenesis of the corpus callosum and septum pellucidum, and a fused thalamus. These findings represented impaired L1CAM function during development of the nervous system with resultant adhesion between neurons, neurites outgrowth and fasciculation, and neural cell migration. Screening by Apa I digestion of polymerase chain reaction (PCR) products identified the mother and the younger sister as heterozygous carriers. The carriers were asymptomatic. The father and the other sister did not have the mutation. The identification of L1CAM mutation in families with HSAS will give them the opportunity for DNA-based counseling and prenatal diagnosis.
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PMID:L1CAM mutation in a Japanese family with X-linked hydrocephalus: a study for genetic counseling. 944 Aug 2

The L1 cell adhesion molecule (L1CAM) is a neuronal gene involved in the development of the nervous system. Mutations in L1CAM are known to cause several clinically overlapping X linked mental retardation conditions: X linked hydrocephalus (HSAS), MASA syndrome (mental retardation, aphasia, shuffling gait, adducted thumbs), spastic paraplegia type I (SPG1), and X linked agenesis of the corpus callosum (ACC). In an analysis of a family with HSAS, we identified a C-->T transition (C924T) in exon 8 that was initially thought to have no effect on the protein sequence as the alteration affected the third base of a codon (G308G). Extensive analysis of the other 27 exons showed no other alteration. A review of the sequence surrounding position 924 indicated that the C-->T transition created a potential 5' splice site consensus sequence, which would result in an in frame deletion of 69 bp from exon 8 and 23 amino acids of the L1CAM protein. RT-PCR of the RNA from an affected male fetus and subsequent sequence analysis confirmed the use of the new splice site. This is the first report of a silent nucleotide substitution in L1CAM giving rise to an alteration at the protein level. Furthermore, it shows that as mutation analysis plays an ever more important role in human genetics, the identification of a synonymous base change should not be routinely discounted as a neutral polymorphism.
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PMID:A silent mutation, C924T (G308G), in the L1CAM gene results in X linked hydrocephalus (HSAS). 964 85

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