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Query: UMLS:C0025362 (
mental retardation
)
15,878
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
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.
...
PMID:CRASH syndrome: mutations in L1CAM correlate with severity of the disease. 926 56
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.
...
PMID:L1-associated diseases: clinical geneticists divide, molecular geneticists unite. 930 Jun 53
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.
...
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.
...
PMID:A silent mutation, C924T (G308G), in the L1CAM gene results in X linked hydrocephalus (HSAS). 964 85
The L1CAM gene, which is located in Xq28 and codes for a neuronal cell adhesion molecule, is involved in three distinct conditions:
HSAS
(hydrocephalus-stenosis of the aqueduct of Sylvius), MASA (
mental retardation
, aphasia, shuffling gait, adductus thumbs), and SPG1 (spastic paraplegia). Molecular analysis of the L1CAM gene is labor-intensive because of the size of the coding region, which is fragmented in numerous exons, and because of the great allelic heterogeneity and distribution of the mutations. The FAMA (fluorescent assisted mismatch analysis) method combines the excellent sensitivity of the chemical cleavage method for scanning PCR fragments larger than 1 kb and the power of automated DNA sequencers. In order to optimize this method for L1CAM, we divided the gene into nine genomic fragments, each including three to four exons. These fragments were PCR-amplified using nine sets of primers containing additional rare universal sequences. A second-stage PCR, per formed with the two dye-labeled universal primers, allowed us to generate 1-kb-labeled fragments, which were then submitted to the chemical cleavage analysis. Among 12 French families with
HSAS
and/or MASA, we identified nine distinct L1CAM mutations, seven of which were novel, and an intronic variation. This study demonstrates that FAMA allows rapid and reliable detection of mutations in the L1CAM gene and thus represents one of the most appropriate methods to provide diagnosis for accurate genetic counseling in families with
HSAS
, MASA, or SPG1.
...
PMID:Identification of novel L1CAM mutations using fluorescence-assisted mismatch analysis. 974 77
L1 disease is a group of overlapping clinical phenotypes including
X-linked hydrocephalus
, MASA syndrome, spastic paraparesis type 1, and X-linked agenesis of corpus callosum. The patients are characterized by hydrocephalus, agenesis or hypoplasia of corpus callosum and corticospinal tracts,
mental retardation
, spastic paraplegia, and adducted thumbs. The responsible gene, L1CAM, encodes the L1 protein which is a member of the immunoglobulin superfamily of neuronal cell adhesion molecules. The L1 protein is expressed in neurons and Schwann cells and seems to be essential for nervous system development and function. The patients' gene mutations are distributed over the functional protein domains. The exact mechanisms by which these mutations cause a loss of L1 protein function are unknown. There appears to be a relationship between the patients' clinical phenotype and the genotype. Missense mutations in extracellular domains or mutations in cytoplasmic regions cause milder phenotypes than those leading to truncation in extracellular domains or to non-detectable L1 protein. Diagnosis of patients and carriers, including prenatal testing, is based on the characteristic clinical picture and DNA mutation analyses. At present, there is no therapy for the prevention or cure of patients' neurological disabilities.
...
PMID:Genetic and clinical aspects of X-linked hydrocephalus (L1 disease): Mutations in the L1CAM gene. 1143 88
Hydrocephalus-stenosis of the acqueduct of Sylvius sequence (HSAS) is characterized by hydrocephalus, macrocephaly, adducted thumbs, spasticity, agenesis of the corpus callosum and
mental retardation
.
X-linked hydrocephalus
is known to be due to mutations in the gene coding for the neural cell adhesion molecule L1 (L1-CAM) and diagnosis is made by identification of a mutation in the L1-CAM gene. Prenatal diagnosis of HSAS is usually suggested on ultrasound examination showing hydrocephalus in a male fetus associated with bilateral adducted thumbs. Mutation screening of the L1-CAM gene is indicated when neuropathological examination shows hypoplasia of the corticospinal tract associated with aqueductal stenosis. We report here two cases of HSAS diagnosed within the same family by ultrasound examination in the first trimester of pregnancy when bilateral adducted thumbs were the only early ultrasound marker.
...
PMID:Prenatal diagnosis of hydrocephalus-stenosis of the aqueduct of Sylvius by ultrasound in the first trimester of pregnancy. Report of two cases. 1178 37
Mutations in L1CAM, the gene encoding the transmembrane multifunctional neuronal adhesion molecule L1, are associated with neurodevelopmental disorders including
X-linked hydrocephalus
and
mental retardation
. Some amino acid substitutions in various extracellular domains of L1 are known to affect posttranslational processing of the protein or its homophilic and heterophilic interactions. It is largely unknown, however, how these mutations result in neurodevelopmental disturbances and whether the effects of mutations on neurodevelopment can be modeled in vitro. We stably expressed full-length human wild type L1 and the known pathogenic missense mutations I179S, R184W, Y194C, and C264Y in NIH-3T3 cells. L1 protein synthesis, glycosylation pattern, and subcellular localization were analyzed. Neurite outgrowth of primary murine cerebellar neurons was measured after 23 hrs of co-cultivation using transfected NIH-3T3 cells as substrate. Like wild type L1, L1 protein with I179S or Y194C mutations was localized on the surface of the transfected substrate cells, but this was not the case with R184W or C264Y mutations. All four mutations were associated with reduced stimulation of neurite outgrowth. Measurement of neurite outgrowth on transfected substrate cells may be a suitable model for studying neurodevelopmental disturbances.
...
PMID:Missense mutations in the extracellular domain of the human neural cell adhesion molecule L1 reduce neurite outgrowth of murine cerebellar neurons. 1244 87
L1 disease is a clinically heterogeneous X-chromosomal neurodevelopmental disorder that is frequently associated with
mental retardation
and congenital hydrocephalus in males. It is caused by mutations in L1CAM that encodes a multifunctional transmembrane neuronal cell adhesion molecule. We report our findings on 6 novel intronic L1CAM sequence variants (c.523+5G>A, c.1123+1G>A, c.1547-13delC, c.3323-17dupG, c.3457+3A>T, and c.3457+18C>T), and a recurrent one (c.523+12C>T). While the pathogenic potential of nucleotide changes within the evolutionarily well-conserved splice consensus sequence (c.523+5G>A, c.1123+1G>A, and c.3457+3A>T) is widely accepted, it is not always straight forward to assess the disease relevance of intronic mutations, if they lie outside the consensus. The c.523+12C>T variant co-segregated with
X-linked hydrocephalus
in two unrelated families. In the mutated allele, a preferentially used novel splice donor site is generated that results in a frame shift due to insertion of the first 10 bp of intron 5 in the mature mRNA, a largely truncated protein, and most likely a functional null allele. The c.1547-13delC mutation creates a new acceptor site resulting in the insertion of 4 additional amino acids at the end of the immunoglobulin like domain 5. In contrast, c.3323-17dupG and c.3457+18C>T seem to be non-pathogenic L1CAM variants.
...
PMID:Intronic mutations in the L1CAM gene may cause X-linked hydrocephalus by aberrant splicing. 1510 95
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.
...
PMID:[From gene to disease; X-linked hydrocephalus and LiCAM]. 1532 48
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