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Query: UMLS:C0025362 (
mental retardation
)
15,878
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To discover genes contributing to
mental retardation
in 3p- syndrome patients we have used in silico searches for neural genes in NCBI databases (dbEST and Uni-Gene). An EST with strong homology to the rat CAM L1 gene subsequently mapped to 3p26 was used to isolate a full-length cDNA. Molecular analysis of this cDNA, referred to as CALL (cell adhesion L1-like), showed that it is encoded by a chromosome 3p26 locus and is a novel member of the L1 gene family of neural cell adhesion molecules. Multiple lines of evidence suggest CALL is likely the human ortholog of the murine gene
CHL1
: it is 84% identical on the protein level, has the same domain structure, same membrane topology, and a similar expression pattern. The orthology of CALL and
CHL1
was confirmed by phylogenetic analysis. By in situ hybridization, CALL is shown to be expressed regionally in a timely fashion in the central nervous system, spinal cord, and peripheral nervous system during rat development. Northern analysis and EST representation reveal that it is expressed in the brain and also outside the nervous system in some adult human tissues and tumor cell lines. The cytoplasmic domain of CALL is conserved among other members of the L1 subfamily and features sequence motifs that may involve CALL in signal transduction pathways.
...
PMID:In silico-initiated cloning and molecular characterization of a novel human member of the L1 gene family of neural cell adhesion molecules. 979 93
Investigation of MR patients with 3p aberrations led to the identification of the translocation breakpoint in intron five of the neural Cell Adhesion L1-Like (CALL or
CHL1
) gene in a man with non-specific
mental retardation
and 46,Y, t(X;3)(p22.1;p26.3). The Xp breakpoint does not seem to affect a known or predicted gene. Moreover, a fusion transcript with the CALL gene could not be detected and no mutations were identified on the second allele. CALL is highly expressed in the central and peripheral nervous system, like the mouse ortholog 'close homolog to L1' (Chl1). Chl1 expression levels in the hippocampus of Chl1(+/-) mice were half of those obtained in wild-type littermates, reflecting a gene dosage effect. Timm staining and synaptophysin immunohistochemistry of the hippocampus showed focal groups of ectopic mossy fiber synapses in the lateral CA3 region, outside the trajectory of the infra-pyramidal mossy fiber bundle in Chl1(-/-) and Chl1(+/-) mice. Behavioral assessment demonstrated mild alterations in the Chl1(-/-) animals. In the probe trial of the Morris Water Maze test, Chl1(-/-) mice displayed an altered exploratory pattern. In addition, these mice were significantly more sociable and less aggressive as demonstrated in social exploration tests. The Chl1(+/-) mice showed a phenotypic spectrum ranging from wild-type to knockout behavior. We hypothesize that a 50% reduction of CALL expression in the developing brain results in cognitive deficits. This suggests that the CALL gene at 3p26.3 is a prime candidate for an autosomal form of
mental retardation
. So far, mutation analysis of the CALL gene in patients with non-specific MR did not reveal any disease-associated mutations.
...
PMID:CALL interrupted in a patient with non-specific mental retardation: gene dosage-dependent alteration of murine brain development and behavior. 1281 75
Distal deletion of chromosome 3p25-pter (3p- syndrome) produces a distinct clinical syndrome characterized by low birth weight,
mental retardation
, telecanthus, ptosis, and micrognathia. Congenital heart disease (CHD), typically atrioventricular septal defect (AVSD) occurs in about a third of patients. Previously we reported on an association between the presence of CHD and the proximal extent of the deletion such that a CHD susceptibility gene was mapped between D3S1263 and D3S3594. In addition, we and others have suggested several candidate genes for the psychomotor retardation usually seen with constitutional 3p25 deletions. In order to further investigate genotype-phenotype correlations in 3p- syndrome we analyzed 14 patients with cytogenetically detectable deletions of 3p25 (including one patient with a normal phenotype) using Affymetrix 250K SNP microarrays. Deletion size varied from approximately 6 to 12 Mb. Assuming complete penetrance, a candidate critical region for a CHD susceptibility gene was refined to approximately 200 kb and a candidate critical region for
mental retardation
was mapped to an approximately 1 Mb interval containing SRGAP3 but other 3p neurodevelopmental genes including
CHL1
, CNTN4, LRRN1, and ITPR1 mapped outside the candidate critical interval. We suggest that current evidence suggests that SRGAP3 is the major determinant of
mental retardation
in distal 3p deletions.
...
PMID:Microarray based analysis of 3p25-p26 deletions (3p- syndrome). 1976 Jun 23
The 3p deletion syndrome is a rare disorder caused by deletions of different sizes in the 3p25-pter region. It is characterized by growth retardation, developmental delay,
mental retardation
, dysmorphism, microcephaly, and ptosis. The phenotype of individuals with deletions varies from normal to severe. Most cases occur de novo, but a few familial cases have been reported. We describe two families with terminal 3p deletions and extremely variable clinical features. In family A, the mother and daughter were extremely mildly affected whereas the son had more severe clinical features. In family B, the mother was normal and her son was affected, having some symptoms that had not been described in the 3p deletion syndrome before. The deletions were characterized by genome-wide SNP array analysis and were 9 and 1.1 Mb in size. Sequencing analysis of the
CHL1
, CNTN4, and CRBN genes did not reveal any masked recessive alleles that might explain the more severe phenotypes in the probands. In family A, the 9 Mb deletion can be considered causal for the 3p deletion syndrome in the proband, but the extremely mild phenotype in the other family members remains unexplained. In family B, the 1.1 Mb terminal deletion encompasses only the
CHL1
gene, which is insufficient to cause 3p deletion symptoms; thus the clinical features observed in this family may have a different cause. The variable penetrance of 3p deletions creates challenges in genetic counseling, as the phenotype of the offspring cannot be predicted based on chromosomal and/or genome-wide array analytical findings.
...
PMID:Terminal 3p deletions in two families--correlation between molecular karyotype and phenotype. 2010 86
Understanding how cognitive processes including learning, memory, decision making and ideation are encoded by the genome is a key question in biology. Identification of sets of genes underlying human mental disorders is a path towards this objective. Schizophrenia is a common disease with cognitive symptoms, high heritability and complex genetics. We have identified genes involved with schizophrenia by measuring differences in DNA copy number across the entire genome in 91 schizophrenia cases and 92 controls in the Scottish population. Our data reproduce rare and common variants observed in public domain data from >3000 schizophrenia cases, confirming known disease loci as well as identifying novel loci. We found copy number variants in PDE10A (phosphodiesterase 10A), CYFIP1 [cytoplasmic FMR1 (Fragile X
mental retardation
1)-interacting protein 1], K(+) channel genes KCNE1 and KCNE2, the Down's syndrome critical region 1 gene RCAN1 (regulator of calcineurin 1), cell-recognition protein
CHL1
(cell adhesion molecule with homology with L1CAM), the transcription factor SP4 (specificity protein 4) and histone deacetylase HDAC9, among others (see http://www.genes2cognition.org/SCZ-CNV). Integrating the function of these many genes into a coherent model of schizophrenia and cognition is a major unanswered challenge.
...
PMID:Confirmed rare copy number variants implicate novel genes in schizophrenia. 2029
In humans, deletions/mutations in the
CHL1
/CALL gene are associated with
mental retardation
and schizophrenia. Juvenile
CHL1
-deficient (
CHL1
(-/-) ) mice have been shown to display abnormally high numbers of parvalbumin-expressing (PV(+) ) hippocampal interneurons and, as adults, display behavioral traits observed in neuropsychiatric disorders. Here, we addressed the question whether inhibitory interneurons and synaptic plasticity in the
CHL1
(-/-) mouse are affected during brain maturation and in adulthood. We found that hippocampal, but not neocortical, PV(+) interneurons were reduced with age in
CHL1
(-/-) mice, from a surplus of +27% at 1 month to a deficit of -20% in adulthood compared with wild-type littermates. This loss occurred during brain maturation, correlating with microgliosis and enhanced interleukin-6 expression. In parallel with the loss of PV(+) interneurons, the inhibitory input to adult CA1 pyramidal cells was reduced and a deficit in short- and long-term potentiation developed at CA3-CA1 excitatory synapses between 2 and 9 months of age in
CHL1
(-/-) mice. This deficit could be abrogated by a GABAA receptor agonist. We propose that region-specific aberrant GABAergic synaptic connectivity resulting from the mutation and a subsequently enhanced synaptic elimination during brain maturation lead to microgliosis, increase in pro-inflammatory cytokine levels, loss of interneurons, and impaired synaptic plasticity. Close homolog of L1-deficient (
CHL1
(-/-) ) mice have abnormally high numbers of parvalbumin (PV)-expressing hippocampal interneurons in juvenile animals, but in adult animals a loss of these cells is observed. This loss correlates with an increased density of microglia (M), enhanced interleukin-6 (IL6) production and a deficit in short- and long-term potentiation at CA3-CA1 excitatory synapses. Furthermore, adult
CHL1
(-/-) mice display behavioral traits similar to those observed in neuropsychiatric disorders of humans.
...
PMID:Age-dependent loss of parvalbumin-expressing hippocampal interneurons in mice deficient in CHL1, a mental retardation and schizophrenia susceptibility gene. 2628 62
Martin-Bell syndrome is mainly caused by the expansion of CGG trinucleotide repeats (>200 CGG) in the first exon of the FMR1 gene, leading to hypermethylation of the promoter region and silencing of the FMR1 protein expression. These changes are responsible for a phenotype with varying degrees of
mental retardation
, a long face with large and protruding ears, macroorchidism and autistic behavior. There may also be, however, patients who exhibit typical features of the syndrome without any expansion in the FMR1 gene; thus, other mechanisms affecting the expression of the FMR1 gene were assessed in 25 out of 29 ascertained patients with the typical phenotype without full mutation. Promoter methylation status of FMR1, mutations in its sequence and copy number variations (CNVs) in genes associated with intellectual disability were investigated. In 25 independent male patients without expansion, the promoter region was unmethylated; one patient with a full mutation showed methylation mosaicism; and a female patient had 81.2% of CpG sites methylated and 18.8% hemimethylated. One heterozygous duplication in exon 6 of the PDCD6 gene (programmed cell death 6) and a heterozygous deletion in exon 5 of the
CHL1
gene (cell adhesion molecule L1), respectively, were found in two independent patients.
...
PMID:Most Martin-Bell syndrome (FMR1-related disorder) Venezuelan patients did not show CGG expansion but instead display genetic heterogeneity. 2770 71
