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)

An 8-year old girl with a not previously described type of complicated hereditary spastic paraplegia (HSP) is presented. Spasticity in her lower limbs had already been recognized during infancy and worsened progressively. Severe delay in mental development was observed. Peripheral neuropathy and optic atrophy developed at 5 years of age. On brain magnetic resonance imaging, an abnormally thin corpus callosum was observed. Involvement of the fasciculus gracilis was suggested by somatosensory evoked potentials. To our knowledge, there has been no reported case of complicated HSP with peripheral neuropathy, optic atrophy and mental retardation so far. We postulate that our patient is a sporadic case of not previously described complicated HSP.
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PMID:Complicated hereditary spastic paraplegia with peripheral neuropathy, optic atrophy and mental retardation. 1107 Nov 49

We report a 48-year-old woman with familial spastic paraplegia (FSP) showing mental retardation, amyotrophy and sensory disturbance. Her parents were second cousins and there were two other affected siblings in the family. Autopsy revealed degenerative lesions characterized by neuronal loss and gliosis in the upper and lower motor neuron systems, thalamus, lateral geniculate body, dentate nucleus and posterior column of the spinal cord. The remaining neurons often contained ubiquitinated lipofuscin granules. Although the corpus callosum was severely attenuated, it exhibited well-preserved myelination and only minimal gliosis. In the substantia nigra, the number of pigmented neurons was apparently low, but there was slight gliosis and no extraneuronal free melanin pigment in the background. The neurons in this brain region contained much smaller amounts of melanin pigment than might be expected for the patient's age. These findings suggest that this is an example of a family with autosomal recessive FSP with thin corpus callosum, and that maldevelopment of the corpus callosum and substantia nigra is a characteristic feature of the disease.
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PMID:Autosomal recessive spastic paraplegia with hypoplastic corpus callosum, multisystem degeneration and ubiquitinated eosinophilic granules. 1119 44

The neural adhesion molecule L1 mediates the axon outgrowth, adhesion, and fasciculation that are necessary for proper development of synaptic connections. L1 gene mutations are present in humans with the X-linked mental retardation syndrome CRASH (corpus callosum hypoplasia, retardation, aphasia, spastic paraplegia, hydrocephalus). Three missense mutations associated with CRASH syndrome reside in the cytoplasmic domain of L1, which contains a highly conserved binding region for the cytoskeletal protein ankyrin. In a cellular ankyrin recruitment assay that uses transfected human embryonic kidney (HEK) 293 cells, two of the pathologic mutations located within the conserved SFIGQY sequence (S1224L and Y1229H) strikingly reduced the ability of L1 to recruit 270 kDa ankyrinG protein that was tagged with green fluorescent protein (ankyrin-GFP) to the plasma membrane. In contrast, the L1 missense mutation S1194L and an L1 isoform lacking the neuron-specific sequence RSLE in the cytoplasmic domain were as effective as RSLE-containing neuronal L1 in the recruitment of ankyrin-GFP. Ankyrin binding by L1 was independent of cell-cell interactions. Receptor-mediated endocytosis of L1 regulates intracellular signal transduction, which is necessary for neurite outgrowth. In rat B35 neuroblastoma cell lines stably expressing L1 missense mutants, antibody-induced endocytosis was unaffected by S1224L or S1194L mutations but appeared to be enhanced by the Y1229H mutation. These results suggested a critical role for tyrosine residue 1229 in the regulation of L1 endocytosis. In conclusion, specific mutations within key residues of the cytoplasmic domain of L1 (Ser(1224), Tyr(1229)) destabilize normal L1-ankyrin interactions and may influence L1 endocytosis to contribute to the mechanism of neuronal dysfunction in human X-linked mental retardation.
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PMID:Cytoplasmic domain mutations of the L1 cell adhesion molecule reduce L1-ankyrin interactions. 1122 39

The authors studied two families with autosomal recessive hereditary spastic paraplegia (HSP) complicated by the presence of additional symptoms of pigmented maculopathy, distal amyotrophy, dysarthria, mental retardation, and further intellectual deterioration. Evidence was obtained for linkage to a locus on chromosome 14q that is distinct from the SPG3 locus for autosomal dominant HSP (D14S77: lod score of 4.20 at zero recombination). Haplotype construction of nearby markers confirms the existence of this novel HSP locus (SPG15) and narrows it to a 19-cM interval flanked by D14S1038 and D14S61.
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PMID:SPG15, a new locus for autosomal recessive complicated HSP on chromosome 14q. 1134 96

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.
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PMID:Genetic and clinical aspects of X-linked hydrocephalus (L1 disease): Mutations in the L1CAM gene. 1143 88

Since the identification of the ATRX gene (synonyms XNP, XH2) in 1995, it has been shown to be the disease gene for numerous forms of syndromal X-linked mental retardation [X-linked alpha thalassemia/mental retardation (ATR-X) syndrome, Carpenter syndrome, Juberg-Marsidi syndrome, Smith-Fineman-Myers syndrome, X-linked mental retardation with spastic paraplegia]. An attempt is made in this article to review the clinical spectrum associated with ATRX mutations and to analyse the evidence for any genotype/phenotype correlation.
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PMID:Molecular-clinical spectrum of the ATR-X syndrome. 1144 89

We reported three siblings with complicated hereditary spastic paraplegia. The striking features in these patients were characterized by early onset of gait disturbance, mental deficiency, and dystonia. The most likely diagnosis was Mast syndrome. Patient 1: A 44 years-old woman. She first developed gait disturbances at age of 8. She was admitted in our hospital because of progressive spastic paraplegia. Neurological examination revealed mental deficiency, saccadic pursuit eye movement, speech disturbance of cerebellar type, ataxia, and spastic paraplegia. She showed also dystonia in the face, tongue, and trunk. MRI showed cerebellar atrophy. Patient 2: A 51 years-old brother of the patient 1. He had mentally retarded. Late teens he developed gait disturbance. Gradually he manifested spastic paraplegia, dysarthria, dysphasia, mental deficiency, and ataxia. He also showed incontinence of urine and feces. Then he became bedridden, apathetic, and showed forced crying. MRI showed diffuse brain atrophy. Patient 3: A 48 year-old woman. This woman, a sister of the patient 1, showed progressive gait disturbance and dysarthria. She also developed incontinence, apathy, and dystonia. She became bedridden, responding to simple questions with only occasional single-word answers. Her speech was slurred, and spastic paraplegia was noted. MRI showed diffuse brain atrophy including marked atrophy of the cerebellum.
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PMID:[A family of hereditary spastic paraplegia with dementia, ataxia, and dystonia]. 1199 89

The L1 adhesion molecule regulates axon growth and is mutated in the X-linked mental retardation syndrome CRASH (acronym for corpus callosum agenesis, retardation, aphasia, spastic paraplegia, hydrocephalus). A novel role for L1 as a potentiator of neuronal cell migration to extracellular matrix proteins through beta1 integrins and intracellular signaling to mitogen-activated protein (MAP) kinase was identified. L1 potentiated haptotactic migration of B35 neuroblastoma cells toward fibronectin, vitronectin, and laminin through the signaling intermediates c-Src, phosphatidylinositol-3 kinase, and MAP kinase. L1 potentiated migration toward fibronectin through alpha5beta1 integrin in human embryonic kidney 293 cells and depended on determinants of L1 endocytosis: dynamin I, c-Src, and the AP2/clathrin binding site (Arg-Ser-Leu-Glu) in the neuronal splice form of L1. L1 clustering on the cell surface enhanced the internalization of activated beta1 integrins and L1 into distinct endocytic vesicles. L1-potentiated migration, enhancement of beta1 integrin endocytosis, and activation of MAP kinase were coordinately inhibited by mutation of an RGD sequence in the sixth immunoglobulin-like domain of L1. Moreover, three CRASH mutations in the L1 cytoplasmic domain (1194L, S1224L, Y1229H), two of which interfere with ankyrin association, inhibited L1-potentiated migration and MAP kinase activation. Function-blocking antibodies to L1 and beta1 integrin retarded the migration of 5-bromo-2'-deoxyuridine-labeled mouse cerebellar granule cells in slice cultures, underscoring the potential physiological relevance of these findings. These studies suggest that L1 functionally interacts with beta1 integrins to potentiate neuronal migration toward extracellular matrix proteins through endocytosis and MAP kinase signaling, and that impairment of this function by L1 cytoplasmic domain mutations may contribute to neurological deficits in CRASH.
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PMID:The neural cell adhesion molecule L1 potentiates integrin-dependent cell migration to extracellular matrix proteins. 1207 89

Two families, originally diagnosed as having nonsyndromic X-linked mental retardation (NSXLMR), were reviewed when it was shown that they had a 24-bp duplication (428-45 1dup(24bp)) in the ARX gene [Stromme et al., 2002: Nat Genet 30:441-445]. This same duplication had also been found in three other families: one with X-linked infantile spasms and hypsarrhythmia (X-linked West syndrome, MIM 308350) and two with XLMR and dystonic movements of the hands (Partington syndrome, MIM 309510). On review, manifestations of both West and Partington syndromes were found in some individuals from both families. In addition, it was found that one individual had autism and two had autistic behavior, one of whom had epilepsy. The degree of mental retardation ranged from mild to severe. A GCG trinucleotide expansion (GCG)10+7 and a deletion of 1,517 bp in the ARX gene have also been found in association with the West syndrome, and a missense mutation (1058C>T) in a family with a newly recognized form of myoclonic epilepsy, severe mental retardation, and spastic paraplegia [Scheffer et al., 2002: Neurology, in press]. Evidently all these disorders are expressions of mutations in the same gene. It remains to be seen what proportions of patients with infantile spasms, focal dystonia, autism, epilepsy, and nonsyndromic mental retardation are accounted for by mutations in the ARX gene.
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PMID:Variable expression of mental retardation, autism, seizures, and dystonic hand movements in two families with an identical ARX gene mutation. 1237 46

Neural cell adhesion molecule L1 is an important molecule mediating cell-cell interactions during the development of nervous system. L1 can promote axonal outgrowth and is related with nerve cell migration, and therefore L1 plays an important role both in the development and maintaince of the nervous system. In humans, mutations in the L1 gene can lead to mental retardation, spastic paraplegia, hydrocephalus, and other developmental abnormalities. The molecular mechanisms of mutations in L1 gene to induce inherited neurological diseases are not clear. In present investigation, a transgenic DNA of mouse L1 extracellular domain (L1ECD) was constructed by adding a stop codon to the end of L1ECD cDNA and then putting it under the control of CAMK II promoter, which is active specifically in the brain. To verify this construct, L1ECD cDNA was subcloned into an expression vector pCEP4 and then transfected the C6 cells. The expression of L1ECD cDNA in C6 cells was confirmed by Northern blotting and the effects of L1ECD on the growth rate and morphology of C6 cells in vitro as well as primarily cultured neurons were observed. The L1ECD constructs were microinjected into the fertilized zygotes of C57BL/6 mice. The transgenic mice thus produced were identified by Southern and Northern hybridization analysis. The results demonstrated that the L1ECD was integrated in the genome of transgenic mice and expressed specifically in the brain.
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PMID:[Effect of L1ECD on mouse primarily cultured neurons and construction of transgenic mice specifically expressing L1ECD in brain]. 1254 2

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