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)

A grandfather with balanced translocation t(1:10) gave rise to three possible combinations involving chromosome 10: balanced translocation and trisomy for part of the short arm 10p13 leads to pter in the second generation, and mono- and trisomy 10p13 leads to pter in the third generation. The clinical signs and symptoms of the present case with monosomy 10p13 leads to pter are compared with those of 9 earlier reported cases with a deleted 10p. Together they represent a clinically recognizable syndrome with antimongoloid eye slant, ptosis, epicanthus, high arched or cleft palate, flat nasal bridge, micrognathia, small round and low-set ears, wide spaced nipples, cardiac and urinary tract abnormalities, hand and foot anomalies, hypoplasia/absence of the olfactory bulbs/tracts, psychomotor and growth retardation. More than 20 cases of the trisomy 10p syndrome have been described earlier. The most constant clinical findings are mental retardation, dolichocephaly, frontal bossing, broad nasal bridge, cheilo-palatoschisis, retrognathia and variable internal malformations. We found, however, the clinical characteristics in this syndrome more variable than for the monosomy 10p13 leads to pter syndrome. Our two cases, representing the eldest and the youngest described, have rather few of the typical characteristics, and few in common with each other. This indicates the difficulty in making this diagnosis on clinical features only without a cytogenetic verification.
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PMID:Two chromosomal syndromes in the same family: monosomy and trisomy for part of the short arm of chromosome 10. 715 37

Physical therapists employed in public schools may be responsible for the evaluation and treatment of not only physically handicapped children, but also children who have moderate to severe motor disabilities secondary to mental retardation. The purpose of this article is to suggest appropriate assessment and treatment techniques for these children. General principles of intervention based on neurophysiologic treatment approaches, particularly sensory integration, are described. Examples of specific assessment and treatment strategies are given for visual, auditory, tactile, olfactory-gustatory, proprioceptive-kinesthetic, and vestibular functions. In addition, self-stimulatory behaviors, tests of motor and reflex development, problems in muscle tone and strength, and variations in gait patterns are discussed.
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PMID:Assessment and treatment of the child with mental retardation. Guidelines for the public school therapist. 726 11

Duchenne muscular dystrophy is associated with mental retardation and several dystrophin transcripts are differentially expressed in specific brain areas. G-dystrophin (Dp71) is known to be the predominant isoform in the brain. We have localized its mRNA to be present predominantly in the dentate gyrus and in the olfactory bulb. This distribution is specific and significantly different from that for the full-size dystrophin transcripts, present mainly in CA regions of the hippocampus, in the cerebral cortex and in cerebellar Purkinje cells. Furthermore, our data show that the various dystrophins co-localize with the dystroglycan in the brain.
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PMID:Specific expression of G-dystrophin (Dp71) in the brain. 761 78

Duchenne muscular dystrophy (DMD) is accompanied by varying degrees of mental retardation. The molecular basis for this is unknown, although at least four dystrophin transcripts regulated by specific promoters and undergoing elaborate splicing control are present in brain areas associated with cognitive function. In muscle the absence of dystrophin causes instability of a dystrophin-associated protein complex (DAPC) linking the cytoskeleton to the extracellular matrix; this disruption is accompanied by muscle necrosis. The laminin-binding component of DAPC, dystroglycan, in contrast to other components of DAPC, has been found in brain homogenates. This suggests that the link between the membrane cytoskeleton and extracellular matrix mediated by dystrophin-dystroglycan may play a functional role in brain. We have cloned a mouse dystroglycan partial cDNA and have mapped this gene in the mouse to chromosome 9. Further, in situ hybridisation to mouse brain sections shows that the dystroglycan gene is expressed in relatively few structures and co-localises with dystrophin mRNA in hippocampus, dentate gyrus, olfactory bulb and Purkinje neurons but, surprisingly, not in the cortex. Dystroglycan is also expressed in those brain areas where the dystrophin-related protein (utrophin) is present. Our results provide a basis for a future characterisation of the role of dystrophin-dystroglycan association in the brain.
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PMID:Dystroglycan: brain localisation and chromosome mapping in the mouse. 783 16

Previous studies on the effect of hyperphenylalaninaemia on the development of the muscarinic acetylcholine receptor in the cerebrum of the rat, using alpha-methylphenylalanine-induced hyperphenylalaninaemia, have shown a gradual and steady decrease in the number of binding sites for this neurotransmitter. The HPH-5 mouse, a phenylalanine hydroxylase mutant, can be hyperphenylalaninaemic without the use of a hydroxylase inhibitor. By employing quantitative autoradiography using [3H]quinuclinidylbenzilate to label muscarinic acetylcholine receptors, a refined analysis of this decrease in neurotransmitter binding sites can be made. The decrease was confirmed and is therefore due to the hyperphenylalaninaemia per se and not to the use of the inhibitor. Various areas of the brain reacted differently to hyperphenylalaninaemia, from no change (putamen) to a gradual decrease (external layer of the olfactory bulb, parietal, occipital and cingulate areas of the cerebral cortex, CA1 and CA3 layer of the hippocampus) to a decrease preceded by a transient increase (frontal area of the cerebral cortex, caudate nucleus). The extent of these changes depends on the duration of exposure to hyperphenylalaninaemia as well as on the degree of brain maturation, but can even be observed in the brain of the adult mouse on a hyperphenylalaninaemic regimen for 11 days. Since the hippocampus has been shown to be involved in the long-term storage of information, damage to this structure by hyperphenylalaninaemia may provide a clue to the global mental retardation observed in untreated PKU.
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PMID:The effect of hyperphenylalaninaemia on the muscarinic acetylcholine receptor in the HPH-5 mouse brain. 812 72

We investigated olfactory identification in children and adults with Down's syndrome (DS) and idiopathic mental retardation (IMR) and in age-matched normal controls (NC). Identification was assessed with a four alternative-forced-choice task modified from the University of Pennsylvania Smell Identification Test (M-UPSIT) and a yes/no task yielding measures of discrimination and response bias for the same stimulus material. Control tactile identification tasks were also administered. Results were that odor identification performance on both tasks was specifically impaired in DS compared to IMR and NC. Accuracy of identification on the M-UPSIT correlated inversely with age in DS only. When uncertain, DS and IMR subjects guessed "yes" more often than "no" on the Yes/No task (liberal decision bias) and guessed the last response alternative on the M-UPSIT (recent position bias), whereas the normal subjects had neutral decision bias on the Yes/No task and matched the objective position presentation probabilities on the M-UPSIT. Decision bias correlated with accuracy of identification in both tasks for the DS subjects only.
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PMID:Olfactory identification deficits in Down's syndrome and idiopathic mental retardation. 823 53

The APC gene was identified in 1991 at chromosome 5 q 21, which is responsible for the familial adenomatous polyposis (FAP). The gene has been classified as one of the tumor suppressor genes. The APC gene mutations were suggested to initiate sporadic as well as inherited colorectal neoplasia and to be related to mental retardation. The different forms of APC gene expression and their association to carcinogenesis have been carefully studied. However, the function of APC gene in the central nervous system has not been known. In this study, on the basis of the cDNA cloning of APC homologue in the guinea pig by Dr. Fan Meng, we rescued this fragment including the full length encoding region from plasmid pMe 18s and then subcloned it into the polylink site of the plasmid pBluscript KS. Both digoxigenin labeled sense and anti-sense RNA were synthesized by in vitro transcription. RNase protection assay and in situ hybridization enable us to examine the distribution of APC transcripts in guinea pig brain. Strong signals were detected in hippocampus. APC mRNA was mainly localized in the pyramidal neurons of CA 1, CA 3, as well as in the dentate granule cells; the cerebellum granular cells also showed strong staining; in the cerebrum, the parietal and primary olfactory cortex showed stronger signals than the frontal cortex; in olfactory bulb, positive cells with strong signals were observed: the brain stem showed a relatively weaker staining. Very similar expression pattern was also shown in embryonic guinea pig brain; except that the expression of APC gene in frontal cortex and olfactory bulb was stronger than that in adult animals. The results suggest that the APC transcripts in brain may play an important role during the early development of the central nervous system. Further study may enable us to take a deeper insight into the mechanism underlying inherited mental deficiency.
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PMID:[The distribution of tumor suppressor gene APC mRNA in guinea pig brain]. 857 9

The minibrain (mnb) gene of Drosophila melanogaster encodes a serine-threonine protein kinase with an essential role in postembryonic neurogenesis. A corresponding human gene with similar function to mnb could provide important insights into both normal brain development and the abnormal brain development and mental retardation observed in many congenital disorders. Trisomy 21 or Down syndrome (DS) is the most frequent human birth defect. It is associated with mental retardation and a broad spectrum of physical abnormalities. A region on human chromosome 21 has been designated the Down syndrome critical region (DSCR) and when present in three copies, this is responsible for many of the characteristic features of DS, including mental retardation. We have isolated a human homologue of mnb from the DSCR. MNB encodes a 6.1 kb transcript which is expressed in foetal brain, lung, kidney and liver. Using a human probe, two major transcripts (6.1 and 3.1 kb) were identified in mouse and expression was detected in situ in several regions of the mouse brain, including the olfactory bulb, the cerebellum, the cerebral cortex, the pyramidal cell layer of the hippocampus and several hypothalamic nuclei. This expression pattern corresponds to the regions of the brain that are abnormal in individuals with DS and suggests that overexpression of MNB could have detrimental consequences in DS patients.
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PMID:A human homologue of Drosophila minibrain (MNB) is expressed in the neuronal regions affected in Down syndrome and maps to the critical region. 887 70

Tuberous sclerosis (TS) is an autosomal dominant disorder in which affected individuals manifest mental retardation, seizures, and a variety of benign and malignant tumors. The TSC2 tumor suppressor gene was recently identified by positional cloning and its protein product, tuberin, shown to represent one member of the rap GTPase activating protein (rapGAP) family. In order to determine the contribution of tuberin to the development of mental retardation and seizures in patients with TS, we examined the expression of tuberin in adult and developing nervous system tissues. Since tuberin is the second rapGAP found in the nervous system, the expression of tuberin was compared to the expression of rapGAP, rap1, and rap2. In this study, we demonstrate that tuberin is expressed at greatest levels in the spinal cord and cerebellum as opposed to rapGAP, which is not enriched in these tissues. Tuberin expression in the adult CNS is restricted to the olfactory bulb, several CNS neuronal populations, brainstem nuclei, cerebellar Purkinje cells, and motor neurons in the ventral spinal cord. In contrast, rapGAP is expressed in many different cell types in the adult CNS, but not in cerebellar Purkinje cells or motor neurons in the ventral spinal cord. However, there is significant expression of rapGAP in astrocytes. The restricted distribution of tuberin expression relative to rap1 and rapGAP suggests that tuberin may be the primary rap1 regulator in a subpopulation of CNS neurons.
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PMID:Expression of the tuberous sclerosis 2 gene product, tuberin, in adult and developing nervous system tissues. 917 18

Angelman syndrome (AS) is a human genetic disorder characterized by mental retardation, seizures, inappropriate laughter, abnormal galt, tremor and ataxia. There is strong genetic evidence that the disorder is associated with a maternally expressed, imprinted gene mapping to chromosome 15q11-13. Affected patients demonstrate varied molecular abnormalities, including large maternal deletions, uniparental paternal disomy (UPD). Imprinting mutations and loss of function mutations of E6-associated-protein (E6-AP) ubiquitin-protein ligase (UBE3A). All of these abnormalities are associated with loss of maternal expression of UBE3A. Although mutations in UBE3A cause AS, indicating that maternal-specific expression of UBE3A is essential for a normal phenotype, evidence for maternal-specific expression of UBE3A has been lacking. Using mice with partial paternal UPD encompassing Ube3a to differentiate maternal and paternal expression, we found by in situ hybridization that expression of Ube3a in Purkinje cells, hippocampal neurons and mitral cells of the olfactory bulb in UPD mice was markedly reduced compared to non-UPD littermates. In contrast, expression of Ube3a in other regions of the brain was only moderately or not at all reduced in UPD mice. The major phenotypic features of AS correlate with the loss of maternal-specific expression of Ube3a in hippocampus and cerebellum as revealed in the mouse model.
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PMID:Imprinted expression of the murine Angelman syndrome gene, Ube3a, in hippocampal and Purkinje neurons. 928 1

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