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)

Brachydactyly type E in two sibs with increased bone density and mental retardation. A new autosomal recessive syndrome?: We report on two sibs, a boy and a girl, with syndromic brachydactyly type E. Parents were first cousins. Facial dysmorphia was characterized by a flat occiput, a large forehead, hypertelorism, a long triangular nose, an everted lower lip, downslanting palpebral fissures and strabismus. They had marked shortening of the third, fourth and fifth fingers and of the third, fourth, and fifth toes. IQ was 16 in the boy, 63 in the girl. In both sibs ophtalmologic examination showed strabismus, absence of cataract and normal fundus and radiological findings disclosed increased bone density involving the skull, the vertebrae and the corticalis of the long bones. Neither ectopic calcifications, nor exostosic, nor osteomalacia, and nor osteotis fibrosa cystica were present. Investigations revealed that plasma calcium, phosphate, vitamine D, parathyroid hormone (PTH), response to exogenous PTH, and Gs activity were normal as well as renal and thyroid function. Molecular genetic studies failed to identify mutations in the GNAS 1 gene, in the PTH receptor gene and in the HOX D13 gene. Analysis of 2q showed that there was no deletion 2q37. Other known syndromes with brachydactyly type E and mental retardation were excluded. In conclusion we suggest that these two sibs with a combination of brachydactyly, mental retardation and increased bone density have a specific autosomal recessive syndrome.
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PMID:Brachydactyly type E in two sibs with increased bone density and mental retardation. A new autosomal recessive syndrome? 1565 17

We isolated a fragment of the fukutin gene promoter from differentiated human NT2 cells using chromatin immunoprecipitation technique with an anti-CREB antibody. This fragment contained a CRE-like sequence and here we describe its functional validation. The results showed that the element was functional in vitro and in vivo and that CREB in neurons was involved in the transcriptional regulation of the fukutin gene. Moreover, its expression in neurons was regulated by cAMP and calcium ions, known triggers of CREB phosphorylation. To our knowledge, this is the first report on the regulation of fukutin gene by transcription factor CREB in response to the signals generated by synaptic activity. The true biological function of fukutin, the gene responsible for Fukuyama-type congenital muscular dystrophy and mental retardation, is at present not known. However, it has been suggested that it might possess glycosyltransferase activity and its intracellular localization within the Golgi structures is consistent with this function. As such, fukutin might play a significant role in post-translational modification of synaptic proteins in neuronal cells.
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PMID:Identification of a functional CRE in the promoter of Fukuyama congenital muscular dystrophy gene fukutin. 1589 81

Fragile X syndrome, a common form of inherited mental retardation, is caused by the absence of the fragile X mental retardation protein (FMRP) due to a mutation in the FMR1 gene. We investigated the differentiation of neural stem cells generated from the brains of fmr1-knockout (KO) mice and from postmortem tissue of a fragile X fetus. Mouse and human FMRP-deficient neurospheres generated more TuJ1-positive cells (3-fold and 5-fold, respectively) than the control neurospheres generated from normal mouse and human brains, and these cells showed morphological alterations with fewer and shorter neurites and a smaller cell body volume. The number of cells expressing glial fibrillary acidic protein and generated by these neurospheres was reduced because of increased apoptotic cell death. Furthermore, there was an increase in a population of cells with intense oscillatory Ca2+ responses to neurotransmitters in differentiated cells lacking FMRP. In addition, the number of cells in a cohort of bromodeoxyuridine-labeled newborn cells was increased in the subventricular zone of the telencephalon of the fmr1-KO mouse in vivo. These results demonstrate substantial alterations in the early maturation of FMRP-deficient neural stem cells in fragile X syndrome and in the fmr1-KO mice.
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PMID:Altered differentiation of neural stem cells in fragile X syndrome. 1631 62

The fetal alcohol syndrome (FAS) is a known cause of mental retardation in humans. Studies based on experimental models of FAS have demonstrated deep alterations of the cerebral cortex. Here, the anatomical organization of cortical interneurons immunoreactive for different calcium binding proteins has been studied in adult rats exposed to alcohol inhalation during the first week of postnatal life. The main finding is represented by an increase of calretinin neurons in ethanol-treated animals compared to controls and by a corresponding decrease of calbindin neurons. The radial distribution of these neurons was also modified in ethanol-treated cases. These changes were evident both in the primary motor and somatosensory area. No significant differences were found in the number and distribution of parvalbumin interneurons. The functional implications of these data and their significance for FAS are discussed.
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PMID:Altered organization of cortical interneurons in rats exposed to ethanol during neonatal life. 1638 14

Down syndrome (DS) in humans, or trisomy of autosome 21, represents the hyperdiploidy that most frequently survives gestation, reaching an incidence of 1 in 700 live births. The condition is associated with multisystemic anomalies, including those affecting the central nervous system (CNS), determining a characteristic mental retardation. At a neuronal level, our group and others have shown that the condition determines marked alterations of action potential and ionic current kinetics, which may underlie abnormal processing of information by the CNS. Since the use of human tissue presents both practical and ethical problems, animal models of the human condition have been sought. Murine trisomy 16 (Ts16) is a model of the human condition, due to the great homology between human autosome 21 and murine 16. Both conditions share the same alterations of electrical membrane properties. However, the murine Ts16 condition is unviable (animals die in utero), thus limiting the quantity of tissue procurable. To overcome this obstacle, we have established immortal cell lines from normal and Ts16 mice with a method developed by our group that allows the stable in vitro immortalization of mammalian tissue, yielding cell lines which retain the characteristics of the originating cells. Cell lines derived from cerebral cortex, hippocampus, spinal cord and dorsal root ganglion of Ts16 animals show alterations of intracellular Ca2+ signals in response to several neurotransmitters (glutamate, acetylcholine, and GABA). Gene overdose most likely underlies these alterations in cell function, and the identification of the relative contribution of DS associated genes on such specific neuronal dysfunction should be investigated. This could enlighten our understanding on the contribution of these genes in DS, and identify new therapeutic targets.
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PMID:Neuronal dysfunction in Down syndrome: contribution of neuronal models in cell culture. 1664 56

Mutations or duplications in MECP2 cause Rett and Rett-like syndromes, neurodevelopmental disorders characterized by mental retardation, motor dysfunction, and autistic behaviors. MeCP2 is expressed in many mammalian tissues and functions as a global repressor of transcription; however, the molecular mechanisms by which MeCP2 dysfunction leads to the neural-specific phenotypes of RTT remain poorly understood. Here, we show that neuronal activity and subsequent calcium influx trigger the de novo phosphorylation of MeCP2 at serine 421 (S421) by a CaMKII-dependent mechanism. MeCP2 S421 phosphorylation is induced selectively in the brain in response to physiological stimuli. Significantly, we find that S421 phosphorylation controls the ability of MeCP2 to regulate dendritic patterning, spine morphogenesis, and the activity-dependent induction of Bdnf transcription. These findings suggest that, by triggering MeCP2 phosphorylation, neuronal activity regulates a program of gene expression that mediates nervous system maturation and that disruption of this process in individuals with mutations in MeCP2 may underlie the neural-specific pathology of RTT.
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PMID:Brain-specific phosphorylation of MeCP2 regulates activity-dependent Bdnf transcription, dendritic growth, and spine maturation. 1704 89

Down syndrome is determined by the presence of an extra copy of autosome 21 and is expressed by multiple abnormalities, with mental retardation being the most striking feature. The condition results in altered electrical membrane properties of fetal dorsal root ganglia (DRG) neurons, as in the trisomy 16 fetal mouse, an animal model of the human condition. Cultured trisomic DRG neurons from human and mouse fetuses present faster rates of depolarization and repolarization in the action potential compared to normal controls and a shorter spike duration. Also, trisomy 16 brain and spinal cord tissue exhibit reduced acetylcholine secretion. Therefore, we decided to study Ca2+ currents in cultured DRG neurons from trisomy 16 and age-matched control mice, using the whole-cell patch-clamp technique. Trisomic neurons exhibited a 62% reduction in Ca2+ current amplitude and reduced voltage dependence of current activation at -30 and -20 mV levels. Also, trisomic neurons showed slower activation kinetics for Ca2+ currents, with up to 80% increase in time constant values. Kinetics of the inactivation phase were similar in both conditions. The results indicate that murine trisomy 16 alter Ca2+ currents, which may contribute to impaired cell function, including neurotransmitter release. These abnormalities also may alter neural development.
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PMID:Altered calcium currents in cultured sensory neurons of normal and trisomy 16 mouse fetuses, an animal model for human trisomy 21 (Down syndrome). 1710 79

Canonical transient receptor potential 5 TRPC5 (also TrpC5, trp-5 or trp5) is one of the seven mammalian TRPC proteins. Its known functional property is that of a mixed cationic plasma membrane channel with calcium permeability. It is active alone or as a heteromultimeric assembly with TRPC1; TRPC4 and TRPC3 may also be involved. Multiple activators of TRPC5 are emerging, including various G protein-coupled receptor agonists, lysophospholipids, lanthanide ions and, in some contexts, calcium store depletion. Intracellular calcium has complex impact on TRPC5, including a permissive role for other activators, as well as inhibition at high concentrations. Protein kinase C is inhibitory and mediates desensitisation following receptor activation. Tonic TRPC5 activity is detected and may reflect the presence of constitutive activation signals. The channel has voltage dependence but the biological significance of this is unknown; it is partially due to intracellular magnesium blockade at aspartic acid residue 633. Protein partners include calmodulin, CaBP1, enkurin, Na(+)-H+ exchange regulatory factor (NHERF) and stathmin. TRPC5 is included in local vesicular trafficking regulated by growth factors through phosphatidylinositol (PI)-3-kinase, Rac1 and PIP-5-kinase. Inhibition of myosin light chain kinase suppresses TRPC5, possibly via an effect on trafficking. Biological roles of TRPC5 are emerging but more reports on this aspect are needed. One proposed role is as a mediator of calcium entry and excitation in smooth muscle, another as an inhibitor of neuronal growth cone extension. The latter is intriguing in view of the original cloning of the human TRPC5 gene from a region of the X chromosome linked to mental retardation. TRPC5 is a broadly expressed calcium channel with capability to act as an integrator of extracellular and intracellular signals at the level of calcium entry.
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PMID:Canonical transient receptor potential 5. 1721 53

The CC2D1A gene family consists of two homologous genes, Freud-1/CC2D1A and Freud-2/CC2D1B, that share conserved domains, including several DM14 domains that are specific to this protein family, a C-terminal helix-loop-helix domain, and a C2 calcium-dependent phospholipid binding domain. Although the function of Freud-2 is unknown, Freud-1 has been shown to function as a transcriptional repressor of the serotonin-1A receptor gene that binds to a novel DNA element (FRE, 5'-repressor element). The DNA binding and repressor activities of Freud-1 are inhibited by calcium-calmodulin-dependent protein kinase. Recently, a deletion in the CC2D1A gene has been linked to nonsyndromic mental retardation. This deletion results in the truncation of the helix-loop-helix DNA binding and the C2 domains, crucial for Freud-1 repressor activity, and hence is predicted to generate an inactive or weakly dominant negative protein. The possible mechanisms by which inactivation of Freud-1 could lead to abnormal cortical development and cognitive impairment and the potential roles of Freud-1 gene targets are discussed.
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PMID:The Freud-1/CC2D1A family: transcriptional regulators implicated in mental retardation. 1739 59

Null mutations in the IL1-receptor accessory protein-like 1 gene (IL1RAPL1) are responsible for an inherited X-linked form of cognitive impairment. IL1RAPL1 protein physically interacts with neuronal calcium sensor-1 (NCS-1), but the functional impact of the IL1RAPL1/NCS-1 interaction remains unknown. Here, we demonstrate that stable expression of IL1RAPL1 in PC12 cells induces a specific silencing of N-type voltage-gated calcium channels (N-VGCC) activity that explains a secretion deficit observed in these IL1RAPL1 cells. Importantly, this modulation of VGCC activity is mediated by NCS-1. Indeed, a specific loss-of-function of N-VGCC was observed in PC12 cells overexpressing NCS-1, and a total recovery of N-VGCC activity was obtained by a down-regulation of NCS-1 in IL1RAPL1 cells. The functional relevance of the interaction between IL1RAPL1 and NCS-1 was also suggested by the reduction of neurite elongation observed in nerve growth factor (NGF)-treated IL1RAPL1 cells, a phenotype rescued by NCS-1 inactivation. Because both proteins are highly expressed in neurons, these results suggest that IL1RAPL1-related mental retardation could result from a disruption of N-VGCC and/or NCS-1-dependent synaptic and neuronal activities.
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PMID:IL1-receptor accessory protein-like 1 (IL1RAPL1), a protein involved in cognitive functions, regulates N-type Ca2+-channel and neurite elongation. 1750 2

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