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)

To understand the commitment of the genome to nervous system differentiation and function, we sought to compare nervous system gene expression to that of a wide variety of other tissues by gene expression database construction and mining. Gene expression profiles of 10 different adult nervous tissues were compared with that of 72 other tissues. Using ANOVA, we identified 1,361 genes whose expression was higher in the nervous system than other organs and, separately, 600 genes whose expression was at least threefold higher in one or more regions of the nervous system compared with their median expression across all organs. Of the 600 genes, 381 overlapped with the 1,361-gene list. Limited in situ gene expression analysis confirmed that identified genes did represent nervous system-enriched gene expression, and we therefore sought to evaluate the validity and significance of these top-ranked nervous system genes using known gene literature and gene ontology categorization criteria. Diverse functional categories were present in the 381 genes, including genes involved in intracellular signaling, cytoskeleton structure and function, enzymes, RNA metabolism and transcription, membrane proteins, as well as cell differentiation, death, proliferation, and division. We searched existing public sites and identified 110 known genes related to mental retardation, neurological disease, and neurodegeneration. Twenty-one of the 381 genes were within the 110-gene list, compared with a random expectation of 5. This suggests that the 381 genes provide a candidate set for further analyses in neurological and psychiatric disease studies and that as a field, we are as yet, far from a large-scale understanding of the genes that are critical for nervous system structure and function. Together, our data indicate the power of profiling an individual biologic system in a multisystem context to gain insight into the genomic basis of its structure and function.
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PMID:Neural system-enriched gene expression: relationship to biological pathways and neurological diseases. 1512 45

Psychiatric and neurologic disorders ranging from mental retardation to addiction are accompanied by structural and functional alterations of synaptic connections in the brain. Such alterations include abnormal density and morphology of dendritic spines, synapse loss, and aberrant synaptic signaling and plasticity. Recent work is revealing an unexpectedly complex biochemical and subcellular organization of dendritic spines. In this review, we highlight the molecular interplay between functional domains of the spine, including the postsynaptic density, the actin cytoskeleton, and membrane trafficking domains. This research points to an emerging level of analysis--a microanatomical understanding of synaptic physiology--that will be critical for discerning how synapses operate in normal physiologic states and for identifying and reversing microscopic changes in psychiatric and neurologic disease.
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PMID:Microanatomy of dendritic spines: emerging principles of synaptic pathology in psychiatric and neurological disease. 1518 30

The CNS infection by HIV-1 in infancy could be present immediately after infection or became manifest later. Microcephalia, mental retardation, pyramidal signs, humor and behavioral disorders and antiretroviral therapy complications are common. This is an observational, sectional and descriptive study about findings on neurological examination of 173 patients in a group of children and adolescents infected and exposed to HIV-1 in perinatal period. Most of them had more than one neurological finding or different diagnosis. The more common findings were: encephalopathy, mental retardation, language delay, pyramidal signs, hyporeflexia. The neurological examination was abnormal in 67% of all patients even in seroreverters. We suggest that this group has a high risk to neurological disease and the development of co-morbidity is directly correlated to clinical deterioration by HIV-1 infection.
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PMID:[Neurological findings in a group of children and adolescents exposed and infected by HIV-1]. 1625 64

The juvenile form of neuronal ceroid lipofuscinosis (JNCL) is caused by mutations in the CLN3 gene, and is characterized by progressive loss of vision and development of motor deficits. A few patients exhibit a more protracted clinical course and are diagnosed with protracted JNCL (PJNCL). Here, we report the autopsy in a case of PJNCL in a 55-year-old male and immunohistochemical examination of the involvement of oxidative stress and glutamate excitotoxicity in neurodegeneration. The patient was born to consanguineous parents (I assume this means that the parents were related. If not, then the sentence will need to be changed again.) and had brothers with similar neurological disease. He showed mental retardation and visual impairment in the first decade which gradually developed along with motor dysfunction for over 40 years. At autopsy, the cerebral pyramidal neurons revealed deposition of lipopigments, which demonstrated 'finger print' and curvilinear profiles on electron microscopy. He also exhibited cerebellar cortical atrophy, fibrillary gliosis in the white matter, and rarefication in the globus pallidus. Immunohistochemically, the number of neurons immunoreactive for advanced glycation end product was elevated in the cerebellar cortex and midbrain. Immunoreactivity for excitatory amino acid transporter 1 was reduced in the cerebellar dentate and inferior olivary nuclei. These findings suggest that oxidative damage to proteins and disturbed glutamate transport can be involved in PJNCL.
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PMID:Protracted juvenile neuronal ceroid lipofuscinosis--an autopsy report and immunohistochemical analysis. 1650 90

Symptoms of fecal impaction extend from constipation, anorexia, nausea, vomiting and abdominal pain, to full blown sepsis. We present the case of a patient with cerebral palsy and mental retardation, who presented to the Emergency Department with a 3-day history of diffuse abdominal pain and fecal incontinence. Evaluation revealed severe fecal impaction. The patient developed systemic inflammatory response syndrome (SIRS), with negative workup for underlying etiology. He responded well to digital disimpaction and antibiotics. Our case illustrates the serious sequelae of fecal impaction, which should be considered in patients with neurologic disorders and SIRS.
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PMID:Fecal impaction and systemic inflammatory response syndrome in a young male with cerebral palsy. 1671 17

We present the clinical and laboratory features of two unrelated mentally retarded females with sporadic bilateral periventricular nodular heterotopia (BPNH), hypoplastic/absent nails and other malformative features. Clinical examination, MRI scanning, EEG recording, karyotyping and neuropsychological testing were performed. From a molecular genetic point of view, direct sequencing analysis, X-inactivation assay and telomere analysis were carried out in one patient. The two patients showed convincing similarities from clinical and neuroradiological points of view with BPNH, mental retardation, microcephaly and hypoplastic/absent nails of fingers and toes. Our two unrelated mentally retarded females may be affected by complex malformative syndromes sharing some common features such as BPNH, mental retardation and hypoplastic/absent nails. Further genetic studies are needed to better understand the pathogenetic bases of this neurological disease. These two cases widen the spectrum of BPNH-associated syndromes.
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PMID:Nail aplasia, microcephaly, severe mental retardation and MRI abnormalities: report of two unrelated cases. 1720 29

Cortical interneuron dysfunction has been implicated in multiple human disorders including forms of epilepsy, mental retardation, and autism. Although significant advances have been made, understanding the biologic basis of these disorders will require a level of anatomic, molecular, and genetic detail of interneuron development that currently does not exist. To further delineate the pathways modulating interneuron development we performed fluorescent activated cell sorting (FACs) on genetically engineered mouse embryos that selectively express green fluorescent protein (GFP) in developing interneurons followed by whole genome microarray expression profiling on the isolated cells. Bioinformatics analysis revealed expression of both predicted and unexpected genes in developing cortical interneurons. Two unanticipated pathways discovered to be up regulated prior to interneurons differentiating in the cortex were ion channels/neurotransmitters and synaptic/vesicular related genes. A significant association of neurological disease related genes to the population of developing interneurons was found. These results have defined new and potentially important data on gene expression changes during the development of cortical interneurons. In addition, these data can be mined to uncover numerous novel genes involved in the generation of interneurons and may suggest genes/pathways potentially involved in a number of human neurological disorders.
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PMID:FACS-array gene expression analysis during early development of mouse telencephalic interneurons. 1817 91

Deficiency of dihydropteridine reductase causes a variant form of phenylketonuria associated with a devastating neurological disease characterized by mental retardation, hypokinesis and other features relating to basal ganglia disorder. Hyperphenylalaninaemias with tetrahydrobiopterin deficiency make up about 1-3% of all hyperphenylalaninaemias. We describe three patients from Calabria, a southern region of Italy, who have a dihydropteridine reductase deficiency, caused by the same mutation (p.L14P) also found in the nearby region of Sicily. We report the evolution of clinical and biochemical data during the treatment of these patients where we used prolactin serum determination to adapt the specific therapy. This report suggests that serum prolactin levels can be a good biomarker for optimal dosage of hydroxylated precursors in long-term treatment monitoring.
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PMID:Serum prolactin as a tool for the follow-up of treated DHPR-deficient patients. 1842 37

Mental retardation is one of the most prevalent neurologic disorders globally. Surveys in high-income countries show 3 to 5 per 1,000 with severe intellectual disability, i.e., IQ below 55. Estimates from developing countries, however, have found prevalence rates from 5 to as much as 22 per 1,000. Protein-energy malnutrition, dietary micronutrient deficiencies, environmental toxins, and lack of early sensory stimulation or the ability to profit from it may contribute to neurodevelopmental disabilities. Tropical diseases such as parasitosis with resultant anemia, malaria, and other infections are major contributory causes. Reduction of poverty and its effects would reduce the present and future burden of mental retardation and cognitive dysfunction, especially in developing countries.
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PMID:Effects of poverty on cognitive function: a hidden neurologic epidemic. 1867 28

Mutations in the aristaless-related homeobox (ARX) gene are associated with multiple neurologic disorders in humans. Studies in mice indicate Arx plays a role in neuronal progenitor proliferation and development of the cerebral cortex, thalamus, hippocampus, striatum, and olfactory bulbs. Specific defects associated with Arx loss of function include abnormal interneuron migration and subtype differentiation. How disruptions in ARX result in human disease and how loss of Arx in mice results in these phenotypes remains poorly understood. To gain insight into the biological functions of Arx, we performed a genome-wide expression screen to identify transcriptional changes within the subpallium in the absence of Arx. We have identified 84 genes whose expression was dysregulated in the absence of Arx. This population was enriched in genes involved in cell migration, axonal guidance, neurogenesis, and regulation of transcription and includes genes implicated in autism, epilepsy, and mental retardation; all features recognized in patients with ARX mutations. Additionally, we found Arx directly repressed three of the identified transcription factors: Lmo1, Ebf3 and Shox2. To further understand how the identified genes are involved in neural development, we used gene set enrichment algorithms to compare the Arx gene regulatory network (GRN) to the Dlx1/2 GRN and interneuron transcriptome. These analyses identified a subset of genes in the Arx GRN that are shared with that of the Dlx1/2 GRN and that are enriched in the interneuron transcriptome. These data indicate Arx plays multiple roles in forebrain development, both dependent and independent of Dlx1/2, and thus provides further insights into the understanding of the mechanisms underlying the pathology of mental retardation and epilepsy phenotypes resulting from ARX mutations.
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PMID:Identification of Arx transcriptional targets in the developing basal forebrain. 1879 76

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