Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0917816 (mental retardation)
15,867 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tuberous sclerosis complex (TSC) is a tumor suppressor gene syndrome with manifestations that can include seizures, mental retardation, autism, and tumors in the brain, retina, kidney, heart, and skin. The products of the TSC1 and TSC2 genes, hamartin and tuberin, respectively, heterodimerize and inhibit the mammalian target of rapamycin (mTOR). We found that tuberin expression increases p42/44 MAPK phosphorylation and B-Raf kinase activity. Short interfering RNA down-regulation of tuberin decreased the p42/44 MAPK phosphorylation and B-Raf activity. Expression of Rheb, the target of the GTPase-activating domain of tuberin, inhibited wild-type B-Raf kinase but not activated forms of B-Raf. The interaction of endogenous Rheb with B-Raf was enhanced by serum and by Ras overexpression. A farnesylation-defective mutant of Rheb co-immunoprecipitated with and inhibited B-Raf but did not activate ribosomal protein S6 kinase, indicating that farnesylation is not required for B-Raf inhibition by Rheb and that B-Raf inhibition and S6 kinase activation are separable activities of Rheb. Consistent with this, inhibition of B-Raf and p42/44 MAPK by Rheb was resistant to rapamycin in contrast to Rheb activation of S6 kinase, which is rapamycin-sensitive. Taken together these data demonstrate that inhibition of B-Raf kinase via Rheb is an mTOR-independent function of tuberin.
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PMID:Regulation of B-Raf kinase activity by tuberin and Rheb is mammalian target of rapamycin (mTOR)-independent. 1515 Feb 71

Tuberous sclerosis (TSC) is an autosomal dominant tumour suppressor gene syndrome affecting about 1 in 6000 individuals. It is characterized by mental retardation and epilepsy. A variety of tumours characteristically occur in different organs of TSC patients. Typically, highly epileptogenic dysplastic lesions (tubers) composed of abnormal shaped neurones can be detected in the cerebral cortex. Two tumour suppressor genes have been shown to be responsible for this disease: TSC1, encoding hamartin, and TSC2, encoding tuberin. In this study we performed a proteomic approach of two-dimensional gel electrophoresis with subsequent mass spectrometrical identification of protein spots after ectopic overexpression of human TSC1 or TSC2. We found the protein levels of alpha1-tubulin, protein disulfide isomerase, tropomyosin 3 and 5 and vimentin to be regulated by the two tuberous sclerosis gene products. The here presented findings suggest that deregulation of the control of these target proteins might contribute to the development of tumours in tuberous sclerosis patients. These data provide important new insights into the molecular development of this disease especially since alpha1-tubulin, protein disulfide isomerase and certain tropomyosins have also been implicated in the regulation of neuronal differentiation.
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PMID:Protein levels of alpha1-tubulin, protein disulfide isomerase, tropomyosins and vimentin are regulated by the tuberous sclerosis gene products. 1518 38

Gene deletion studies in mice and in Drosophila have shown that the 40S ribosomal protein S6 Kinases, dS6K in Drosophila and S6K1 and S6K2 in mice are important regulators of cell growth in response to insulin stimulation and nutrition availability. Here we chiefly focus on dS6k and S6K1, whose activities are regulated by an upstream kinase termed the mammalian target of rapamycin (mTOR, or dTOR in Drosophila). Our understanding of the mechanisms regulating the mTOR/S6K1-signalling pathway will be fundamental in determining the mechanisms which control cell growth in response to insulin signalling. Recent findings from this laboratory and others suggests that the tumour suppressor complex made of two proteins TSC1/hamartin and TSC2/tuberin, acts as a negative regulator of mTOR/S6K1 signalling. Mutations in either TSC1 or TSC2 are genetically linked to tuberous sclerosis complex (TSC) syndrome, which can lead to severe pathological consequences, including mental retardation, epilepsy and autism, as well as cardiac, pulmonary and renal failure. Despite a large number of initial reports on the TSC1/TSC2 complex, and the finding that its activity is regulated by protein kinase B (PKB), the direct target of the TSC1/TSC2 inhibitory complex was unknown until recently. Since TSC2 has a GTPase-activating domain, or GAP-like sequence, others and we searched for a small GTP binding protein, which may serve as the target of TSC1/TSC2 inhibitory complex. In our case we took advantage of a genome wide screen in Drosophila for effectors of cell growth and in parallel searched for a small GTPase whose activity is up-regulated in TSC2-deficient cells. The identified gene was a member of the Ras family of GTPases termed Ras homologue enriched in brain or Rheb. Here we review recent findings demonstrating that the TSC1/TSC2 inhibitory complex normally acts on Rheb to mediate mTOR/S6K1-signalling.
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PMID:The mTOR/S6K signalling pathway: the role of the TSC1/2 tumour suppressor complex and the proto-oncogene Rheb. 1556 27

This review is focused on pathways and mechanisms that might provide molecular links between the pathogenesis of renal and pulmonary disease in tuberous sclerosis complex and the pathogenesis of the neurologic manifestations of tuberous sclerosis complex. Tuberous sclerosis complex is an autosomal dominant disorder in which the manifestations can include seizures; mental retardation; autism; benign tumors of the brain, retina, skin, and kidneys; and pulmonary lymphangiomyomatosis. Lymphangiomyomatosis is a life-threatening lung disease affecting almost exclusively young women. Genetic data have demonstrated that the cells giving rise to renal angiomyolipomas, the most frequent tumor type in patients with tuberous sclerosis complex, exhibit differentiation plasticity. Genetic studies have also shown that the benign smooth muscle cells of angiomyolipomas and pulmonary lymphangiomyomatosis have the ability to migrate or metastasize to other organs. These findings indicate that hamartin and tuberin play functional roles in the regulation of cell migration and differentiation. The biochemical pathways responsible for these effects are not yet fully understood but might involve dysregulation of the small guanosine triphosphatase Rho. Similar pathways might contribute to aberrant neuronal differentiation and migration in tuberous sclerosis complex.
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PMID:Aberrant cellular differentiation and migration in renal and pulmonary tuberous sclerosis complex. 1556 18

The most devastating complications of tuberous sclerosis complex affect the central nervous system and include epilepsy, mental retardation, autism, and glial tumors. Mutations in one of two genes, TSC1 and TSC2, result in a similar disease phenotype by disrupting the normal interaction of their protein products, hamartin and tuberin, which form a functional signaling complex. Disruption of these genes in the brain results in abnormal cellular differentiation, migration, and proliferation, giving rise to characteristic brain lesions called cortical tubers. Relevant animal models, including conventional and conditional knockout mice, are valuable tools for studying the normal functions of tuberin and hamartin and how disruption of their expression gives rise to the variety of clinical features that characterize tuberous sclerosis complex. In the future, these animals will be invaluable preclinical models for the development of highly specific and efficacious treatments for children affected with tuberous sclerosis complex.
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PMID:Mouse models of tuberous sclerosis complex. 1556 20

The genes, TSC1 on chromosome 9q34, encoding hamartin, and TSC2 on chromosome 16p13.3, encoding tuberin, are responsible for tuberous sclerosis (TSC). TSC is an autosomal dominant tumor suppressor gene syndrome affecting about 1 in 6000 individuals. It is characterized by mental retardation and epilepsy. A variety of tumors characteristically occur in different organs of TSC patients and are believed to result from defects in cell cycle/cell size control. Hamartin and tuberin form a complex providing a tentative explanation for the similar disease phenotype in TSC patients with mutations in either of these genes. Beside overlap in many features of patients with TSC1 and TSC2 mutations, data accumulated providing evidence for specific clinical differences. In this study, we performed a proteomic approach of two-dimensional gel electrophoresis with subsequent mass spectrometrical identification of protein spots after ectopic overexpression of human TSC1 or TSC2. We found the protein levels of the calumenin precursor; the complement component 1; heterogeneous nuclear ribonucleoproteins, C1/C2; heterogeneous nuclear ribonucleoprotein, C1-like protein; nascent polypeptide-associated complex-alpha; proteasome subunit alpha type 5; reticulocalbin 1 precursor; translationally-controlled tumor protein; UV excision repair protein, RAD23 homolog B; elongation factor 1-delta; and the eukaryotic initiation factors, eIF-4A-like NUK-34 and eIF-6; to be deregulated upon ectopic TSC gene expression. These findings suggest that deregulation of the control of these new target proteins might contribute to the development of tubers/hamartomas in tuberous sclerosis patients. The data are presented and discussed in the context of the published literature on proteomic approaches for the identification of targets of the TSC genes.
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PMID:The cellular response to ectopic overexpression of the tuberous sclerosis genes, TSC1 and TSC2: a proteomic approach. 1607 35

Tuberous sclerosis (TSC) is an autosomal dominant tumor suppressor gene syndrome affecting about 1 in 6000 individuals. It is characterized by mental retardation and epilepsy. A variety of tumors characteristically occur in different organs of TSC patients. The genes, TSC1 on chromosome 9q34, encoding hamartin, and TSC2 on chromosome 16p13.3, encoding tuberin are responsible for TSC. Hamartin and tuberin form a complex providing a tentative explanation for the similar disease phenotype in TSC patients with mutations in either of these genes. Besides overlap in many features of patients with TSC1 and TSC2 mutations, data accumulated provide evidence for specific clinical differences. Here, we performed microarray analyses of the gene expression response to overexpressed TSC1 or TSC2 in HeLa cells. Out of 2400 analysed genes we found 115 genes to be up-regulated > or =2-fold upon ectopic TSC1 overexpression and 284 genes to be up-regulated > or =2-fold via TSC2. Only 34 of these genes were up-regulated by both, TSC1 and TSC2. Whereas only 7 genes were down-regulated > or =2-fold via TSC1, ectopic TSC2 triggered a > or =2-fold down-regulation of 113 genes. Only 3 of these genes were down-regulated by TSC1 and TSC2. This study provides new insights into the cellular roles of TSC proteins and promotes discussion on whether separable functions of these proteins might be associated with the clinical differences of TSC1- and TSC2-associated disease.
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PMID:The tuberous sclerosis genes, TSC1 and TSC2, trigger different gene expression responses. 1621 Dec 38

Tuberous sclerosis complex (TSC) is a common genetic disorder in which affected individuals develop mental retardation, developmental brain defects and seizures. The TSC gene products, hamartin and tuberin, form a complex, of which tuberin is assumed to be the functional component being involved in a wide variety of different cellular processes. Here we report that tuberin protein levels are decreased in the frontal cortex of patients with Alzheimer's disease. In addition, tuberin levels are also decreased in Down syndrome brain samples positive for beta-amyloid plaques and neurofibrillary tangles. Analysis of NeuN revealed that this regulation is not a consequence of differences in the amount of postmitotic neurons. This first connection of tuberin to another common disease beside TSC stimulates new approaches to investigate the molecular development and to establish new therapeutic strategies.
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PMID:Tuberin--a new molecular target in Alzheimer's disease? 1634 38

Tuberous sclerosis complex (TSC) is a tumor suppressor gene syndrome whose manifestations can include seizures, mental retardation, autism, and tumors in the brain, retina, kidney, heart, and skin. The products of the TSC1 and TSC2 genes, hamartin and tuberin, respectively, heterodimerize and inhibit the mammalian target of rapamycin (mTOR). This review focuses on the genetic and biochemical basis of the renal and pulmonary manifestations of TSC, angiomyolipomas, and lymphangiomyomatosis, respectively. Genetic analyses of sporadic angiomyolipomas revealed that all three components (smooth muscle, vessels, and fat) derive from a common progenitor cell, indicating the ability of cells lacking tuberin to differentiate into multiple lineages. Other genetic studies showed that the benign smooth muscle cells of pulmonary lymphangiomyomatosis have the ability to migrate to other organs. These findings suggest that tuberin and hamartin play a role in the regulation of cellular migration and differentiation. We have found that tuberin activates B-Raf kinase and p42/44 MAPK and that cells lacking tuberin have low levels of B-Raf activity. We hypothesize that aberrant B-Raf activity in angiomyolipomas leads to abnormal cellular differentiation and migration.
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PMID:The role of tuberin in cellular differentiation: are B-Raf and MAPK involved? 1638 52

Mutations in one of two genes, TSC1 and TSC2, result in a similar disease phenotype by disrupting the normal interaction of their protein products, hamartin and tuberin, which form a functional signaling complex. Disruption of these genes in the brain results in abnormal cellular differentiation, migration, and proliferation, giving rise to the characteristic brain lesions of tuberous sclerosis complex (TSC) called cortical tubers. The most devastating complications of TSC affect the central nervous system and include epilepsy, mental retardation, autism, and glial tumors. Relevant animal models, including conventional and conditional knockout mice, are valuable tools for studying the normal functions of tuberin and hamartin and the way in which disruption of their expression gives rise to the variety of clinical features that characterize TSC. In the future, these animals will be invaluable preclinical models for the development of highly specific and efficacious treatments for children affected with TSC.
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PMID:Tuberous sclerosis complex: molecular pathogenesis and animal models. 1688 89


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