Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P42345 (mTOR)
 26,049 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neurofibromatosis type 1 (NF1) is a developmental and cancer predisposing syndrome resulting from haploinsufficiency or alteration in neurofibromin, a multifunctional protein that acts in various signaling pathways affecting morphogenetic processes and cell proliferation. Neurofibromin deficiency deregulates Ras/Raf/MEK/ERK and Ras/PI3K/AKT/PKB/mTOR signaling networks and intersected pathways including the cAMP-dependent protein kinase A (PKA) and the Rho-cofillin which acts on actin cytoskeleton reorganization, cell motility and adhesion. As the neurofibromin-mediated pathways are associated with biological effects depending on the cell lineage, deregulation induced by NF1 mutation clearly has cell type-specific effects. This review summarizes our increasing knowledge of NF1 as a disease rooted in defective developmental mechanisms that can also influence the potential for malignant growth. The cardinal features of NF1 patients, at birth and during life involve the cardiovascular, connective/skeletal and central nervous systems, as they reflect the NF1 mutation sensitivity of cell lineages committed to specifying these systems during embryonic development. A switch to neoplastic transformation may also occur in both the prenatal and postnatal life in cancer initiating cells of defined lineages, with the cooperation of a genetically and epigenetically modified tumor microenvironment. We emphasize how much of our current knowledge of the pathomechanisms of NF1 clinical signs and cancer has come from engineered mouse models and in vitro primary cells and cell lines exposed to inhibitors of signaling molecules. Advances in our knowledge of the developmental defects primed by the loss neurofibromin should reveal further associations between given NF1 mutations and tissue-specific symptoms, thus improving the clinical management of the patients.
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PMID:Developmental abnormalities and cancer predisposition in neurofibromatosis type 1. 1960 12

Patients with neurofibromatosis type 1 (NF1) carry approximately a 10% lifetime risk of developing a malignant peripheral nerve sheath tumor (MPNST). Although the molecular mechanisms underlying NF1 to MPNST malignant transformation remain unclear, alterations of both the RAS/RAF/MAPK and PI3K/AKT/mTOR signaling pathways have been implicated. In a series of genetically engineered murine models, we perturbed RAS/RAF/MAPK or/and PTEN/PI3K/AKT pathway, individually or simultaneously, via conditional activation of K-ras oncogene or deletion of Nf1 or Pten tumor suppressor genes. Only K-Ras activation in combination with a single Pten allele deletion led to 100% penetrable development of NF lesions and subsequent progression to MPNST. Importantly, loss or decrease in PTEN expression was found in all murine MPNSTs and a majority of human NF1-associated MPNST lesions, suggesting that PTEN dosage and its controlled signaling pathways are critical for transformation of NFs to MPNST. Using noninvasive in vivo PET-CT imaging, we demonstrated that FDG can be used to identify the malignant transformation in both murine and human MPNSTs. Our data suggest that combined inhibition of RAS/RAF/MAPK and PTEN/PI3K/AKT pathways may be beneficial for patients with MPNST.
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PMID:PTEN dosage is essential for neurofibroma development and malignant transformation. 2037 64

Neurofibromatosis Type 1 (NF1) is a common autosomal dominant disease characterized by complex and multicellular neurofibroma tumors, and less frequently by malignant peripheral nerve sheath tumors (MPNSTs) and optic nerve gliomas. Significant advances have been made in elucidating the cellular, genetic, and molecular biology involved in tumor formation in NF1. Neurofibromatosis Type 1 is caused by germline mutations of the NF1 tumor suppressor gene, which generally result in decreased intracellular neurofibromin protein levels, leading to increased cascade Ras signaling to its downstream effectors. Multiple key pathways are involved with the development of tumors in NF1, including Ras/mitogen-activated protein kinase (MAPK) and Akt/mammalian target of rapamycin (mTOR). Interestingly, recent studies demonstrate that multiple other developmental syndromes (in addition to NF1) share phenotypic features resulting from germline mutations in genes responsible for components of the Ras/MAPK pathway. In general, a somatic loss of the second NF1 allele, also referred to as loss of heterozygosity, in the progenitor cell, either the Schwann cell or its precursor, combined with haploinsufficiency in multiple supporting cells is required for tumor formation. Importantly, a complex series of interactions with these other cell types in neurofibroma tumorigenesis is mediated by abnormal expression of growth factors and their receptors and modification of gene expression, a key example of which is the process of recruitment and involvement of the NF1(+/-) heterozygous mast cell. In general, for malignant transformation to occur, there must be accumulation of additional mutations of multiple genes including INK4A/ARF and P53, with resulting abnormalities of their respective signal cascades. Further, abnormalities of the NF1 gene and molecular cascade described above have been implicated in the tumorigenesis of NF1 and some sporadically occurring gliomas, and thus, these treatment options may have wider applicability. Finally, increased knowledge of molecular and cellular mechanisms involved with NF1 tumorigenesis has led to multiple preclinical and clinical studies of targeted therapy, including the mTOR inhibitor rapamycin, which is demonstrating promising preclinical results for treatment of MPNSTs and gliomas.
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PMID:Neurofibromatosis Type 1 and tumorigenesis: molecular mechanisms and therapeutic implications. 2004 23

Neurofibromatosis type 1 (NF1) is a common cancer predisposition syndrome in which affected individuals develop benign and malignant nerve tumors. The NF1 gene product neurofibromin negatively regulates Ras and mammalian target of rapamycin (mTOR) signaling, prompting clinical trials to evaluate the ability of Ras and mTOR pathway inhibitors to arrest NF1-associated tumor growth. To discover other downstream targets of neurofibromin, we performed an unbiased cell-based high-throughput chemical library screen using NF1-deficient malignant peripheral nerve sheath tumor (MPNST) cells. We identified the natural product, cucurbitacin-I (JSI-124), which inhibited NF1-deficient cell growth by inducing apoptosis. We further showed that signal transducer and activator of transcription-3 (STAT3), the target of cucurbitacin-I inhibition, was hyperactivated in NF1-deficient primary astrocytes and neural stem cells, mouse glioma cells, and human MPNST cells through Ser(727) phosphorylation, leading to increased cyclin D1 expression. STAT3 was regulated in NF1-deficient cells of murine and human origin in a TORC1- and Rac1-dependent manner. Finally, cucurbitacin-I inhibited the growth of NF1-deficient MPNST cells in vivo. In summary, we used a chemical genetics approach to reveal STAT3 as a novel neurofibromin/mTOR pathway signaling molecule, define its action and regulation, and establish STAT3 as a tractable target for future NF1-associated cancer therapy studies.
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PMID:The neurofibromatosis type 1 tumor suppressor controls cell growth by regulating signal transducer and activator of transcription-3 activity in vitro and in vivo. 2012 72

Evaluation of: Gregorian C, Nakashima J, Dry SM et al.: PTEN dosage is essential for neurofibroma development and malignant transformation. Proc. Natl Acad. Sci. USA 106(46), 19479-19484 (2009). Neurofibromatosis type 1 (NF1) is among the most common inherited tumor-predisposing syndromes in humans. Development of malignant peripheral nerve sheath tumors (MPNSTs) from neurofibroma significantly affects the morbidity and mortality of NF1 patients. The authors demonstrate, using different genetically engineered mouse models, that loss of the tumor suppressor Pten in combination with overexpression of the K-ras oncogene is an important step in MPNST development. In both mouse and human tumors, the transition from low-grade neurofibromas to MPNST is associated with reduced Pten expression, deregulated mTOR signaling activity and increased proliferation. This tumor transition can be monitored by (18)F-fluoro-D-glucose-PET, offering close clinical monitoring of NF1 patients and thus early detection of MPNST development in the future.
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PMID:Critical role of PTEN for development and progression of nerve sheath tumors in neurofibromatosis type 1. 1984 76

A 12-year-old girl with clinically established tuberous sclerosis complex, and without signs of neurofibromatosis type 1, developed a right retro-ocular optic nerve tumor. After rapid growth for 1 year after its discovery, the optic nerve tumor demonstrated modest progression. The patient received the mammalian target of rapamycin inhibitor, sirolimus, for recurrent subependymal giant cell brain tumors. Although her left ventricular subependymal giant cell tumor demonstrated a 49% reduction in volume, the optic nerve tumor did not respond, and even underwent slight (6%) growth during the 16-month treatment. The quality of this child's vision has remained normal in both eyes, and she is otherwise asymptomatic with regard to the optic nerve tumor.
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PMID:Optic nerve tumor in tuberous sclerosis complex is not responsive to sirolimus. 2047

Until recently, the neuropsychiatric phenotype of tuberous sclerosis complex (TSC) was presumed to be caused by the structural brain abnormalities and/or seizures seen in the disorder. However, advances in the molecular biology of the disorder have shown that TSC is a mammalian target of rapamycin (mTOR) overactivation syndrome, and that direct molecular pathways exist between gene mutation and cognitive/neurodevelopmental phenotype. Molecularly-targeted treatments using mTOR inhibitors (such as rapamycin) are showing great promise for the physical and neurological phenotype of TSC. Pre-clinical and early-phase clinical studies of the cognitive and neurodevelopmental features of TSC suggest that some of the neuropsychiatric phenotypes might also be reversible, even in adults with the disorder. TSC, fragile X, neurofibromatosis type 1, and disorders associated with phosphatase and tensin homo (PTEN) mutations, all signal through the mTOR signaling pathway, with the TSC1-TSC2 protein complex as a molecular switchboard at its center. Together, these disorders represent as much as 14% of autism spectrum disorders (ASD). Therefore, we suggest that this signaling pathway is a key to the underlying pathophysiology of a significant subset of individuals with ASD. The study of molecularly targeted treatments in TSC and related disorders, therefore, may be of scientific and clinical value not only to those with TSC, but to a larger population that may have a neuropsychiatric phenotype attributable to mTOR overactivation or dysregulation.
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PMID:Targeted treatments for cognitive and neurodevelopmental disorders in tuberous sclerosis complex. 2064 80

Neurofibromatosis type 1 (NF-1) and tuberous sclerosis complex (TSC) are two familial syndromes known as phakomatoses that may be associated with endocrine tumours. These hereditary cutaneous conditions affect the central nervous system and are characterised by the development of hamartomas. Over the past 20 years, there have been major advances in our understanding of the molecular basis of these diseases. Both NF-1 and TSC are disorders of unregulated progression through the cell cycle, in which causative genes behave as tumour suppressor genes. The pathogenesis of these familial syndromes is linked by the shared regulation of a common pathway, the protein kinase mammalian target of rapamycin (mTOR). Additional related disorders that also converge on the mTOR pathway include Peutz-Jeghers syndrome and Cowden syndrome. All of these inherited cancer syndromes are associated with characteristic skin findings that offer a clue to their recognition and treatment. The discovery of mTOR inhibitors has led to a possible new therapeutic modality for patients with endocrine tumours as part of these familial syndromes.
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PMID:Endocrine tumours in neurofibromatosis type 1, tuberous sclerosis and related syndromes. 2083 35

Low grade astrocytomas are the most common CNS tumors in neurofibromatosis type 1(NF1) patients. While most are classic pilocytic astrocytomas (PA), some are difficult to classify, and have been termed "low grade astrocytoma subtype indeterminate" (LGSI). Some of these tumors exhibit peculiar morphologies, including plump cytoplasmic processes and macronucleoli. In the current study we performed electron microscopy, followed by gene expression, immunohistochemicai and western blot analyses in an effort to identify biological differences underlying phenotypic variation in NF1-associated low grade astrocytoma. Electron microscopy demonstrated intermediate filaments and frequent Rosenthal fiber material in both PA and LGSI. Dense core granules and/or aligned microtubules were present in the LGSI group (2 of 3 cases) and in the PA group (1 of 10 cases). Analysis of global gene expression data obtained using Affymetrix HG-U133 Plus2.0 chips (5 PA, 1 LGSI), and western blot analysis for phospho-S6 (1 LGSI, 2 PA) demonstrated a gene expression profile reflecting "neuronal differentiation" and increased phospho-S6 immunoreactivity consistent with mTOR activation in the LGSI compared with PA. These findings were confirmed by immunohistochemistry for neuronal markers, as well as combined phospho-S6/ phospho-p70S6K immunoreactivity in 4 (of 4) LGSI vs. 5 (of 13) NF1-associated PA (p=0.02), and 13 (of 39) sporadic PA. Phospho-ERK immunoreactivity was uniformly present in PA and LGSI groups, while BRAF duplication was absent by FISH in 8 NF1-associated low grade astrocytomas. In summary, differential expression of neuronal-related genes and increased mTOR activation may underlie phenotypic variations in NF1-associated low grade astrocytomas.
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PMID:Phenotypic variations in NF1-associated low grade astrocytomas: possible role for increased mTOR activation in a subset. 2122 27

The tuberous sclerosis complex 1/2-mammalian target of rapamycin (TSC1/2-mTOR) proteins act as integrators of a range of intracellular signalling pathways. Various genetic disorders associated with learning and behavioural deficits, including TSC, Fragile X, Neurofibromatosis Type 1, Noonan and Leopard syndromes, are associated with abnormalities in TSC-mTOR signalling. Based on the assumption that signalling proteins and their structural and functional components are widely conserved, a number of animal models are used to study aspects of the physical and behavioural phenotypes of these human disorders. Model organisms include rat (Rattus norvegicus), mouse (Mus musculus), zebrafish (Danio rerio), fruitfly (Drosophila melanogaster) and fission yeast (Schizosaccharomyces pombe). Here we used a bioinformatic approach to examine the presence of structural and functional elements of TSC1 and TSC2 across these organisms, together with Strongylocentrotus purpuratus and Dictyostelium discoideum. Results suggest that while Rattus norvegicus and Mus musculus TSC1 and TSC2 showed very high similarity to the human sequences, this was not the case for Danio rerio, Drosophila melanogaster, Strongylocentrotus purpuratus, Schizosaccharomyces pombe or Disctyostelium discoideum. Findings indicate that caution should be exercised in detailed interpretation of results from some model organisms.
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PMID:Conservation of structural and functional elements of TSC1 and TSC2: a bioinformatic comparison across animal models. 2124 21


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