Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027819 (neuroblastoma)
 27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Alzheimer's disease, the cause of one of the most common types of dementia, is a brain disorder affecting the elderly and is characterized by the formation of two main protein aggregates: senile plaques and neurofibrillary tangles, which are involved in the process leading to progressive neuronal degeneration and death. Neurodegeneration in Alzheimer's disease is a pathologic condition of cells rather than an accelerated way of aging. The senile plaques are generated by a deposition in the human brain of fibrils of the beta-amyloid peptide (Abeta), a fragment derived from the proteolytic processing of the amyloid precursor protein (APP). Tau protein is the major component of paired helical filaments (PHFs), which form a compact filamentous network described as neurofibrillary tangles (NFTs). Experiments with hippocampal cells in culture have indicated a relationship between fibrillary amyloid and the cascade of molecular signals that trigger tau hyperphosphorylations. Two main protein kinases have been shown to be involved in anomalous tau phosphorylations: the cyclin-dependent kinase Cdk5 and glycogen synthase kinase GSK3beta. Cdk5 plays a critical role in brain development and is associated with neurogenesis as revealed by studies in brain cells in culture and neuroblastoma cells. Deregulation of this protein kinase as induced by extracellular amyloid loading results in tau hyperphosphorylations, thus triggering a sequence of molecular events that lead to neuronal degeneration. Inhibitors of Cdk5 and GSK3beta and antisense oligonucleotides exert protection against neuronal death. On the other hand, there is cumulative evidence from studies in cultured brain cells and on brains that oxidative stress constitutes a main factor in the modification of normal signaling pathways in neuronal cells, leading to biochemical and structural abnormalities and neurodegeneration as related to the pathogenesis of Alzheimer's disease. This review is focused on the main protein aggregates responsible for neuronal death in both sporadic and familial forms of Alzheimer's disease, as well as on the alterations in the normal signaling pathways of functional neurons directly involved in neurodegeneration. The analysis is extended to the action of neuroprotective factors including selective inhibitors of tau phosphorylating protein kinases, estrogens, and antioxidants among other molecules that apparently prevent neuronal degeneration.
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PMID:The molecular bases of Alzheimer's disease and other neurodegenerative disorders. 1157 51

The tauopathies, which include Alzheimer's disease (AD) and frontotemporal dementias, are a group of neurodegenerative disorders characterized by filamentous Tau aggregates. That Tau dysfunction can cause neurodegeneration is indicated by pathogenic tau mutations in frontotemporal dementia and parkinsonism linked to chromosome 17 (FTDP-17). To investigate how Tau alterations provoke neurodegeneration we generated transgenic mice expressing human Tau with four tubulin-binding repeats (increased by FTDP-17 splice donor mutations) and three FTDP-17 missense mutations: G272V, P301L, and R406W. Ultrastructural analysis of mutant Tau-positive neurons revealed a pretangle appearance, with filaments of Tau and increased numbers of lysosomes displaying aberrant morphology similar to those found in AD. Lysosomal alterations were confirmed by activity analysis of the marker acid phosphatase, which was increased in both transgenic mice and transfected neuroblastoma cells. Our results show that Tau modifications can provoke lysosomal aberrations and suggest that this may be a cause of neurodegeneration in tauopathies.
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PMID:FTDP-17 mutations in tau transgenic mice provoke lysosomal abnormalities and Tau filaments in forebrain. 1174 44

Dentatorubral and pallidoluysian atrophy (DRPLA) is an autosomal dominant neurodegenerative disorder similar to Huntington's disease, with clinical manifestations including chorea, incoordination, ataxia, and dementia. It is caused by an expansion of a CAG trinucleotide repeat encoding polyglutamine in the atrophin-1 gene. Both patients and DRPLA transgenic mice have nuclear accumulation of atrophin-1, especially an approximately 120-kDa fragment, which appears to represent a cleavage product. We now show that this is an N-terminal fragment that does not correspond to the previously described caspase-3 fragment, or any other known caspase cleavage product. The atrophin-1 sequence contains a putative nuclear localization signal in the N terminus of the protein and a putative nuclear export signal in the C terminus. We have tested the hypothesis that endogenous localization signals are functional in atrophin-1, and that nuclear localization and proteolytic cleavage contribute to atrophin-1 cell toxicity. In transient cell transfection experiments using a neuroblastoma cell line, full-length atrophin-1 with 26 (normal) or 65 (expanded) glutamines localized to both nucleus and cytoplasm, with no significant difference in toxicity between the normal and mutant proteins. A construct with 65 glutamine repeats encoding an N-terminal fragment (which removes an NES) of atrophin-1 similar in size to the truncation product in DRPLA patient tissue, showed increased nuclear labeling, and an increase in cellular toxicity, compared with a similar fragment with 26 glutamines. Full-length atrophin-1 with 65 polyglutamine repeats and mutations inactivating the NES also yielded increased nuclear localization and increased toxicity. These data suggest that truncation enhances cellular toxicity of the mutant protein, and that the NES is a relevant region deleted during truncation. Furthermore, mutating the NLS in the truncated protein shifted atrophin-1 more to the cytoplasm and eliminated the increased toxicity, consistent with the idea that nuclear localization enhances toxicity. In none of the experiments were inclusions visible in the nucleus or cytoplasm suggesting that inclusion formation is unrelated to cell death. These data indicate that truncation of atrophin-1 may alter its ability to shuttle between the nucleus and cytoplasm, leading to abnormal nuclear interactions and cell toxicity.
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PMID:Nuclear localization of a non-caspase truncation product of atrophin-1, with an expanded polyglutamine repeat, increases cellular toxicity. 1246 7

Alzheimer's disease is the most common cause of dementia in the elderly. Recently, it has been reported that Alzheimer's disease is associated with cell death in neuronal cells including the hippocampus. Amyloid beta-peptide stimulates neuronal cell death, but the underlying signaling pathways are poorly understood. In order to develop anti-dementia agents with potential therapeutic value, we examined the effect of the herbal compound Gastrodia elata Blume (GEB) on neuronal cell death induced by amyloid beta-peptide in IMR-32 neuroblastoma cells. The fractionation of GEB was carried out in various solvents. The hydroxyl radical scavenging effect of the ethyl ether fraction was more potent than any other fractions. In cells treated with amyloid beta-peptide, the neuroprotective effect of the ethyl ether, chloroform, and butanol fractions was 92, 44, and 39%, respectively, compared with control. Taken together, these results suggest that the ethyl ether fraction of GEB contains one or more compounds that dramatically reduce amyloid beta-peptide induced neuronal cell death in vitro.
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PMID:Ethyl ether fraction of Gastrodia elata Blume protects amyloid beta peptide-induced cell death. 1249 82

Several patients with acquired immunodeficiency syndrome (AIDS) develop neurological complications, which are referred to as human immunodeficiency virus (HIV)-associated dementia (HAD). The HIV-1 coat glycoprotein gp-120 has been proposed as the major etiologic agent for neuronal loss reported postmortem in the brain of AIDS patients. Chemokine receptors may play a role in gp-120-triggered neurotoxicity, both in vitro and in vivo, thus being an intriguing target for developing therapeutic strategies aimed to prevent or reduce neuronal damage occurring during HIV infection. We have previously shown that human CHP100 neuroblastoma cells express CXCR4 and CCR5 chemokine receptors and that interaction between gp-120 and these receptors contributes to cytotoxicity elicited by the protein. Here, we examined the neuroprotective potential of neomycin B hexa-arginine conjugate (NeoR), a recently synthesized compound with anti-HIV activity. We found that gp-120-triggered death is significantly reduced by NeoR, and this protective effect seems related to the ability of NeoR to interact with CXCR4 receptors. The ability of NeoR to cross the blood-brain barrier, as demonstrated in mice by systemic administration of the fluorescein conjugate drug, makes this compound a powerful and attractive therapeutic agent.
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PMID:The Tat antagonist neomycin B hexa-arginine conjugate inhibits gp-120-induced death of human neuroblastoma cells. 1261 24

In our earlier results, we demonstrated that cells expressing the complement C5aR are vulnerable since abnormal activation of C5aR caused apoptosis of these cells. In this study, we demonstrate that activation of C5aR by antisense homology box (AHB) peptides synthesized in multiple antigenic peptide form and representing putative interaction sites of the C5a/C5aR evoked calcium influx in TGW neuroblastoma cells. Dose-dependent inhibition of the response was found when the cells were pretreated with C5a, suggesting that C5aR was involved in this process. In addition, pretreatment with monomeric forms of the AHB peptides resulted in attenuation of the calcium signals, supporting the idea of the role of C5aR in this process. Cells of a neuron-rich primary culture and pyramidal cells of rat brain slices also responded to the AHB peptide activation with an increase in the intracellular calcium level, showing that calcium metabolism might be affected in these cells. TUNEL staining demonstrated that C5aR-mediated apoptosis could be induced both in cells of the primary culture as well as in cortical pyramidal neurons of the rat brain. In addition, we investigated expression of C5aR in the hippocampal and cortical neurons of human brains of healthy and demented patients using two anti-human C5aR Abs. Pyramidal cells of the hippocampus and cortex and granular cells of the hippocampus were immunopositive on staining. Although staining was also positive in the vascular dementia brain, it disappeared in the brain with Alzheimer's disease. These results provide further support that C5aR may be involved in neurodegeneration.
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PMID:Complement C5a receptor-mediated signaling may be involved in neurodegeneration in Alzheimer's disease. 1275 60

Progressive loss of neuronal cytoarchitecture is a major event that precedes neuronal death, both in neural aging and in neurodegenerative diseases. Cytoskeleton in neurodegenerative diseases is characterized by hyperphosphorylated tau assembled in neurofibrillary tangles. Tau protein promotes microtubule enlargement and its hyperphosphorylation inhibits tubulin assembly. Okadaic acid (OA) causes oxidative stress, tau hyperphosphorylation, and altered cytoskeletal organization similar to those observed in neurons of patients with dementia. Since melatonin acts by both enlarging microtubules and as a free-radical scavenger, in this work we studied the effects of melatonin on altered cytoskeletal organization induced by OA in N1E-115 neuroblastoma cells. Optic microscopy, morphometric analysis, and tubulin immunofluorescence staining of neuroblastoma cells incubated with 50 nM OA showed an intact microtubule network following the neurite profile similar to that observed in the vehicle-incubated cells when melatonin was added to the incubation media 2 h before OA. The melatonin effects on altered cytoskeletal organization induced by OA were dose-dependent and were not abolished by luzindole, the mt(1) melatonin antagonist receptor. Also, increased lipid peroxidation and augmented apoptosis in N1E-115 cells incubated with 50 nM OA were prevented by melatonin. The results support the hypothesis that melatonin can be useful in the treatment of neurodegenerative diseases.
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PMID:Melatonin prevents cytoskeletal alterations and oxidative stress induced by okadaic acid in N1E-115 cells. 1282 85

An old antimalarial drug quinacrine is one of the compounds that can inhibit the accumulation of pathogenic prion protein in cultured neuroblastoma cells. Here we report the result of a clinical trial of quinacrine administration to a patient with Creutzfeldt-Jakob disease (CJD). A 37-year-old woman was admitted to our hospital for ataxic gait, hallucination and dementia in August 2001. As a past history she had received an operation for cerebellar astrocytoma and had a cadaveric dura mater graft at 14 years old. After hospitalization she showed signs of anxiety, stimulus-sensitive myoclonus, decorticate rigidity, then deteriorated pursuit eye movement and voluntary limb movement. The ethics committee of Dokkyo University hospital approved this treatment, and the family of the subject was fully informed as to the nature and purpose of the treatment and gave their consent. One week after the administration of 300 mg/day of quinacrine, voluntary limb movement and pursuit eye movement appeared. There was PSD on EEG, but one week after administration of the quinacrine, PSD disappeared, and a theta wave was recognized as the basic activity on the EEG. But her symptoms deteriorated again after 3 weeks, and PSD appeared. Liver dysfunction developed 2 months after administration, and the administration of quinacrine had to be stopped. Quinacrine was administrated to a CJD patient who received a cadaveric dura mater graft and developed CJD 23 years later. The symptoms of the patient were transiently improved with the disappearance of PSD on EEG. Although the mechanism of quinacrine for the central nervous system is still unclear, this case suggests that quinacrine may be clinically one possible drug for treating CJD.
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PMID:[Quinacrine administration to a patient with Creutzfeldt-Jakob disease who received a cadaveric dura mater graft--an EEG evaluation]. 1458 66

Some of mutations in the tau gene, which were found in frontotemporal dementia with Parkinsonism linked to chromosome 17 (FTDP-17), affect alternative splicing of its exon 10 which encodes one of four microtubule-binding motifs. To examine the molecular mechanisms responsible for aberrant splicing of the tau gene containing mutations linked to FTDP-17, we performed Exon trapping and binding assay using tau exon 10 pre-mRNA and nuclear extracts of neuroblastoma cell lines and in vitro splicing using dsx-substrate. We determined that 5' site of tau exon 10 (nucleotides 12-45) possesses exonic splicing enhancer (ESE) activities in vitro splicing and the FTDP-17-linked mutations affect the ESE activities and alter the splicing patterns of tau exon 10. Tra2 beta directly and ASF/SF2 indirectly associated with the ESE of wild tau exon 10. The binding amounts of these SR proteins to tau exon 10 bearing N279K mutation increased and they enhanced splicing the mutant tau exon 10. SRp30c also enhanced the splicing of tau exon 10. These results suggest that mutations in tau exon 10 that are linked to FTDP-17 affect the ESE activities by altering the binding of some SR proteins to its pre-mRNA.
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PMID:Tra2 beta, SF2/ASF and SRp30c modulate the function of an exonic splicing enhancer in exon 10 of tau pre-mRNA. 1500 90

Recent studies have shown that the neurodegenerative process in disorders with Lewy body formation, such as Parkinson's disease and dementia with Lewy bodies, is associated with alpha-synuclein accumulation and that beta-synuclein might protect the central nervous system from the neurotoxic effects of alpha-synuclein. However, the mechanisms are unclear. The main objective of the present study was to investigate the potential involvement of the serine threonine kinase Akt (also known as protein kinase B) signaling pathway in the mechanisms of beta-synuclein neuroprotection. For this purpose, Akt activity and cell survival were analyzed in synuclein-transfected B103 neuroblastoma cells and primary cortical neurons. Beta-synuclein transfection resulted in increased Akt activity and conferred protection from the neurotoxic effects of rotenone. Down-regulation of Akt expression resulted in an increased susceptibility to rotenone toxicity, whereas transfection with a lentiviral vector encoding for beta-synuclein was protective. The effects of beta-synuclein on the Akt pathway appear to be by direct interaction between these molecules and were independent of upstream signaling molecules. Taken together, these results indicate that the mechanisms of beta-synuclein neuroprotection might involve direct interactions between beta-synuclein and Akt and suggest that this signaling pathway could be a potential therapeutic target for neurological conditions associated with parkinsonism and alpha-synuclein aggregation.
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PMID:Beta-synuclein regulates Akt activity in neuronal cells. A possible mechanism for neuroprotection in Parkinson's disease. 1502 13


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