UMLS:C0027819 - FACTA Search

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Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Despite considerable research into the etiology of neuroblastoma, the molecular basis of this disease has remained elusive. In contrast to the absence of expression of the known tumor suppressor CDKN2A (also known as p16 and INK4A) in a wide variety of tumor types we have found in previous studies that CDKN2A protein is paradoxically highly expressed in many advanced stage neuroblastomas and unrelated to RB1 status. In the present study, we sought to identify the mechanistic relationships that might influence CDKN2A expression and negate its influence on tumor cell proliferation. In this regard, we examined the role of the tumor-suppressor gene CDKN1B (also known as p27 and Kip1) and the oncogene ID2 in relationship to CDKN2A expression, MYCN amplification, and neuroblastoma pathogenesis in 17 neuroblastoma cell lines and 129 samples of primary tumors of all stages. All neuroblastoma cell lines expressed the ID2 transcript and protein. However, although the majority of primary neuroblastomas also expressed the ID2 transcript, expression of the ID2 protein was undetectable or only barely detectable, regardless of transcript expression. In both cell lines and primary tumors, ID2 expression was independent of both CDKN2A and MYCN expression. In primary neuroblastomas, CDKN1B protein was expressed in significantly fewer advanced-stage neuroblastomas than early-stage neuroblastomas, but its expression had no relationship with CDKN2A expression or MYCN amplification. We concluded that the paradoxical expression of CDKN2A in neuroblastoma cannot be explained by inactivation of the tumor-suppressor gene CDKN1B or overexpression of the oncogene ID2. We further concluded that ID2 is not a target of MYCN regulation nor is it a prognostic factor for neuroblastoma. Finally, the loss of CDKN1B in advanced-stage neuroblastoma suggests this protein may play a role in the neuroblastoma disease process.
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PMID:Expression profiles and clinical relationships of ID2, CDKN1B, and CDKN2A in primary neuroblastoma. 1539 Jan 83

In human neuroblastoma cell lines (LAN5, SHEP and IMR32), mycophenolic acid (MPA) at concentrations (10(-7)-10(-6) M) readily attainable during immunosuppressive therapy with mycophenolate mofetil (Cellcept), induces guanine nucleotide depletion leading to cell cycle arrest and apoptosis through a p53 mediated pathway (up-regulation of p53, p21 and bax and down-regulation of bcl-2 and survivin). MPA-induced apoptosis is also associated to a marked decrease of p27 protein. In the same cell lines MPA, at lower concentrations (50 nM), corresponding to the plasma levels of the active free drug during Cellcept therapy, induces differentiation toward the neuronal phenotype by causing a partial chronic guanine nucleotide depletion. MPA-induced differentiation is not associated to p27 accumulation as occurs using retinoic acid. At a fixed concentration of MPA a higher percentage of apoptotic or differentiated cells is obtained when non dialysed serum substitutes for the dialysed one, due to the higher hypoxanthine concentration in the former (about 10 microM) leading to competition on HPRT-mediated salvage of guanine. At hypoxanthine or oxypurinol concentrations higher than 1 microM (up to 100 microM) no further enhancement of MPA effects was obtained, in agreement with the recently described safety of the allopurinol-mycophenolate mofetil combination in the treatment of hyperuricemia of kidney transplant recipients. The apoptotic effects of MPA do not appear to be significantly increased by the UDP-glucuronosyltransferase inhibitor niflumic acid.
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PMID:Potential role of mycophenolate mofetil in the management of neuroblastoma patients. 1557 Dec 95

Lesch-Nyhan disease (LND), caused by complete deficiency of hypoxanthine guanine phosphoribosyltransferase (HPRT), is characterized by a neurological deficit, the etiology of which is unknown. Evidence has accumulated indicating that it might be related to dysfunction of the basal ganglia with a prominent loss of striatal dopamine fibers. Guanine nucleotide depletion has been shown to occur in cells from Lesch-Nyhan patients. In this study we demonstrate that chronic guanine nucleotide depletion induced by inhibition of inosine monophosphate dehydrogenase with low levels (50 nM) of mycophenolic acid (MPA) lead human neuroblastoma cell lines to differentiate toward the neuronal phenotype. The MPA-induced morphological changes were more evident in the dopaminergic line LAN5, than in the cholinergic line IMR32. MPA-induced differentiation, unlike that induced by retinoic acid, caused a less extensive neurite outgrowth and branching (similar to that observed in cultured HPRT-deficient dopaminergic neurons) and involved up-regulation of p53, p21 and bax, and bcl-2 down-regulation without p27 protein accumulation. These results suggest that guanine nucleotide depletion following HPRT deficiency, might lead to earlier and abnormal brain development mainly affecting the basal ganglia, displaying the highest HPRT activity, and could be responsible for the specific neurobehavioral features of LND.
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PMID:Guanine nucleotide depletion induces differentiation and aberrant neurite outgrowth in human dopaminergic neuroblastoma lines: a model for basal ganglia dysfunction in Lesch-Nyhan disease. 1567 Jun 49

Histone deacetylase inhibitors (HDACi) have been discovered as potential drugs for cancer treatment. The effect of BL1521, a novel HDACi, on the cell cycle distribution and the induction of apoptosis was investigated in a panel of MYCN single copy and MYCN amplified neuroblastoma cell lines. BL1521 arrested neuroblastoma cells in the G1 phase and induced up to 30% apoptosis. Downregulation of CDK4, upregulation of p21(WAF1/CIP1) and an increase of hypophosphorylated retinoblastoma protein were observed, indicating a possible mechanism for the cell-cycle arrest. BL1521 also induced downregulation of p27, which may underlie the observed induction of apoptosis.
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PMID:Histone deacetylase inhibitor BL1521 induces a G1-phase arrest in neuroblastoma cells through altered expression of cell cycle proteins. 1573 67

The tumor suppressor function of activin A, together with our findings that activin A is an inhibitor of angiogenesis, which is down-regulated by the N-MYC oncogene, prompted us to investigate in more detail its role in the malignant transformation process of neuroblastomas. Indeed, neuroblastoma cells with restored activin A expression exhibited a diminished proliferation rate and formed smaller xenograft tumors with reduced vascularity, whereas lung metastasis rate remained unchanged. In agreement with the decreased vascularity of the xenograft tumors, activin A inhibited several crucial angiogenic responses of cultured endothelial cells, such as proteolytic activity, migration, and proliferation. Endothelial cell proliferation, activin A, or its constitutively active activin receptor-like kinase 4 receptor (ALK4T206D), increased the expression of CDKN1A (p21), CDKN2B (p15), and CDKN1B (p27) CDK inhibitors and down-regulated the expression of vascular endothelial growth factor receptor-2, the receptor of a key angiogenic factor in cancer. The constitutively active forms of SMAD2 and SMAD3 were both capable of inhibiting endothelial cell proliferation, whereas the dominant-negative forms of SMAD3 and SMAD4 released the inhibitory effect of activin A on endothelial cell proliferation by only 20%. Thus, the effects of activin A on endothelial cell proliferation seem to be conveyed via the ALK4/SMAD2-SMAD3 pathways, however, non-SMAD cascades may also contribute. These results provide novel information regarding the role of activin A in the malignant transformation process of neuroblastomas and the molecular mechanisms involved in regulating angiogenesis thereof.
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PMID:Activin A suppresses neuroblastoma xenograft tumor growth via antimitotic and antiangiogenic mechanisms. 1575 86

The inhibitor of differentiation Id2 is a target of the retinoblastoma (Rb) protein during mouse embryogenesis. In Rb(+/-) mice, LOH at the wild-type Rb allele initiates pituitary adenocarcinoma, a tumor derived from embryonic melanotropes. Here we identify a critical role for Id2 in initiation, growth, and angiogenesis of pituitary tumors from Rb(+/-) mice. We show that proliferation and differentiation are intimately coupled in Rb(+/-) pituitary cells before tumor initiation. In Id2-null pituitaries, premature activation of basic helix-loop-helix-mediated transcription and expression of the cdk inhibitor p27(Kip1) impairs the proliferation of melanotropes and tumor initiation. Without Id2, Rb(+/-) mice have fewer early tumor lesions and a markedly decreased proliferation rate of the tumor foci. Expression of Id2 by pituitary tumor cells promotes growth and angiogenesis by functioning as a master regulator of vascular endothelial growth factor (VEGF). In human neuroblastoma, the N-Myc-driven expression of Id2 is sufficient and necessary for expression of VEGF. These results establish that aberrant Id2 activity directs initiation and progression of embryonal cancer.
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PMID:Id2 mediates tumor initiation, proliferation, and angiogenesis in Rb mutant mice. 1583 62

Histone acetyltransferase and histone deacetylase (HDAC) determine the acetylation status of histones, and thereby control the regulation of gene expression. HDAC inhibitors have been found to inhibit the growth of a variety of tumor cells in vitro and in vivo. We demonstrated previously that the short-chain fatty acid compound butyrate and its derivative tributyrin (both HDAC inhibitors) arrest cell growth and induce differentiation in human neuroblastoma (NB) cells. In the current study we investigated the effect of the HDAC inhibitor valproic acid (VPA) on proliferation and differentiation in human NB cells (SJ-N-KP, AF8). Treatment with VPA resulted in a strong inhibition of cell proliferation and induction of cell differentiation, as revealed by neurite outgrowth and increase of acetylcholinesterase specific activity. Moreover, we addressed the question of whether the cyclin-dependent kinase inhibitors p21(Cip1) and p27(Kip1) are involved in the mechanism of action of members of the short-chain fatty acids class (VPA, sodium butyrate and tributyrin) of HDAC inhibitors, in human NB cells. We demonstrated that p21(Cip1) is a common target of induction of transcription and protein expression for all the three compounds, while only VPA induced a concomitant increase of p27(Kip1) gene expression. These results suggest that p21(Cip1) could be involved in the inhibition of proliferation and induction of differentiation in human NB cells induced by treatment with VPA or tributyrin or sodium butyrate. Moreover, p21(Cip1) could be applied in the molecular monitoring of drug action in the possible therapeutic application of these short-chain fatty acid members of HDAC inhibitors for human NB treatment.
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PMID:p21Waf1/Cip1 is a common target induced by short-chain fatty acid HDAC inhibitors (valproic acid, tributyrin and sodium butyrate) in neuroblastoma cells. 1587 Sep 34

Neuroblastoma, characterized by heterogeneous cell population, is a common solid tumor in childhood and some malignant neuroblastomas are refractory to conventional chemotherapy. Recently, treatment with arsenic trioxide (As2O3) was found effective in the treatment of acute promyelocytic leukemia as well as neuroblastoma cells by inducing apoptosis. To define the mechanism contributing to cell death in those heterogenous cell populations, the authors used two different types of neuroblastoma cells, SH-SY5Y and SK-N-AS, to compare the pathways that mediate death response to arsenic trioxide. With arsenic trioxide exposure, both cell lines were arrested at the S-G2/M phase with the increase of cyclin B expression and CDK1 activity. Although caspase 3 was activated in both cell lines, the NF-kappaB activity and the expression of cyclin D1, cyclin E, and p27 were different. Therefore, arsenic trioxide could be an effective cytotoxic drug for the treatment of heterogeneous cellular population of neuroblastoma.
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PMID:Arsenic trioxide inhibits cell growth in SH-SY5Y and SK-N-AS neuroblastoma cell lines by a different mechanism. 1651 39

The ubiquitin Carboxyl-terminal Hydrolase-L1 gene (UCHL1) is a key enzyme in the protein degradation pathway; however, its precise role in protecting cells under stress conditions is unclear. In the present study we investigated the activity of this gene in human NT2/D1 embryonal carcinoma cells subjected to oxygen-glucose deprivation (OGD) and reoxygenation. OGD/reoxygenation cause global metabolic changes due to energy withdrawal and the subsequent generation of reactive oxygen species which initiates either a stress-adaptation-survival response or cell death, depending on the severity of the insult. A bi-phasic change in UCHL1 expression was observed by Q-PCR, Western blotting and flow cytometry. Down regulation of UCHL1 was detected immediately after OGD treatment and its expression was subsequently restored and increased 6 h after OGD treatment as well as during reoxygenation. Furthermore, flow cytometry analysis detected a lower level of UCHL1 only in apoptotic cells that had severe loss of mitochondrial membrane potential. Accordingly, down-regulation of endogenous UCHL1 by antisense cDNA in mouse N2a neuroblastoma cells increased the cell's sensitivity to OGD treatment. This down-regulation of endogenous UCHL1 led to the accumulation of p27, suggesting that UCHL1 is an essential gene to maintain cell homeostasis under normal growth and oxidative stress conditions.
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PMID:Oxidative stress regulated expression of ubiquitin Carboxyl-terminal Hydrolase-L1: role in cell survival. 1654

Alzheimer's disease (AD) is characterized by the accumulation and aggregation of misfolded proteins. The presence of misfolded proteins in the endoplasmic reticulum (ER) triggers a cellular stress response called the unfolded protein response (UPR). Previously, we have shown that the UPR is activated in AD neurons. In actively dividing cells, activation of the UPR is accompanied by decreased cell cycle protein expression and an arrest in the G1 phase of the cell cycle. Aberrant expression of cell cycle proteins has been observed in post mitotic neurons in AD and is suggested to be involved in neurodegeneration. In this study we show that the protein levels of BiP/GRP78, an ER-stress marker, is increased in Braak stages B and C for amyloid deposits. This is in contrast to the levels of cell cycle markers cyclin D1, cyclin E and phosphorylated retinoblastoma protein (ppRb) which are decreased in Braak stage C compared to Braak stage A for amyloid deposits. In addition, we report a negative correlation between neuronal expression of ppRb and expression levels of BiP/GRP78 in control and AD cases. Activation of the UPR in neuronal cells induces changes in cell cycle protein expression similar to these observed in AD brain. ER stress inducers tunicamycin and thapsigargin down-regulate cell cycle proteins ppRb and cyclin D1 in differentiated neuroblastoma cells. In contrast, protein levels of p27, a cyclin dependent kinase inhibitor, are increased after induction of ER-stress using tunicamycin. These data suggest that activation of the UPR affects cell cycle protein expression in neurons during neurodegeneration in AD.
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PMID:The unfolded protein response affects neuronal cell cycle protein expression: implications for Alzheimer's disease pathogenesis. 1656 50

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