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)

Cell adhesion molecule 1 (CADM1) is a putative tumour suppressor gene, which is downregulated in many solid tumours. In neuroblastoma, loss of CADM1 expression has recently been found in disseminated tumours with adverse outcome, prompting us to investigate its role in neuroblastoma tumour progression. Oligonucleotide-microarray analysis of 251 neuroblastoma specimens demonstrated that CADM1 downregulation is associated with unfavourable prognostic markers like disseminated stage 4, age >18 months, MYCN amplification and chromosome 11q alterations (P<0.001 each). Furthermore, low CADM1 expression was significantly correlated with unfavourable gene expression-based classification (P<0.001) and adverse patient outcome (P<0.001). Bisulphite sequencing and genetic analysis of 18 primary neuroblastomas suggested that neither haploinsufficiency nor hypermethylation is regularly involved in CADM1 gene silencing in neuroblastoma, which is in contrast to results obtained in other malignancies. In addition, no mutations disrupting the CADM1 reading frame were found in 25 primary neuroblastomas. Over-expression of CADM1 in neuroblastoma cells resulted in significant reduction of proliferation, viability and colony formation in soft agar. Collectively, our results suggest that downregulation of CADM1 tumour suppressor gene expression is a critical event in neuroblastoma pathogenesis resulting in tumour progression and unfavourable patient outcome.
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PMID:Expression of the tumour suppressor gene CADM1 is associated with favourable outcome and inhibits cell survival in neuroblastoma. 1808 22

The von Hippel-Lindau tumour suppressor protein (pVHL) participates in many cellular processes including oxygen sensing, microtubule stability and primary cilia regulation. Recently, we identified ATP-dependent motor complex kinesin-2 to endogenously bind the full-length variant of VHL (pVHL30) in primary kidney cells, and mediate its association to microtubules. Here we show that pVHL also endogenously binds the neuronal kinesin-2 complex, which slightly differs from renal kinesin-2. To investigate the role of kinesin-2 in pVHL mobility, we performed fluorescence recovery after photobleaching (FRAP) experiments in neuroblastoma cells. We observe that pVHL30 is a highly mobile cytoplasmic protein, which becomes an immobile centrosomal protein after ATP-depletion in living cells. This response to ATP-depletion is independent of GSK3beta-dependent phosphorylation of pVHL30. Furthermore, VHL variant alleles with reduced binding to kinesin-2 fail to respond to ATP-depletion. Accordingly, interfering with pVHL30-KIF3A interaction by either overexpressing a dominant negative construct or by reducing endogenous cellular levels of KIF3A by RNAi abolishes pVHL's response to ATP-depletion. From these data we suggest that mobility of a subcellular pool of pVHL is regulated by the ATP-dependent kinesin-2 motor. Kinesin-2 driven mobility of cytoplasmic pVHL might enable pVHL to function as a tumour suppressor.
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PMID:Mobility of the von Hippel-Lindau tumour suppressor protein is regulated by kinesin-2. 1826 24

The molecular genetics of inherited phaeochromocytoma have received considerable attention, but the somatic genetic and epigenetic events that characterise tumourigenesis in sporadic phaeochromocytomas are less well defined. Previously, we found considerable overlap between patterns of promoter region tumour suppressor gene (TSG) hypermethylation in two neural crest tumours, neuroblastoma and phaeochromocytoma. In order to identify candidate biomarkers and epigenetically inactivated TSGs in phaeochromocytoma and neuroblastoma, we characterised changes in gene expression in three neuroblastoma cell lines after treatment with the demethylating agent 5-azacytidine. Promoter region methylation status was then determined for 28 genes that demonstrated increased expression after demethylation. Three genes HSP47, homeobox A9 (HOXA9) and opioid binding protein (OPCML) were methylated in >10% of phaeochromocytomas (52, 17 and 12% respectively). Two of the genes, epithelial membrane protein 3 (EMP3) and HSP47, demonstrated significantly more frequent methylation in neuroblastoma than phaeochromocytoma. These findings extend epigenotype of phaeochromocytoma and identify candidate genes implicated in sporadic phaeochromocytoma tumourigenesis.
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PMID:Evaluation of a functional epigenetic approach to identify promoter region methylation in phaeochromocytoma and neuroblastoma. 1849 31

Increased retinoic acid receptor beta (RARbeta(2)) gene expression is a hallmark of cancer cell responsiveness to retinoid anticancer effects. Moreover, low basal or induced RARbeta(2) expression is a common feature of many human cancers, suggesting that RARbeta(2) may act as a tumour suppressor gene in the absence of supplemented retinoid. We have previously shown that low RARbeta(2) expression is a feature of advanced neuroblastoma. Here, we demonstrate that the ABC domain of the RARbeta(2) protein alone was sufficient for the growth inhibitory effects of RARbeta(2) on neuroblastoma cells. ATP7A, the copper efflux pump, is a retinoid-responsive gene, was upregulated by ectopic overexpression of RARbeta(2). The ectopic overexpression of the RARbeta(2) ABC domain was sufficient to induce ATP7A expression, whereas, RARbeta(2) siRNA blocked the induction of ATP7A expression in retinoid-treated neuroblastoma cells. Forced downregulation of ATP7A reduced copper efflux and increased viability of retinoid-treated neuroblastoma cells. Copper supplementation enhanced cell growth and reduced retinoid-responsiveness, whereas copper chelation reduced the viability and proliferative capacity. Taken together, our data demonstrates ATP7A expression is regulated by retinoic acid receptor beta and it has effects on intracellular copper levels, revealing a link between the anticancer action of retinoids and copper metabolism.
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PMID:ATP7A is a novel target of retinoic acid receptor beta2 in neuroblastoma cells. 1912 67

The tumour suppressor gene RASSF1A is known to be frequently silenced by promoter hypermethylation in neuroblastoma tumours. Here we explored the possible prognostic significance of aberrant promoter hypermethylation of RASSF1A in serum DNA samples of patients with neuroblastoma as a surrogate marker for circulating tumour cells. We analysed the methylation status of the RASSF1A gene in matched tumour and pretreatment serum DNA obtained from 68 neuroblastoma patients. Hypermethylation of RASSF1A in tumour samples was found in 64 patients (94%). In contrast, serum methylation of RASSF1A was observed in 17 patients (25%). Serum methylation of RASSF1A was found to be statistically associated with age > or =12 months at diagnosis (P=0.002), stage 4 (P<0.001) and MYCN amplification (P<0.001). The influence of serum RASSF1A methylation on prognosis was found to be comparable with that of the currently most reliable marker, MYCN amplification on univariate analysis (hazard ratio, 9.2; 95% confidence interval (CI), 2.8-30.1; P<0.001). In multivariate analysis of survival, methylation of RASSF1A in serum had a hazard ratio of 2.4 (95% CI, 0.6-9.2), although this association did not reach statistical significance (P=0.194). These findings show that the methylation status of RASSF1A in the serum of patients with neuroblastoma has the potential to become a prognostic predictor of outcome.
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PMID:RASSF1A hypermethylation in pretreatment serum DNA of neuroblastoma patients: a prognostic marker. 1916 2

Understanding migration, population and differentiation of primordial neural crest cells will help in evolving biology of neuroblastoma. P16 is a tumour suppressor gene contributing in cell cycle arrest as cyclin dependent kinase inhibitor. Methylation is an important mechanism for silencing tumor suppressor genes. The aim of this study was to evaluate the role of p16 and its methylation pattern in neuroblastoma tumorigenesis. This study included 23 cases (11 male; 12 female) and 31 samples from archival paraffin embedded tissues. P16 was studied in 5 samples of normal adrenal medullar tissue, 5 samples of adrenal tissue including blastic rests, 5 samples of neuroblastoma in situ tissue and in 8 samples of neuroblastoma tissues primary and after chemotherapy in each group. The adrenal gland tissues were obtained from paediatric autopsy cases. Expression of p16 was searched by immunohistochemistry. Methylation specific PCR was used to detect the methylation rate of p16. The age range of autopsy cases was between 20 weeks of foetal age and 36 months of infant age. The mean age of neuroblastoma cases was 45 months. P16 expression was positive in normal adrenal tissues, in one of 5 samples of adrenal blastic rest tissue and in all of samples of after chemotherapy; while no expression was observed in neuroblastoma and neuroblastoma in situ tissues. P16 methylation was observed in samples of neuroblastoma in situ and primary neuroblastoma tissues. Our results suggest that p16 and its methylation seems to play role in neuroblastoma tumorigenesis and in the migration, population and differentiation of primordial neural crest cells. Inhibitors of DNA methylation may provide a useful tool for restoring p16 activity in neuroblastoma treatment.
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PMID:Expression and methylation pattern of p16 in neuroblastoma tumorigenesis. 1946 88

Hsp90 chaperones stabilize many tyrosine kinases including several oncogenes, which are inhibited or induced to degrade by the Hsp90 inhibitor geldanamycin (GA). As a consequence, GA has been developed for future chemotherapeutic use in several tumour types including neuroblastoma (NB). Alternative splicing of the neurotrophin receptor tyrosine kinase TrkA may have a pivotal function in regulating NB behaviour, with reports suggesting that tumour-suppressing signals from TrkA may be converted to oncogenic signals by stress-regulated alternative TrkAIII splicing. Within this context, it is important to know whether Hsp90 interacts with TrkA variants in NB cells and how GA influences this. Here, we report that both TrkAI and TrkAIII are Hsp90 clients in human NB cells. TrkAI exhibits GA-sensitive interaction with Hsp90 required for receptor endoplasmic reticulum export, maturation, cell surface stabilization and ligand-mediated activation, whereas TrkAIII exhibits GA-sensitive interactions with Hsp90 required for spontaneous activity and to a lesser extent stability. We show that GA inhibits proliferation and induces apoptosis of TrkAI expressing NB cells, whereas TrkAIII reduces the sensitivity of NB cells to GA-induced elimination. Our data suggest that GA-sensitive interactions with Hsp90 are critical for both TrkAI tumour suppressor and TrkAIII oncogenic function in NB and that TrkAIII expression exerts a negative impact on GA-induced NB cell eradication, which can be counteracted by a novel TrkAIII-specific peptide nucleic acid inhibitor.
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PMID:The neuroblastoma tumour-suppressor TrkAI and its oncogenic alternative TrkAIII splice variant exhibit geldanamycin-sensitive interactions with Hsp90 in human neuroblastoma cells. 1973 38

Netrin-1 attracts or repels growing axons during development. The UNC5 receptors mediate the repulsive response, either alone or in complex with DCC receptors. The signaling mechanisms activated by UNC5 are poorly understood. Here, we examined the role of Rho GTPases in UNC5a signaling. We found that UNC5a induced neurite outgrowth in N1E-115 neuroblastoma cells in a netrin-1- and Rac1-dependent manner. UNC5a lacking its cytoplasmic tail also mediated this effect. In fibroblasts, UNC5a was able to activate RhoA and to a lower extent Rac1 and Cdc42 in response to netrin-1. Using Fluorescence Resonance Energy Transfer (FRET) intermolecular probes, we visualized the spatial and temporal activation of Rac1, Cdc42 and RhoA in live N1E-115 cells expressing UNC5a during neurite outgrowth. We found that Rac1 but not Cdc42 was transiently activated at the leading edge of the cell during neurite initiation. However, at later times when well-developed neurites were formed, active RhoA was found in the cell body and at the base of the neuronal leading process in UNC5a-expressing cells. Together, these findings demonstrate that the netrin-1 receptor UNC5a is able to induce neurite outgrowth and to differentially activate RhoA and Rac1 during neurite extension in a spatial and temporal manner.
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PMID:Spatial and temporal activation of the small GTPases RhoA and Rac1 by the netrin-1 receptor UNC5a during neurite outgrowth. 1975 50

Dual specificity phosphatases are characterised by their ability to dephosphorylate both phosphotyrosine and phosphoserine/threonine residues within the one substrate. The aim of this study was to characterise the phosphatase activity of the atypical dual specificity phosphatase, DUSP26 on MAP kinases, and to determine its expression, regulation and function in cancer cells. Overexpression and knockdown of DUSP26 in epithelial cells and in vitro phosphatase assays were used to demonstrate that, contrary to several published reports, DUSP26 does not act as a dual specificity phosphatase on ERK, JNK or p38 MAPKs. However, overexpression of DUSP26 in MCF10A epithelial cells suppressed colony formation and acinar growth in 3D culture, effects dependent on its phosphatase activity, while knockdown of DUSP26 in HOSE17.1 cells enhanced colony formation and cellular proliferation. DUSP26 mRNA expression was reduced in neuroblastoma, brain and ovarian cancer cell lines. Consistent with epigenetic silencing of DUSP26, expression was enhanced by treatment of cells with 5-aza-2-deoxycitidine and trichostatin A, and a CpG island upstream of the DUSP26 transcriptional start site was variably methylated in cancer cell lines. Together, these results help to clarify confusion in the literature relating to DUSP26 substrate specificity and support recent reports that substrates other than MAPKs are the primary substrates of this phosphatase. In addition, they indicate that DUSP26 may function as a tumour suppressor in particular cancers.
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PMID:DUSP26 negatively affects the proliferation of epithelial cells, an effect not mediated by dephosphorylation of MAPKs. 2034 85

UNC5A is an axon-guidance molecule, and plays a critical role in neuronal development and differentiation as a netrin-1 receptor. Emerging evidence suggests that axon guidance molecules including UNC5A regulate apoptosis in non-neuronal cells. Here, we report that UNC5A regulates apoptosis as a downstream target of p53. UNC5A expression was strongly induced by exogenous and endogenous p53. Chromatin immunoprecipitation (ChIP) revealed that p53 binds to a sequence in the promoter region of the UNC5A gene. Reporter assays showed that this sequence exhibits p53-dependent transcriptional activity. Overexpression of UNC5A significantly suppressed colony formation of two glioblastoma cell lines-U373MG and T98G. UNC5A dramatically induced apoptosis through the activation of caspase-3 in various cancer cell lines, including LS174T (colon cancer), U373MG (glioblastoma), SH-SY5Y (neuroblastoma), and SKNAS (neuroblastoma). Finally, gamma irradiation strongly induced the expression of UNC5A mRNA in the spleen and colon of p53+/+ mice, but not in those of p53-/- mice, implying that the transcription of UNC5A in vivo is regulated by p53. These results suggest that UNC5A is a novel transcriptional target of p53 and plays a role in p53-dependent apoptosis.
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PMID:Identification of UNC5A as a novel transcriptional target of tumor suppressor p53 and a regulator of apoptosis. 2037

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