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)

The survival, proliferation and differentiation of neuroblastoma (NB) cells are largely dependent on adhesion to extracellular matrix (ECM) proteins. Integrin occupancy seems to play a primary role. To elucidate the role of integrin heterodimers during neuronal cell death, we have analysed the changes in integrin expression in 2 human NB cell lines which represent different stages of neuronal maturation. Retinoic acid (RA) had different effects on the 2 NB cell lines: on LAN-5 cells it acted as a differentiation-promoting agent, while it had an anti-proliferative effect on GI-LI-N cells, driving them to apoptosis. Indeed, this occurrence was evidenced by the visualization of a "DNA ladder" on gel electrophoresis, by propidium iodide staining, and by DNA flow cytofluorimetric analysis. RA treatment rapidly and drastically decreased integrin expression and cell adhesion on GI-LI-N cells. These findings were also obtained by treating both NB cell lines with the apoptotic agent fenretinide. Furthermore, treatment of NB cells with anti-sense oligonucleotides to beta 1 integrin chain specifically induced chromatin condensation and nucleosomal DNA laddering. Moreover, blocking cell-matrix interactions by means of perturbing antibody against beta 1 subunit resulted in the induction of typical features of apoptotic cells. In conclusion, these findings indicate that abrogation of cell adhesion through down-modulation of integrin receptors plays a crucial role in the induction of neuroblastoma programmed cell death.
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PMID:Induction of apoptosis in human neuroblastoma cells by abrogation of integrin-mediated cell adhesion. 909 51

The neural cell adhesion molecule (N-CAM) plays a significant role in the development of the nervous system. Three different isoforms of the molecule have been described, with molecular masses of 180, 140 and 120 kDa, whose differential expression in neurons seems to be related to their state of differentiation. We took advantage of the use of the human neuroblastoma cell line LAN-5, which can be differentiated in vitro by retinoic acid (RA) into neuronal cells, for studying the expression of N-CAM isoforms, and their polysialic acid (PSA) content, at the protein and mRNA levels. Anti-N-CAM polyclonal antibodies recognizing all the N-CAM isoforms and a monoclonal antibody recognizing PSA were used in Western blot experiments with extracts from undifferentiated and RA-differentiated cells. We found that undifferentiated cells express very little of the 180 kDa N-CAM isoform and a large amount of the 140 kDa isoform. A 4-fold increase in the expression of the 180 kDa N-CAM isoform was obtained when LAN-5 cells were differentiated by RA for 8 days, whereas a 1.8-fold increase in the expression of the 140 kDa N-CAM isoform was observed upon differentiation. Similarly, the levels of the 7.4 kb mRNA coding for N-CAM 180 kDa, determined by Northern blot analysis, were barely detectable in undifferentiated cells, and showed a 3.8-fold increase upon differentiation. By contrast, only a 1.3-fold increase in the 6.7 kb mRNA, coding for the 140 kDa N-CAM isoform, was observed. N-CAM was always found in its polysialylated form in both undifferentiated and RA-differentiated cells. This indicates that, in LAN-5 cells, the expression and activity of the polysialytransferase enzyme precedes the acquisition of a neuronal phenotype.
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PMID:Expression of PSA-N-CAM in human neuroblastoma cells induced to neuronal differentiation by retinoic acid. 924 88

The growth rate of the human neuroblastoma LAN-1 cells was decreased half after 48 h of incubation with dialkylglycerophosphocholine 1-O-octadecyl 2-O-methyl-sn-glycero-3-phosphocholine (ET-18-O-CH3), at 4 microM. Four radiolabelled precursors, [3H]hexadecanol, [3H]hexadecanoic, [3H]arachidonic acids, or N-acetyl[14C] neuraminic acid were added in the culture medium to follow their cell incorporation among various glycerolipids, gangliosides and eicosanoids. Several modifications of the glycerophospholipid synthesis induced by ET-18-O-CH3 were observed. The inhibition of 1-O-[3H]hexadecanoyl 2-O-acyl glycerophosphocholine synthesis provoked the accumulation of diacylglycerophosphoethanolamine. The inhibition of 1-O-[3H]hexadecyl 2-O-acyl glycerophosphocholine and ethanolamine synthesis enhanced the synthesis of non phosphorous glycerolipids with 1-O-[3H]hexadecyl-sn-glycerol backbone. The eicosanoid synthesis was not disturbed. Alterations of ether- ester- and diester-linked glycerophospholipid and non phosphorous glycerolipid synthesis could modify the lipid membrane distribution and affect the enzymatic pathway of the ceramide synthesis. An excess of [3H]hexadecanoyl-amide molecular species of ceramides in mono- and disialo-gangliosides was observed. By contrast the N-acetyl [14C]neuraminosyl-linkage in these two groups of gangliosides never reached the hypersialylation process described during sialoglyco-peptide synthesis in murine carcinoma kidney cell lines. Both metabolic disturbances of the glycerolipid and ganglioside synthesis reported for the neuroblastoma LAN-1 cell line sensitive to ET-18-O-CH3 extend and confirm the previous studies with other more resistant cell lines from the murine Meth A sarcoma and the rat colon carcinoma.
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PMID:Severe modifications of ether- ester- or diester-linked glycerolipid and non glycerolipid synthesis in human neuroblastoma LAN-1 cells cultured with octadecylmethylglycerophosphocholine. 933 88

Neuroblastoma cells can undergo neural differentiation upon treatment with a variety of chemical inducers and growth factors. During this process, many cell cycle-related genes are downregulated while differentiation-specific genes are triggered. The retinoblastoma family proteins, pRb, p107, and pRb2/p130, are involved in transcriptional repression of proliferation genes, mainly through their interaction with the E2F transcription factors. We report that pRb2/p130 expression levels increased during differentiation of neuroblastoma cell line LAN-5. On the other hand, both pRb and p107 decreased and underwent progressive dephosphorylation at late differentiation times. The expression of B-myb and c-myb, two targets of the retinoblastoma family proteins, were downregulated in association with the increase of pRb2/p130, which was detected as the major component of the complex with E2F on the E2F site of the B-myb promoter in differentiated cells. Interestingly, E2F4, a preferential partner of p107 and pRb2/p130, was upregulated and underwent changes in cellular localization during differentiation. In conclusion, our data suggest a major role of pRb2/p130 in the regulation of B-myb promoter during neural differentiation despite the importance of cofactors in modulating the function of the retinoblastoma family proteins.
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PMID:Retinoblastoma-related protein pRb2/p130 and its binding to the B-myb promoter increase during human neuroblastoma differentiation. 936 Nov 85

Stimulated astrocytes specifically release large amounts of high-mobility group 1 protein into the extracellular medium. The identity of the released protein has been established on the basis of its biological activity on murine erythroleukaemia cells and by its immunoreactivity against a specific monoclonal antibody. High-mobility group 1 protein also plays an essential role in differentiation of LAN-5 neuroblastoma cells which, following stimulation with retinoic acid, express high-mobility group 1 protein on to the external surface of the plasma membrane. In retinoic acid-induced LAN-5 cells, high-mobility group 1 protein is not secreted but is accumulated in a membrane-bound form, particularly at the level of neurite outgrowths. These cells can also be induced to differentiate by high-mobility group 1 protein coated on the surface of the cell culture vessels. The specific function of the protein in this process is indicated by inhibition of cell differentiation by an anti-high-mobility group 1 protein antibody. The data are consistent with a role of high-mobility group 1 protein in promoting cell-cell interactions and in the development of nerve tissues.
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PMID:Stimulated astrocytes release high-mobility group 1 protein, an inducer of LAN-5 neuroblastoma cell differentiation. 946 26

Tuberous sclerosis is an autosomal dominant disorder. Besides the development of benign growths (hamartomas) in different tissues, one hallmark of this disease is the presence of highly epileptogenic dysplastic lesions in the cerebral cortex (tubers) composed of abnormal shaped neurones. Patients often show evidence of severe mental retardation. Linkage analysis revealed two disease-determining genes on chromosome 9 and chromosome 16. The TSC2 gene on chromosome 16 encodes a 1784-amino acid putative tumour suppressor protein, tuberin, that functions as a GTPase-activating protein. Here we show that tuberin expression is upregulated upon induction of neuronal differentiation in the neuroblastoma cell lines SK-N-SH and LAN-1. This upregulation occurs at post-transcriptional level and is independent of the proliferation status. TSC2 expression is unaffected during differentiation of C2C12 myoblasts into myotubes and of F9 embryonal carcinoma cells into cells resembling parietal endoderm. Antisense inhibition of tuberin expression in SK-N-SH or LAN-1 cells inhibits neuronal differentiation, but does not affect the differentiation of F9 cells. Ectopic overexpression of TSC2 not only reverts the antisense-associated phenotype but furthermore accelerates the neuronal differentiation process. Our data show for the first time that tuberin plays a critical role in neuronal differentiation. Such role is consistent with the phenotype of tuberous sclerosis patients, who inherit one defective TSC2 allele, and frequently lose the remaining normal allele in many of the tubers/hamartomas which develop in the central nervous system of these patients.
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PMID:A role of the tuberous sclerosis gene-2 product during neuronal differentiation. 961 28

Direct experimental evidence shows that tumor growth and metastases are angiogenesis-dependent. Neuroblastoma (NB) is the most common extracranial malignant solid tumor of childhood. In this study, we investigated 2 human NB cell lines, LAN-5 and GI-LI-N, for their capacity to secrete 2 extracellular matrix-degrading enzymes, MMP-2 and MMP-9, and to induce in vitro human microvascular endothelial cells (EC) to proliferate and in vivo angiogenesis in the chick embryo chorio-allantoic membrane (CAM) assay. Conditioned medium (CM) from both cell lines stimulated in vitro EC proliferation and the effect of LAN-5 CM was higher than that of GI-LI-N cells. Moreover, anti-VEGF, but not anti-FGF2 antibodies, prevented growth increment of EC. NB cell lines secreted the active form of MMP-2 almost exclusively, LAN-5 cells more than GI-LI-N cells. Both cell lines, LAN-5 cells more than GI-LI-N ones, induced angiogenesis in the CAM assay. Our data suggest that the 2 NB cell lines are angiogenic, to LAN-5 cells more than GI-LI-N ones. LAN-5 cells are indeed endowed with a more aggressive and invasive phenotype.
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PMID:Human neuroblastoma cells produce extracellular matrix-degrading enzymes, induce endothelial cell proliferation and are angiogenic in vivo. 966 9

Retinoids modulate several cell functions and especially inhibit the growth of tumor cells. Their biological activity is mediated by retinoic acid receptors (RARs), of which three subtypes (alpha, beta, gamma) have been identified. In human neuroblastoma (NB) reduced endogenous RAR-gamma expression was suggested to diminish the sensitivity for retinoids, to promote proliferation, and to contribute to the malignant phenotype. To correlate receptor selectivity with in vitro activity, we analysed the effect of six synthetic retinoids with selectivity for human RAR-alpha/beta/gamma on the human LAN-5 NB cell line and compared it with the natural compound all-trans-retinoic acid (ATRA). Apoptosis was determined by flow-cytometry using terminal-deoxynucleotidyl transferase to end-label DNA fragments in situ in apoptotic cells. The antagonist for RAR-beta/gamma CD2665 as well as the selective agonists for RAR-alpha CD336 and RAR-beta CD2019 were less effective in growth inhibition than ATRA. In contrast, the synthetic RAR-gamma selective agonists CD437 and CD2325 induced a concentration- and time-dependent antiproliferative effect, which was similar or even more pronounced than ATRA. In contrast to ATRA, the adition of CD437 and CD2325 did not induce morphological changes typical of NB cell maturation but resulted in morphological features consistent with the occurrence of programmed cell death. Flow-cytometric analysis showed that in contrast to ATRA the addition of CD 437 and CD 2325 results in progressive time-dependent increase of apoptotic cells (25.9% and 57.7% after 72 hours). In conclusion, our study demonstrates RAR-gamma selectively binding retinoids dramatically suppress NB cell growth, primarily by inducing programmed cell death rather than by cell differentiation. Since advanced or disseminated NB tumors endogenously express low levels of RAR-gamma and lack of apoptosis is involved in tumor progression, RAR-gamma selectively binding retinoids may be more appropriate retinoids for clinical trials in NB.
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PMID:Antiproliferative activity and apoptosis induced by retinoic acid receptor-gamma selectively binding retinoids in neuroblastoma. 967 4

Tau protein, a neuronal microtubule-associated protein is phosphorylated on several sites when extracted from brain tissue and is a substrate for many protein kinases in vitro. In Alzheimer's disease it becomes hyperphosphorylated, notably at Ser-Pro or Thr-Pro motifs, and forms the paired helical filaments (PHFs). The increased phosphorylation can be detected by several antibodies raised against Alzheimer tau. We show here that a similar type of phosphorylation can be observed in cells of neuronal origin during mitosis. Murine neuroblastoma cells (N2a) were stably transfected with htau40, the largest of the six human tau isoforms in the brain. We used several antibodies reporting on the state of phosphorylation of tau (Tau-1, AT8, AT180, PHF-1, and T46) and the antibody MPM-2 that recognizes phosphorylated mitotic proteins. The results show that tau is in a state of low phosphorylation in interphase cells, whereas during mitosis it becomes highly phosphorylated. This behavior was also found for endogenous tau protein in human neuroblastoma cells (LAN-5). The similarity between tau phosphorylation in dividing neuronal cells and Alzheimer degenerating neurons may indicate that aging neurons exposed to inappropriate signals respond by an attempt to activate their machinery for regeneration.
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PMID:Mitotic phosphorylation of tau protein in neuronal cell lines resembles phosphorylation in Alzheimer's disease. 971 64

In this study we provide evidence that the protein kinase C (PKC)-straight theta isoenzyme is recruited on to the mitotic spindle in dividing murine erythroleukaemia (MEL) cells and associates specifically with centrosome and kinetochore structures. None of the other PKC isoenzymes (-alpha, -delta, -epsilon, -mu and -zeta) expressed by MEL cells shows this localization on the mitotic spindle. An identical subcellular distribution of PKC-straight theta is also observed in dividing murine P3 myeloma cells and human LAN-5 neuroblastoma cells, indicating that this PKC isoenzyme interacts with the mitotic apparatus in mammalian cells. In phorbol-ester-treated non-growing MEL cells, a rapid change in the intracellular distribution of PKC-straight theta occurs. Under these conditions, PKC-straight theta is translocated from the nuclear to the cytosolic cell compartment, an event that is accompanied by phosphorylation of the PKC-straight theta molecule and is followed by its down-regulation. The recovery of cell growth capacity results in the concomitant reappearance of PKC-straight theta. Furthermore, when MEL cells acquire the differentiated non-growing phenotype, the level of PKC-straight theta is reduced to less than 5%, suggesting that this PKC isoenzyme is no longer required. We propose that, unlike other members of the PKC family, PKC-straight theta may play a role in cell proliferation.
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PMID:Protein kinase C-theta is specifically localized on centrosomes and kinetochores in mitotic cells. 985 32

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