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)

Op18 is a highly conserved major cytosolic phosphoprotein that is expressed at high levels in acute leukemia and in neuroblastoma. In this study we present evidence pointing to a role for Op18 in cellular proliferation. Blocking of Op18 mRNA translation using antisense oligonucleotides delayed entrance of mitotically stimulated normal peripheral blood lymphocytes into the S phase. Moreover treatment of HL-60 promyelocytic leukemia cells with DMSO or PMA which induced terminal differentiation resulted in a decrease in the level of Op18 RNA and protein. Inhibition of lymphoid proliferation with cyclosporin also resulted in reduced Op18 levels.
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PMID:Involvement of OP18 in cell proliferation. 193 Feb 3

A blocking microcytotoxicity assay was used to detect soluble astrocytoma-associated antigen. The richest source of soluble antigen was found in spent culture media from an established glioblastoma (GF) tissue culture line. Also assayed were fractions of sonicated membrane antigen from another (GM) glioblastoma and pellets of GF and GM cultured glioblastoma tissue. Blocking by media conditioned by cultured normal human brain, breast cancer, neuroblastoma, meningioma, or 2-year-old astrocytoma cell lines was 41-82% lower. A monomer was isolated that blocked cytotoxicity and migrated in molecular exclusion chromatography with alpha-macroglobulins rather than the beta-2-microglobulins usually associated with histocompatibility antigens.
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PMID:Microcytotoxicity blocking assay for the detection and isolation of soluble astrocytoma association antigen. 654 96

We determined the expression of intercellular adhesion molecules (ICAM) on neuro-2a cells in order to evaluate whether they were involved in cytolysis of murine neuroblastoma. Fluorescence-activated cell sorting analysis revealed that the control neomycin-resistance-gene-transduced line (neuro-2a/LN) had poor expression of ICAM-1 (mean channel fluorescence, MCF = 3.7). An ICAM-1-positive transfectant of neuro-2a (neuro-2a/ICAM-1+) (MCF = 64.3) was generated to evaluate directly the role of this adhesion molecule in cytolysis. Neuro-2a/ICAM-1+ was more sensitive to LAK killing (69.7% at an effector-to-target ratio of 100:1) compared to neuro-2a/LN (48.6%) (P < 0.001). Blocking of neuro-2a/LN and neuro-2a/ICAM-1+ lysis with anti-ICAM-1 monoclonal antibodies (mAbs) did not account for all the LFA-1-dependent killing. These data indicate that even in neuro-2a/ICAM-1+ cells, other LFA-1 ligands participated in the effector-target interaction. Therefore, we examined these cell lines for ICAM-2 expression. Both neuro-2a/LN and neuro-2a/ICAM-1+ lines expressed ICAM-2 (MCF = 16.4 and 16.5). ICAM-2 accounted for the majority of the LFA-1-dependent killing in the ICAM-1-negative target, neuro-2a/LN, while ICAM-1 played a primary role in the cytolysis of the ICAM-1+ transfectant. Inhibition of lysis in the presence of anti-ICAM-1 and ICAM-2 mAbs was comparable to that seen with the addition of anti-LFA-1 mAb, indicating that other LFA-1 ligands were not involved in this system. ICAM-1 expression was associated with decreased in vivo tumorigenicity, mice inoculated with neuro-2a/ICAM-1+ cells had a significantly longer survival compared to those receiving neuro-2a/LN cells (median survival time 35.5 versus 24.5 days) (P < 0.001). It is important to note that ICAM-1 transfection of murine neuroblastoma did not alter its metastatic potential. We conclude that transfection of mouse neuroblastoma with ICAM-1 increases its sensitivity to in vitro lysis and reduces its in vivo tumorigenicity. In ICAM-1-negative murine neuroblastoma cells, ICAM-2 plays a primary role in cell-mediated lysis.
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PMID:Transfection of the mouse ICAM-1 gene into murine neuroblastoma enhances susceptibility to lysis, reduces in vivo tumorigenicity and decreases ICAM-2-dependent killing. 790 90

Muscarinic receptor stimulation elicits a redistribution of calmodulin (CaM) from the membrane fraction to cytosol in the human neuroblastoma cell line SK-N-SH. Increasing the intracellular Ca2+ concentration with ionomycin also elevates cytosolic CaM. The aim of this study was to investigate the roles of extracellular and intracellular Ca2+ pools in the muscarinic receptor-mediated increases in cytosolic CaM in SK-N-SH cells. Stimulus-mediated changes in intracellular Ca2+ were monitored in fura-2-loaded cells, and CaM was measured by radioimmunoassay in the 100,000-g cytosol and membrane fractions. The influx of extracellular Ca2+ normally seen with carbachol treatment in SK-N-SH cells was eliminated by pretreatment with the nonspecific Ca2+ channel blocker Ni2+. Blocking the influx of extracellular Ca2+ had no effect on carbachol-mediated increases in cytosolic CaM (168 +/- 18% of control values for carbachol treatment alone vs. 163 +/- 28% for Ni2+ and carbachol) or decreases in membrane CaM. Similarly, removal of extracellular Ca2+ from the medium did not affect carbachol-mediated increases in cytosolic CaM (168 +/- 26% of control). On the other hand, prevention of the carbachol-mediated increase of intracellular free Ca2+ by pretreatment with the cell-permeant Ca2+ chelator BAPTA/AM did attenuate the carbachol-mediated increase in cytosolic CaM (221 +/- 37% of control without BAPTA/AM vs. 136 +/- 13% with BAPTA/AM). The effect of direct entry of extracellular Ca2+ into the cell by K+ depolarization was assessed. Incubation of SK-N-SH cells with 60 mM K+ elicited an immediate and persistent increase in intracellular free Ca2+ concentration, but there was no corresponding alteration in CaM localization. On the contrary, in cells where intracellular Ca2+ was directly elevated by thapsigargin treatment, cytosolic CaM was elevated for at least 30 min while particulate CaM was decreased. In addition, treatment with ionomycin in the absence of extracellular Ca2+, which releases Ca2+ from intracellular stores, induced an increase in cytosolic CaM (203 +/- 30% of control). The mechanism for the CaM release may involve activation of the alpha isozyme of protein kinase C, which was translocated from cytosol to membranes much more profoundly by thapsigargin than by K+ depolarization. These data demonstrate that release of Ca2+ from the intracellular store is important for the carbachol-mediated redistribution of CaM in human neuroblastoma SK-N-SH cells.
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PMID:Cytosolic calmodulin is increased in SK-N-SH human neuroblastoma cells due to release of calcium from intracellular stores. 942 56

Amyloid beta peptide (Abeta), a proteolytic fragment of the amyloid precursor protein (APP), is a major component of the plaques found in the brain of Alzheimer's disease (AD) patients. These plaques are thought to cause the observed loss of cholinergic neurons in the basal forebrain of AD patients. In these neurons, particularly those of the nucleus basalis of Meynert, an up-regulation of 75kD-neurotrophin receptor (p75NTR), a nonselective neurotrophin receptor belonging to the death receptor family, has been reported. p75NTR expression has been described to correlate with beta-amyloid sensitivity in vivo and in vitro, suggesting a possible role for p75NTR as a receptor for Abeta. Here we used a human neuroblastoma cell line to investigate the involvement of p75NTR in Abeta-induced cell death. Abeta peptides were found to bind to p75NTR resulting in activation of NFKB in a time- and dose-dependent manner. Blocking the interaction of Abeta with p75NTR using NGF or inhibition of NFKB activation by curcumin or NFKB SN50 attenuated or abolished Abeta-induced apoptotic cell death. The present results suggest that p75NTR might be a death receptor for Abeta, thus being a possible drug target for treatment of AD.
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PMID:Beta-amyloid binds to p57NTR and activates NFkappaB in human neuroblastoma cells. 985 63

A CB1 cannabinoid receptor peptide fragment from the C-terminal juxtamembrane region autonomously inhibits adenylyl cyclase activity in a neuroblastoma membrane preparation. The cannabinoid receptor antagonist, SR141716A, failed to block the response. The peptide was able to evoke the response in membranes from Chinese hamster ovary (CHO) cells that do not express the CB1 receptor. These studies are consistent with a direct activation of Gi by the peptide. To test the importance of a BXBXXB sequence, Lys403 was acetylated, resulting in a peptide having similar affinity but reduced efficacy. N-Terminal truncation of Arg401 resulted in a 6-fold loss of affinity, which was not further reduced by sequential truncation of up to the first seven amino acids, four of which are charged. N-Terminal-truncated peptides exhibited maximal activity, suggesting that Gi activation can be conferred by the remaining amino acids. Truncation of the C-terminal Glu417 or substitution of Glu417 by a Leu or of Arg401 by a Norleucine reduced activity at 100 microM. The C-terminal juxtamembrane peptide was constrained to a loop peptide by placement of Cys residues at both terminals and disulfide coupling. This modification reduced the affinity 3-fold but yielded near-maximal efficacy. Blocking the Cys termini resulted in a loss of efficacy. Circular dichroism spectropolarimetry revealed that all C-terminal juxtamembrane peptide analogues exist in a random coil conformation in an aqueous environment. A hydrophobic environment (trifluoroethanol) failed to induce alpha-helix formation in the C-terminal juxtamembrane peptide but did so in less active peptides. The anionic detergent sodium dodecyl sulfate induced alpha-helix formation in all analogues except the loop peptide, where it induces a left-handed PII conformation. It is concluded that alpha-helix formation is not required for Gi activation.
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PMID:Regulation of Gi by the CB1 cannabinoid receptor C-terminal juxtamembrane region: structural requirements determined by peptide analysis. 1007 92

The surface receptors involved in natural killer (NK) cell triggering during the process of target cell lysis have been at least in part identified. These are members of a novel family of receptors that has been termed natural cytotoxicity receptors (NCR). The first three members of this emerging group of receptors are the NKp46, NKp44 and NKp30 molecules that all belong to the immunoglobulin superfamily. Blocking of these receptors inhibits NK-mediated cytotoxicity against a wide variety of tumor target cells. In the present study, we show that these NCR are also involved in NK-mediated killing of tumor cells of neural origin. Glioblastoma and neuroblastoma target cells were efficiently killed by all NK clones analyzed since little protection from NK lysis was mediated by HLA class I molecules. Blocking of one or another NCR inhibited cytotoxicity; however, optimal inhibition was only observed when the three receptors were blocked simultaneously. A sharp difference in cytotoxicity against neural tumors was demonstrated between NCR(bright) and NCR(dull) NK clones, further supporting the notion that NCR play a critical role in the induction of cytotoxicity against tumor target cells of different histotype. Finally, our data also indicate that CD16 does not function as a triggering receptor involved in lysis of neural tumors since no difference in cytotoxicity could be substantiated between CD16(+) and CD16(-) NK clones and no correlation could be detected between the NCR(bright)/NCR(dull) phenotype and CD16 expression.
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PMID:Involvement of natural cytotoxicity receptors in human natural killer cell-mediated lysis of neuroblastoma and glioblastoma cell lines. 1085 60

Previously, experimental in vivo results showed that the productively and persistently human cytomegalovirus (HCMV)-infected neuroblastoma cell line UKF-NB-4AD169 exhibits a more malignant phenotype than the non-infected variant UKF-NB-4. To prove the assumption that enhanced malignancy may be due to enhanced invasive potential of the infected cells we studied interactions of both lines with monolayers of cultured endothelial cells. UKF-NB-4AD169 cells adhered to and transmigrated through endothelial monolayer to a significantly higher extent compared with UKF-NB4. Furthermore, the adhesion of UKF-NB-4AD169 but not of UKF-NB4 resulted in focal disruption of the monolayer integrity which facilitates tumor cell transmigration. Blocking antibodies directed against the beta1 integrin chain as well as beta1alpha5 on the tumor cells specifically inhibited adhesion in a concentration-dependent manner. When UKF-NB-4 were pretreated with a beta1 integrin activating antibody, focal disruption of the endothelial integrity also occurred. These findings lead us to suggest that HCMV infection activates beta1alpha5 in the host neuroblastoma cell which in turn enables these cells to tightly adhere to endothelial cells. In the presence of the protease inhibitor phenantroline, beta1alpha5-mediated adhesion was not impaired whereas UKF-NB4AD169-mediated endothelial monolayer permeabilization was dose dependently inhibited. We conclude that human cytomegalovirus infection contributes to augmented neuroblastoma invasiveness via adhesion of activated beta1alpha5 and subsequent matrix digestion by proteases.
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PMID:Cytomegalovirus-infected neuroblastoma cells exhibit augmented invasiveness mediated by beta1alpha5 integrin (VLA-5). 1088 61

Motility is an important process that contributes to cancer cell spread. Growth factors are key regulators of motility in many cell types. Insulin-like growth factor I (IGF-I) causes SH-SY5Y human neuroblastoma cells to undergo dynamic morphological changes, leading to the extension of lamellipodia. IGF-I stimulated lamellipodia extension requires signaling through both phosphatidylinositol 3-kinase (PI3-K) and MAP kinase pathways. IGF-I, over a period of hours, stimulates SH-SY5Y and SHEP neuroblastoma cells to become more motile. While SH-SY5Y and SHEP cells use different insulin receptor substrate (IRS) isoforms to transduce signals from the IGF-I receptor, IGF-I has the same relative effect on the motility of both cell lines. Blocking the PI3-K and MAP kinase pathways attenuates the ability of IGF-I to increase motility. Overexpression of PTEN also attenuates IGF-I mediated motility. These results delineate some of the proximal events in the signaling mechanism utilized by IGF-I to stimulate cell motility.
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PMID:Insulin-like growth factor I stimulates motility in human neuroblastoma cells. 1170 26

Juvenile Batten disease is a neurodegenerative disease caused by accelerated apoptotic death of photoreceptors and neurons attributable to defects in the CLN3 gene. CLN3 is antiapoptotic when overexpressed in NT2 neuronal precursor cells. CLN3 negatively modulates endogenous ceramide levels in NT2 cells and acts upstream of ceramide generation. Because defects in regulation of apoptosis are involved in the development of cancer, we evaluated the expression of CLN3 on both mRNA and protein levels in a variety of cancer cell lines and solid colon cancer tissue. We also observed the effect of the blocking of CLN3 protein expression on cancer cell growth, survival, ceramide production, and apoptosis by using an adenovirus-bearing antisense CLN3 construct. We show that CLN3 mRNA and protein are overexpressed in glioblastoma (U-373G and T98g), neuroblastoma (IMR-32 and SK-N-MC), prostate (Du145, PC-3, and LNCaP), ovarian (SK-OV-3, SW626, and PA-1), breast (BT-20, BT-549, and BT-474), and colon (SW1116, SW480, and HCT 116) cancer cell lines but not in pancreatic (CAPAN and As-PC-1) or lung (A-549 and NCI-H520) cancer cell lines. CLN3 is also up-regulated in mouse melanoma and breast carcinoma cancer cell lines. We found CLN3 expression is 22-330% higher than in corresponding normal colon control tissue in 8 of 10 solid colon tumors. An adenovirus-expressing antisense CLN3 (Ad-AS-CLN3) blocks CLN3 protein expression in DU-145, BT-20, SW1116, and T98g cancer cell lines as seen by Western blot. Blocking of CLN3 expression using Ad-AS-CLN3 inhibits growth and viability of cancer cells. It also causes elevation in endogenous ceramide production through de novo ceramide synthesis and results in increased apoptosis as shown by propidium iodide and JC-1 staining. This suggests that Ad-AS-CLN3 may be an option for therapy in some cancers. More importantly these results suggest that CLN3 is a novel molecular target for cancer drug discovery.
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PMID:The CLN3 gene is a novel molecular target for cancer drug discovery. 1183 May 36

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