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)

The surface membrane antigens of 7 neuroblastoma and 91 leukemia-lymphoma cell lines were studied with the use of a total of 36 murine monoclonal antibodies (MoAb) primarily developed against hematopoietic cells and 2 MoAb developed against human fetal brain. Five of the MoAb against hematopoietic cells (BA-1, BA-2, DU-ALL-1, J-5, and BA-3) consistently bound to common acute lymphoblastic leukemia cell lines, and 2 others (MCS-2 and OKM-1) reacted uniformly with acute myeloblastic-acute monoblastic leukemia cell lines. However, these 7 MoAb also reacted with 1-7 neuroblastoma cell lines. All the human neuroblastoma cell lines bound MoAb BA-2 and DU-ALL-1. Six of the 7 lines reacted with BA-1. Only 1 neuroblastoma cell line (SJ-N-CG) gave positive staining with J-5 and BA-3, and another line (SK-N-AS) bound MoAb MCS-2 and OKM-1. Anti-fetal brain MoAb (UJ-13A and UJ-127-11) were highly positive for all the neuroblastoma cell lines. By contrast, 4 of 43 leukemia-lymphoma cell lines tested bound these anti-fetal brain antibodies. Both B3/25 and OKT-9, anti-transferrin receptor antibodies, reacted with all of the hematopoietic and neuroblastoma cell lines. These results demonstrate that neuroblastoma and hematopoietic cell lines possess common antigenic determinants despite their different embryologic origins. The neuroblastoma cell lines may be classified into subgroups on the basis of phenotype profiles determined by the MoAb. MoAb may be useful in characterization and classification of neuroblastoma cells, as has already proved to be the case for cells of the hematopoietic lineages.
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PMID:Determination of cell surface membrane antigens common to both human neuroblastoma and leukemia-lymphoma cell lines by a panel of 38 monoclonal antibodies. 661 Jul 92

We have examined the subcellular distribution of synapsins and synaptophysin in density gradients from synapsin- and vector-transfected NG108-15 cells, since we recently found that transfection of synapsin IIb cDNA into neuroblastoma x glioma hybrid cells (NG108-15) resulted in cell lines that had a more neuronal phenotype than controls. The increase in synapsins and synaptophysin in the transfected cells was maximal in the region of the gradient containing small synaptic vesicles. The transferrin receptor, a marker for early endosomes, did not increase in the synapsin-containing fractions in the transfected cells. Secretogranin I, a soluble protein stored in and secreted from large dense cored vesicles, showed a very pronounced increase in the dense regions of gradients from transfected cells. These subcellular fractionation data suggest a possible role for the synapsins in the regulation of synaptic vesicle function.
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PMID:Increase in synaptic vesicle proteins in synapsin-transfected NG108-15 cells: a subcellular fractionation study. 762 29

The gene defective in Huntington's disease encodes a protein, huntingtin, with unknown function. Antisera generated against three separate regions of huntingtin identified a single high molecular weight protein of approximately 320 kDa on immunoblots of human neuroblastoma extracts. The same protein species was detected in human and rat cortex synaptosomes and in sucrose density gradients of vesicle-enriched fractions, where huntingtin immunoreactivity overlapped with the distribution of vesicle membrane proteins (SV2, transferrin receptor, and synaptophysin). Immunohistochemistry in human and rat brain revealed widespread cytoplasmic labeling of huntingtin within neurons, particularly cell bodies and dendrites, rather than the more selective pattern of axon terminal labeling characteristic of many vesicle-associated proteins. At the ultrastructural level, immunoreactivity in cortical neurons was detected in the matrix of the cytoplasm and around the membranes of the vesicles. The ubiquitous cytoplasmic distribution of huntingtin in neurons and its association with vesicles suggest that huntingtin may have a role in vesicle trafficking.
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PMID:Huntingtin is a cytoplasmic protein associated with vesicles in human and rat brain neurons. 774 55

Iron (Fe) is known to be necessary for cellular proliferation. Previous studies have suggested that neuroblastoma cells appear to be relatively sensitive to growth inhibition by a specific Fe chelator, deferrioxamine (DFO), in vitro. Also, DFO has been recently used for the treatment of neuroblastoma patients. In this paper we demonstrate that neuroblastoma cell proliferation in vitro is extremely sensitive to inhibition by DFO as compared to another cell line with almost identical growth kinetics. Neuroblastoma cells treated with DFO adapt appropriately to Fe chelation as measured by marked upregulation of transferrin receptor mRNA, increased functional transferrin receptor, and decreased cellular ferritin concentration. Further studies that quantitated cellular incorporation of 59Fe from added transferrin-59Fe in the presence of DFO indicated that neuroblastoma cells were more sensitive to inhibition of Fe incorporation by the chelator as compared to the other cell line. Neuroblastoma cells treated with DFO showed a consistent arrest in the G1 phase of the cell cycle. For cells taken from the "resting" state this block occurred before the vast majority of cells had entered S or G2-M phases of the cell cycle. Further evidence that neuroblastoma cells were arrested before the G1-S interface was provided when cells inhibited by DFO and released into aphidicolin exhibit arrest at the G1-S interface, whereas release from aphidicolin into DFO resulted in entry into S phase. Also, DFO-treated cells exhibited a decrease in both p34cdc2 immunoreactive protein as well as kinase activity. The results of these latter studies strongly indicate evidence for a Fe requirement for malignant cell proliferation before the onset of DNA synthesis. Our results also provide a basis for further studies that will better define a therapeutic approach to patients with neuroblastoma utilizing DFO treatment.
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PMID:Neuroblastoma sensitivity to growth inhibition by deferrioxamine: evidence for a block in G1 phase of the cell cycle. 835 25

The efficacy and cytotoxic properties of immunotoxin conjugates directed against the transferrin receptor were examined in cell lines and operative specimens from pediatric brain tumors. Dose-response relationships were assessed for immunotoxin-mediated inhibition of protein synthesis for two immunotoxins, 454A12-rRA and anti-tfnR-CRM 107. Three target medulloblastoma cell lines (DAOY, D283MED, and D341MED), a glioblastoma (U373), and a neuroblastoma (SH-SY5Y) cell line exhibited similar sensitivity to both immunotoxins with IC50s in the 10(-9)-10(-10) M range. The time course of protein synthesis inhibition by the immunotoxins in DAOY cells showed that inhibition by anti-tfnR-CRM 107 was rapid and apparent by 6 h of incubation. In contrast, a response to 454A12-rRA was not observed until 16 h. Cell viability was decreased 30-40% by 24 h after removing 454A12-rRA (1 x 10(-9) M) and was maximally decreased 70-80% after 3 days. The efficacy of the immunotoxins on a variety of fresh specimens of pediatric brain tumors was also examined. The more aggressive and malignant tumor types such as glioblastoma multiforme and medulloblastoma had low IC50 values (10(-12) M), indicating that these tumors were extremely sensitive to transferrin receptor-targeted immunotoxins. In general, protein synthesis in slow-growing and benign tumors was not as greatly affected by immunotoxins. Immunoblots showed expression of transferrin receptors on the cell lines and tumors which correlated with in vitro sensitivity to immunotoxin. The results demonstrate that two immunotoxins targeted to the transferrin receptor are efficacious in killing brain tumor cell lines and primary tumor cultures at very low concentrations and that highly malignant tumors are especially sensitive to this cytotoxic response.
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PMID:Efficacy of transferrin receptor-targeted immunotoxins in brain tumor cell lines and pediatric brain tumors. 844 15

Exposure to manganese compounds often occurs as the result of industrial production or mining. Although manganese appears in traces in animal and human tissue and is essential to certain biological processes, it is also toxic. In humans and animals, toxicity is mainly associated with the nervous system. The mechanism underlying behavioral and biochemical alterations observed after manganese intoxication is not fully understood. We have shown that the manganese present in serum after exposure to manganese oxide is bound to transferrin as trivalent manganic ion. In this study of manganese uptake and storage we used a clone of human neuroblastoma cells (SHSY5Y). These cells differentiate and express catecholaminergic properties. Saturation binding analysis of the transferrin-manganese complex to the cells revealed a single class of binding sites, with an apparent KD of 13 +/- 1 nM and a density of 11,000 +/- 2,000 binding sites per cell. The complex was internalized in a temperature-dependent way and reached saturation after 2 h when approximately 2% of the added manganese had been internalized. About 80% of the internalized manganese was found in ferritin after 24 h of exposure. The results demonstrate that the transferrin receptor on SHSY5Y cells can bind and internalize a manganese-transferrin complex as efficiently as an iron-transferrin complex, although a saturation of the manganese uptake was achieved.
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PMID:Receptor-mediated endocytosis of a manganese complex of transferrin into neuroblastoma (SHSY5Y) cells in culture. 851 58

Localized cytokine therapies with recombinant monoclonal antibody-cytokine fusion proteins, designated immunocytokines, have become of increasing interest for tumor immunotherapy, since they direct immunomodulatory cytokines into the tumor microenvironment. To investigate their mechanisms of action in a variety of syngeneic tumor models, recombinant mouse cytokines IL2 and GM-CSF were engineered as fusion proteins to the carboxyl terminus of a chimeric rat/mouse antitransferrin receptor antibody, ch17217 and expressed in stable-transfected Chinese hamster ovary cells. The recombinant immunocytokines were readily purified by affinity chromatography and their binding characteristics were identical to those shown for the ch17217 antibody. The IL2 immunocytokine had an activity similar to recombinant mouse IL2, whereas the GM-CSF immunocytokine had enhanced cytokine activity relative to recombinant mouse GM-CSF. The clearance rates of ch17217 and the GM-CSF and IL2 immunocytokines were relatively similar with elimination phases (t1/2alpha) of 1.8 h and distribution phases (t1/2beta) of 83, 88, and 91 h, respectively. Both immunocytokines demonstrated effective antitumor activity by suppressing the growth of hepatic metastases of mouse neuroblastoma and pulmonary metastases of mouse colon carcinoma in syngeneic A/J and BALB/c mice, respectively. These results indicate that biologically effective IL2 and GM-CSF immunocytokines combine the targeting ability of an antitransferrin receptor monoclonal antibody with the immunomodulatory functions of each cytokine. Because of the universal expression of the transferrin receptor on mouse tumor cell lines, these constructs should prove useful to determine their efficacy in a wide variety of syngeneic mouse tumor models and to perform detailed studies of their modes of action.
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PMID:Recombinant immunocytokines targeting the mouse transferrin receptor: construction and biological activities. 966 50

Early events in rabies virus entry into cultured IMR-32 human neuroblastoma cells were investigated. After adsorption of rabies virus to the cell surface in the cold and warming to 37 degrees C in the presence of tracers for early endosomes, rabies virus and tracers were localized by immunofluorescence microscopy. After 5 min, rabies virus colocalized with Lucifer Yellow, Texas Red-dextran, rhodamine-wheat germ agglutinin, and transferrin receptor in puncta in the cell body, neurites, and nerve terminals. Rabies virus did not colocalize with lysosomal glycoprotein. An acidotropic probe revealed that some of the virus-containing puncta were acidified. Rabies virus also colocalized with synapsin I, a synaptic vesicle marker, in swellings along processes, indicating some virus enters nerve terminals. Electron microscopy revealed the presence of rabies virus within irregular membrane compartments located near the cell surface in the cell body and neurites. The membrane of the virus particle was often continuous with that of the vacuole. It is concluded that rabies virus enters IMR-32 neuroblastoma cells by adsorptive endocytosis and that, shortly after entry, rabies virus is located within and fuses with acidic endosomes.
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PMID:Rabies virus entry into endosomes in IMR-32 human neuroblastoma cells. 974 68

Clinical impact of s.c. administration of IL-2 and/or IFN alpha was studied in 23 pediatric patients with Hodgkin lymphoma (IFN alpha group) and sarcoma, non-Hodgkin lymphoma, peripheral neuroepitelioma, neuroblastoma, and embryonic carcinoma (IL-2 + IFN alpha group) after autologous PBSC transplantation. Expression of CD3, CD4, CD8, CD25, CD38, CD56, CD71, CD122, and HLA-DR antigens, serum level of the soluble IL-2R alpha, and NK activity against K562 cell line were evaluated in 11 patients representative for both types of immunotherapy. T and, more markedly, NK cell proliferation, induction of activation markers on the surface of T and NK subsets, and elevation of sIL-2R alpha concentrations were seen in the IL-2 + IFN alpha subgroup. In the IFN alpha subgroup, the total number of lymphocytes and expression of activation markers remained unchanged, but the number of CD8+ T cells increased at the expense of CD4+ T and NK cells during the therapy. Cytotoxic activity against K562 cells was not influenced by the immunotherapy in either subgroup. No significant clinical benefit of the immunotherapy was seen in these patients compared to 27 control patients with relevant diagnoses who did not receive immunotherapy.
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PMID:Clinical ineffectiveness of IL-2 and/or IFN alpha administration after autologous PBSC transplantation in pediatric oncological patients. 1068 13

Iron-responsive elements (IREs) are the RNA stem loops that control cellular iron homeostasis by regulating ferritin translation and transferrin receptor mRNA stability. We mapped a novel iron-responsive element (IRE-Type II) within the 5'-untranslated region (5'-UTR) of the Alzheimer's amyloid precursor protein (APP) transcript (+51 to +94 from the 5'-cap site). The APP mRNA IRE is located immediately upstream of an interleukin-1 responsive acute box domain (+101 to +146). APP 5'-UTR conferred translation was selectively down-regulated in response to intracellular iron chelation using three separate reporter assays (chloramphenicol acetyltransferase, luciferase, and red fluorescent protein reflecting an inhibition of APP holoprotein translation in response to iron chelation. Iron influx reversed this inhibition. As an internal control to ensure specificity, a viral internal ribosome entry sequence was unresponsive to intracellular iron chelation with desferrioxamine. Using RNA mobility shift assays, the APP 5'-UTRs, encompassing the IRE, bind specifically to recombinant iron-regulatory proteins (IRP) and to IRP from neuroblastoma cell lysates. IRP binding to the APP 5'-UTR is reduced after treatment of cells with desferrioxamine and increased after interleukin-1 stimulation. IRP binding is abrogated when APP cRNA probe is mutated in the core IRE domain (Delta4 bases:Delta83AGAG86). Iron regulation of APP mRNA through the APP 5'-UTR points to a role for iron in the metabolism of APP and confirms that this RNA structure can be a target for the selection of small molecule drugs, such as desferrioxamine (Fe chelator) and clioquinol (Fe, Cu, and Zn chelator), which reduce Abeta peptide burden during Alzheimer's disease.
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PMID:An iron-responsive element type II in the 5'-untranslated region of the Alzheimer's amyloid precursor protein transcript. 1219 35


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