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 C6 glial cell line has been used as a model cell system for the investigation of new glial produced neurotrophic and neurotropic molecules. By using the C6 cell line grown in a defined medium on collagen, this laboratory has isolated a distinct neurite promoting factor (NPF) that is potentiated by the presence of collagen (CPNPF). We have observed that C6 cells cultured in a defined medium on collagen (rat type-I) slowed their growth rate and expressed an astrocytic- or oligodendrocytic-like morphology. CPNPF, at this state of purity, appears to be a distinct NPF which induces neurite outgrowth (neurites of 1 or more somal diameters) in PC12 cells. These neurite promotion effects, however, appear to support the neuron morphology for only a short period (4 days) of time without the presence of neurotrophic factor (NTF). The neurite promoting activity is ineffective in inducing neurite outgrowth using mouse neuroblastoma cells (neuro-2a). CPNPF appears to be a heat stable protein whose activity does not depend on the presence of intact collagen, heparin sulfate proteoglycan (HSPG), or chondroitin sulfate proteoglycan (CSPG). Exposure to dissociative conditions results in a loss of neurite promoting activity. CPNPF is not a glycoprotein that contains an accessible alpha-D-mannopyranosyl, alpha-D-glucopyranosyl, or a sterically related residue (hydroxyl groups in the C-3,4, and 5 positions). Although these residues are not present on all glycoproteins, it does indicate that CPNPF is most likely not a glycoprotein. CPNPF activity is not blocked by neutralizing antibodies directed toward NGF, beta-FGF, IL-1 beta, IL-6, TGF-beta 2, TGF-beta 1.2, TGF-beta 3, TGF-beta 5, or EGF. CPNPF appears to either be oligomeric protein or a complex of proteins. On the basis of indirect evidence, it does not appear to be glial derived protease nexin-I. The alteration in morphology of the C6 glial cell line by serum-free conditions in the presence of collagen may have induced the production of a potentially new NPF not seen by previous investigators.
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PMID:Identification of a collagen potentiated neurite promoting factor isolated from C6 glioma cells. 836 Sep 47

Preliminary data have shown that IL-6 may act as an autocrine growth factor to control proliferation. We further characterised the role of IL-6 in tumour growth as an autocrine/paracrine growth factor in neuroectodermal tumours. We evaluated the production and secretion of IL-6 by seven human melanoma, five neuroblastoma and one glioblastoma cell lines. Moreover, we determined their IL-6-dependent growth in serum free-medium or under minimal growth-supplement conditions: IL-6 dependent growth was observed in two non-IL-6 producing melanoma and in one neuroblastoma cell lines. In addition, expression of IL-6 mRNA and peptide was increased by retinoic acid. The data support the hypothesis that IL-6 contributes to neuroectodermal tumour growth, even though it shows a less potent effect than other reported growth factor such as IGF-II.
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PMID:A possible growth factor role of IL-6 in neuroectodermal tumours. 904 37

The cycling status of cord blood progenitors and the culture conditions triggering their activation into S-phase have been studied using flow cytometry and a 3H-thymidine suicide assay. Mononuclear cells cultured either in Iscove's modified Dulbecco's medium (IMDM) +/- 10% fetal calf serum ([FCS]; IMDM + FCS) or in Dulbecco's modified Eagle's medium (DMEM) +/- 10% newborn bovine serum ([NBS]; DMEM + NBS) were stimulated by various growth factors (GFs). Results showed that CD34+ cells, clonogenic progenitors (colony forming cells [CFCs]) and long-term culture initiating cells (LTC-IC) present in freshly harvested cord blood were quiescent. CFC numbers were maintained without cycling after 48-h cultures in serum-containing media without GFs. Addition of interleukin 3 (IL-3) + IL-6 + stem cell factor stimulated into S-phase approximately 40% of CFCs within 24-48 h, without modifying their number except in DMEM + NBS where erythroid progenitors decreased. When cells were stimulated in IMDM + FCS by these three GFs + insulin-like growth factor I and basic fibroblast growth factor used at high concentration, more than 50% of CFCs were in S-phase and their total number was maintained. The latter culture conditions also recruited up to 66% of LTC-IC into S-phase. Our data underline the importance of the combination of GFs and culture media used for optimizing the cycling and maintenance of CFCs and LTC-IC within two days.
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PMID:Optimization of the cycling of clonogenic and primitive cord blood progenitors by various growth factors. 917 Feb 13

Human neuroblastoma cells SK-N-SH express significant numbers of IL-1R type I on their surface, as detected by saturation binding and RT-PCR, and are responsive to IL-1beta activation by producing inflammatory cytokines IL-6 and IL-8. IL-1beta can also have an indirect effect on nervous cell functions, since it is able to modulate the stimulus-induced increase of intracellular Ca++ levels, one of the first steps of the cell activation mechanism. In fact, on SK-N-SH neuroblastoma cells, IL-1beta can inhibit the Ca++ increase induced by stimulation of acetylcholine receptors with carbachol. In parallel to IL-1beta, the neurotrophic factor CNTF also shows an inhibitory effect on carbachol-stimulated Ca++ increase in CNTFRalpha-expressing SK-N-SH cells. However, when simultaneously present, the two cytokines cross-inhibit, thus allowing full cell activation in response to the cholinoceptor agonist. The inhibitory effect of CNTF on IL-1beta activities on nervous cells was confirmed in the IL-6 production assay. In fact, while CNTF could not induce IL-6 production, it could strongly inhibit cytokine production in response to IL-1beta in SK-N-SH cells. The down-modulation of IL-1 effects by CNTF could be one of the mechanisms controlling the extent of the inflammatory reaction at the nervous system level.
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PMID:Interaction between interleukin-1 and ciliary neurotrophic factor in the regulation of neuroblastoma cell functions. 945 16

In situ and in vitro studies suggest that activation of locally produced complement factors may act as a mediator between amyloid deposits and neurodegenerative changes seen in Alzheimer's disease (AD). C1-esterase inhibitor (C1-Inh), which regulates activation of C1 of the complement classical pathway, can be detected immunohistochemically in its inactivated form in activated astrocytes and dystrophic neurites in AD plaque areas. In this study, designed to investigate the cellular source of C1-Inh, C1-Inh was found to be secreted in a functionally active form by astrocytes cultured from postmortem human brain specimens as well as by neuroblastoma cell lines. Recombinant human interferon-gamma (IFN-gamma), which stimulates C1-Inh synthesis in various cell types, several-fold stimulated C1-Inh protein secretion by cultured human astrocytes derived from different regions of the central nervous system and by one (SK-N-SH) of two neuroblastoma cell lines (SK-N-SH and IMR-32) included in this study. In contrast to IFN-gamma, other cytokines [interleukin (IL)-1beta, IL-6 and tumor necrosis factor (TNF)-alpha] that can be found in brain areas affected by AD, did not stimulate C1-Inh secretion by astrocytes or neuroblastomas in vitro. This inability to secrete C1-Inh is probably due to unresponsiveness at the transcriptional level, since C1-Inh secretion paralleled the expression of the 2.1-kb C1-Inh mRNA. In situ hybridization with a C1-Inh RNA antisense probe labeled neurons rather than astrocytes, suggesting a role for neurons as producers of complement regulatory proteins in vivo. Since IFN-gamma is apparently lacking in the brain parenchyma, and amyloid plaque-associated cytokines (IL-1beta, IL-6, TNF-alpha) do not stimulate C1-Inh expression in vitro, the nature of the stimulus responsible for neuronal C1-Inh expression in AD brains remains to be investigated.
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PMID:Complement C1-inhibitor expression in Alzheimer's disease. 975 62

Human glioblastoma multiforme cell lines, brain tumor biopsy tissue, and normal human fetal brain synthesize interleukin (IL)-6 and IL-6 receptor (IL-6R). Neither of these is expressed in human neurons or neuroblastoma cell lines in culture. Astrocytes from fetal brain grown in culture retain the ability to synthesize IL-6 but do not express IL-6R as inferred from RT-PCR and Southern blot studies. Coexpression of IL-6 and IL-6R in the glioblastoma cell line U87MG is confirmed by immunofluorescence staining. Both specific monoclonal antibodies against IL-6 and IL-6R and antisense oligonucleotide to IL-6 mRNA inhibit the growth of U87MG cells in culture, suggesting the existence of a functional autocrine growth loop. Anti-IL-6 antibodies also inhibit the growth of glioblastoma cell lines U373 and U118. The expression of IL-6 by human fetal astrocytes in culture is highly suggestive of its role as an oncofetal protein responsible for rapid proliferation of fetal and tumor cells but not cells of adult brain.
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PMID:Interleukin-6-mediated autocrine growth promotion in human glioblastoma multiforme cell line U87MG. 979 7

We have identified a cytokine of the IL-6 family and named it novel neurotrophin-1/B cell-stimulating factor-3 (NNT-1/BSF-3). NNT-1/BSF-3 cDNA was cloned from activated Jurkat human T cell lymphoma cells. Its sequence predicts a 225-aa protein with a 27-aa signal peptide, a molecular mass of 22 kDa in mature form, and the highest homology to cardiotrophin-1 and ciliary neurotrophic factor. The gene for NNT-1/BSF-3 is on chromosome 11q13. A murine equivalent to NNT-1/BSF-3 also was identified, which shows 96% homology to human NNT-1/BSF-3. NNT-1/BSF-3 mRNA is found mainly in lymph nodes and spleen. NNT-1/BSF-3 induces tyrosine phosphorylation of glycoprotein 130 (gp130), leukemia inhibitory factor receptor beta, and signal transducer and activator of transcription 3 in the SK-N-MC human neuroblastoma cells. NNT-1/BSF-3 shows activities typical of IL-6 family members. In vitro, it supports the survival of chicken embryo motor and sympathetic neurons. In mice, it induces serum amyloid A, potentiates the induction by IL-1 of corticosterone and IL-6, and causes body weight loss and B cell hyperplasia with serum IgG and IgM increase. NNT-1/BSF-3 is a gp130 activator with B-cell stimulating capability.
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PMID:Novel neurotrophin-1/B cell-stimulating factor-3: a cytokine of the IL-6 family. 1050 Jan 98

Complement activation products C1q, C4c/d, and C3c/d in amyloid plaques in Alzheimer's disease probably result from direct binding and activation of C1 by amyloid beta peptides. RT-PCR and in situ hybridization studies have shown that several complement factors are produced in the brain parenchyma. In the present study, cytokines that can be detected in amyloid plaques (i.e., interleukin (IL)-1, IL-6, and tumor necrosis factor (TNF)-alpha) were found to differentially stimulate the expression of C1 subcomponents, C1-Inhibitor (C1-Inh), C4, and C3, by astrocyte and microglial cell cultures derived from postmortem adult, human brain specimens and by neuroblastoma cell lines in culture. C1r and C1s were secreted at low levels by astrocytes and neuroblastoma cell lines. Exposure of cells to IL-1 alpha, IL-1 beta, TNF-alpha and to a far lesser extent IL-6, markedly upregulated C1r, C1s, and C3 production. C4 synthesis increased in response to interferon (IFN)-gamma and IL-6, whereas that of C1-Inh could be stimulated only by IFN-gamma. Thus, C1-Inh production is refractory to stimulation by plaque-associated cytokines, whereas these cytokines do stimulate C1r, C1s, and also C4 and C3 secretion by astrocytes and neuronal cells in culture. In contrast to the amyloid plaque associated cytokines IL-1 beta, IL-1 alpha, and TNF-alpha, the amyloid peptide A beta 1-42 itself did not stimulate C1r and C1s synthesis by astrocytes, microglial cells, or neuroblastoma cell lines. Microglial cells were the only cell type that constitutively expressed C1q. The ability of C1q to reassociate with newly formed C1r and C1s upon activation of C1 and subsequent inactivation by C1-Inh, may enable ongoing complement activation at sites of amyloid deposition, especially when C1-Inh is consumed and not replaced.
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PMID:Cytokines associated with amyloid plaques in Alzheimer's disease brain stimulate human glial and neuronal cell cultures to secrete early complement proteins, but not C1-inhibitor. 1063 Feb 13

In our experience, patients with neuroblastoma who undergo transplantation with CD34+ cells following high-dose chemotherapy have prolonged delays in platelet recovery. In vitro expansion of megakaryocyte (MK) cells may provide a complementary transplant product able to enhance platelet production in the recipient. We investigated the ability of a combination of various hematopoietic growth factors to generate ex vivo MK progenitors. Immunoselected CD34+ cells from peripheral blood stems cells (PBSCs) were cultured in media with or without serum, supplemented by IL-3, IL-6, IL-11, SCF, TPO, Flt-3 ligand, and MIP-1alpha. In terms of MK phenotypes, we observed a maximal expansion of CD61+, CD41+, and CD42a of 69-, 60-, and 69-fold, respectively, i.e., 8-10 times greater than the expansion of total cell numbers. Whereas the absolute increment of CD34+ cells was slightly elevated (fourfold) we showed increases of 163-, 212-, and 128-fold for CD34+/CD61+, CD34+/CD41+, and CD34+/CD42a+ cells, respectively. We obtained only a modest expansion of CFU-MKs after only 4 days of culture (fourfold) and similar levels of CFU-MKs were observed after 7 days (fivefold). Morphology and immunohistochemistry CD41+ analyses confirmed expansion of a majority of CD41+ immature cells on days 4 and 7, while on day 10 mature cells began to appear. These results show that primarily MK progenitors are expanded after 4 days of culture, whereas MK precursor expansion occurs after 7 days. When we compared the two culture media (with and without serum) we observed that increases of all specific phenotypes of the MK lineage were more elevated in serum-free culture than in medium with serum. This difference was especially marked for CD34+/CD61+ and CD34+/CD41+ (163 vs 42 and 212 vs 36, respectively). We contaminated CD34+ cells with a neuroblastoma cell line and we observed no expansion of malignant cells in our culture conditions (RT-PCR for tyrosine hydroxylase positive at day 4 and negative at day 7). With our combination of hematopoietic growth factors we are able to sufficiently expand ex vivo MK late progenitor cells to be used as complementary transplant products in neuroblastoma patients who undergo transplantation with CD34+ cells. It is possible that these committed MK late progenitors could accelerate short-term platelet recovery in the recipient until more primitive progenitor cells have had time to engraft.
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PMID:Ex vivo expansion of CD34+/CD41+ late progenitors from enriched peripheral blood CD34+ cells. 1066 16

Beta-catenin acts as a key mediator of the Wnt/Wingless signaling pathway involved in cell proliferation, differentiation and survival. Recent studies have shown that an unstable interaction between beta-catenin and the mutant presenilin-1 induces neuronal apoptosis, and that beta-catenin levels are decreased in the brains of patients with Alzheimer's disease (AD). Since activated microglia and astrocytes play a role in the process of neuronal degeneration in AD, the cytokine/growth factor-regulated expression of beta-catenin in human neural cell lines, including NTera2 teratocarcinoma-derived differentiated neurons (NTera2-N), IMR-32 neuroblastoma, SKN-SH neuroblastoma and U-373MG astrocytoma, was studied quantitatively following exposure to epidermal growth factor (EGF), basic fibroblast growth factor (bFGF), brain-derived neurotrophic factor (BDNF), tumor necrosis factor-alpha (TNF-alpha), interleukin (IL)-1beta, IL-6, interferon (IFN)-gamma, transforming growth factor (TGF)-beta1, dibutyryl cyclic adenosine 3',5'-cyclic monophosphate (cAMP) (dbcAMP) or phorbol 12-myristate 13-acetate (PMA). Beta-catenin mRNA expressed constitutively in all of these cell lines was unaffected by treatment with any factors examined. In contrast, beta-catenin protein levels were reduced markedly in NTera2-N cells by exposure to dbcAMP, EGF or bFGF, and in U-373MG cells by treatment with dbcAMP or PMA, but were unaffected in any cell lines by BDNF, TNF-alpha, IL-1beta, IL-6, IFN-gamma or TGF-beta1. These results indicate that beta-catenin is expressed constitutively in human neural cells and downregulated at a protein level by a set of growth factors in a cell type-specific manner.
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PMID:Beta-catenin expression in human neural cell lines following exposure to cytokines and growth factors. 1093 48


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