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)

Macrophage migration inhibitory factor (MIF) has been linked to fundamental processes such as control of cell proliferation, cell survival, angiogenesis, and tumor progression. The expression of MIF has been reported in several tumors. However, the precise role of MIF in tumor cells remains unclear. In the present study, we investigated the expression pattern and the function of MIF in neuroblastoma. Our results showed that intracellular MIF was upregulated in neuroblastoma tumor tissues and cell lines. MIF protein expression significantly correlated with the grade of tumor differentiation. In addition, we found that MIF induced a significant dose-dependent increase of vascular endothelial growth factor and interleukin-8 secretion. We also observed that an increased MIF expression level correlated with N-Myc protein (the N-myc oncogene product) expression in neuroblastoma tissues. MIF increased the expression of N-myc mRNA and N-Myc protein and induced N-Myc translocation from the cytoplasm to nucleus in neuroblastoma cell lines. MIF-induced N-Myc expression was found to be dependent on ERK signaling pathways. The inhibition of ERK activation reduced MIF-mediated N-Myc expression. These results suggest that MIF may contribute to the progression of neuroblastoma by (a) inducing N-Myc expression and (b) upregulating the expression of angiogenic factors.
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PMID:Upregulation of macrophage migration inhibitory factor contributes to induced N-Myc expression by the activation of ERK signaling pathway and increased expression of interleukin-8 and VEGF in neuroblastoma. 1506 33

We have recently found that cells derived from human neuroblastoma, a sympathetic nervous system (SNS) tumor, dedifferentiate and acquire a neural crest-like phenotype when exposed to hypoxia. In the present study, global analysis of gene expression and quantitative PCR of relevant genes showed that hypoxia provokes a general adaptive response in neuroblastoma cells and confirm loss of the neuronal phenotype and gain of stem-cell characteristics. Of the approximately 17,000 genes and ESTs analyzed, 199 were consistently upregulated and 36 were downregulated more than 2-fold by hypoxia. As anticipated, several genes involved in glucose and iron metabolism and neovascularization were upregulated, the latter group we here show to include the gene encoding chromogranin C and its cleavage product, secretoneurin, a vascular smooth muscle cell mitogen. We also observed upregulation of genes implicated in cell survival and growth, such as vascular endothelial growth factor (VEGF), neuropilin 1, adrenomedullin, and IGF-2. Several metallothioneins, which are linked to tumor drug resistance, were upregulated, whereas the expression of MDR1 decreased. In hypoxic neuroblastoma cells, proneuronal lineage specifying transcription factors, and their dimerization partner E2-2, were downregulated, whereas their inhibitors Id2 and HES-1 were induced, providing a molecular mechanism for the hypoxia-provoked dedifferentiation of neuroblastoma cells.
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PMID:Human neuroblastoma cells exposed to hypoxia: induction of genes associated with growth, survival, and aggressive behavior. 1509 45

Angiogenesis is a biological process by which new capillaries are formed from preexisting vessels. It occurs in physiological and pathological conditions, such as tumors, where a specific turning point is the transition from the avascular to the vascular phase. Tumor angiogenesis depends mainly on the release by neoplastic cells of growth factors specific for endothelial cells able to stimulate the growth of the host's blood vessels. In neuroblastoma, the most common extracranial solid tumor of infancy and childhood, angiogenesis also appears to play an important role in determining tumor phenotype. The nature of the angiogenic balance in neuroblastoma is complex, and a spectrum of angiogenesis stimulators, such as vascular endothelial growth factor (VEGF) and fibroblast growth factor-2 (FGF-2), and inhibitors, such as tissue inhibitors of matrix metalloproteinases (MMPs), have been detected in neuroblastoma tumors. Moreover, an increased production of MMP-2 and -9 has been also observed in advanced stages of tumor, favoring degradation of extracellular matrix and enhancing tumor dissemination. High tumor vascularity is correlated with widely disseminated disease, MYCN amplification, unfavorable histology, and poor outcome. In contrast, low tumor vascularity is associated with prognostically favorable features, such as a localized disease and favorable histology. It is becoming increasingly evident that agents that interfere with blood vessel formation also block tumor progression. Preclinical studies suggest that antiangiogenic strategies may be effective in the treatment of neuroblastoma. A major goal is the determination of whether inhibition of angiogenesis is a realistic way of inhibiting tumor cell dissemination and formation of metastasis in neuroblastoma.
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PMID:Angiogenesis in neuroblastoma. 1565 Feb 39

Vascular endothelial growth factor (VEGF), fibroblast growth factor (FGF), and platelet-derived growth factor (PDGF) and their cognate receptor tyrosine kinases are strongly implicated in angiogenesis associated with solid tumors. SU11657 (SUGEN) is a selective multitargeted tyrosine kinase inhibitor with antitumor and antiangiogenic activity exerted by targeting PDGF receptors (PDGFR), VEGF receptors (VEGFR), stem cell factor receptor (c-KIT), and FMS-related tyrosine kinase 3. Oral administration of SU11657 at 40 mg x kg(-1) x d(-1) to athymic mice resulted in significant growth inhibition of a panel of s.c. human neuroblastoma xenografts, namely, fast-growing SK-N-AS, MYCN- amplified IMR-32, and SH-SY5Y, by 90, 93.8, and 88%, respectively, and was well tolerated. All of the cell lines expressed VEGFR-2, PDGFR-beta, and c-KIT protein in the tumor cell and endothelial cell compartment by immunohistochemistry, and the expression decreased during therapy. Plasma concentrations of VEGF-A, PDGF-BB, and stem cell factor increased per milliliter of tumor volume at days 10, 18, and 20 of therapy. Furthermore, SU11657 reduced tumor angiogenesis by 63-96%. Our experimental data suggest that the angiogenesis inhibitor SU11657 may be beneficial in the treatment of rapidly growing and highly vascularized solid tumors of childhood, such as neuroblastoma. In summary, the class III/V receptor tyrosine kinases and their ligands are implicated in angiogenesis, tumor cell proliferation, and cell survival, and it seems reasonable to determine whether interference with these pathways can suppress neuroblastoma growth or not.
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PMID:The selective class III/V receptor tyrosine kinase inhibitor SU11657 inhibits tumor growth and angiogenesis in experimental neuroblastomas grown in mice. 1571 57

The inhibitor of differentiation Id2 is a target of the retinoblastoma (Rb) protein during mouse embryogenesis. In Rb(+/-) mice, LOH at the wild-type Rb allele initiates pituitary adenocarcinoma, a tumor derived from embryonic melanotropes. Here we identify a critical role for Id2 in initiation, growth, and angiogenesis of pituitary tumors from Rb(+/-) mice. We show that proliferation and differentiation are intimately coupled in Rb(+/-) pituitary cells before tumor initiation. In Id2-null pituitaries, premature activation of basic helix-loop-helix-mediated transcription and expression of the cdk inhibitor p27(Kip1) impairs the proliferation of melanotropes and tumor initiation. Without Id2, Rb(+/-) mice have fewer early tumor lesions and a markedly decreased proliferation rate of the tumor foci. Expression of Id2 by pituitary tumor cells promotes growth and angiogenesis by functioning as a master regulator of vascular endothelial growth factor (VEGF). In human neuroblastoma, the N-Myc-driven expression of Id2 is sufficient and necessary for expression of VEGF. These results establish that aberrant Id2 activity directs initiation and progression of embryonal cancer.
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PMID:Id2 mediates tumor initiation, proliferation, and angiogenesis in Rb mutant mice. 1583 62

Despite aggressive therapy, survival for advanced stage neuroblastoma remains poor with significant long-term morbidity in disease survivors. High-risk disease features are strongly correlated with tumor vascularity, suggesting that angiogenesis inhibitors may be a useful addition to current therapeutic strategies. However, challenges include the well-known clinical heterogeneity and embryonal origins of this disease, which suggests a complex regulation of neovascularization that may be distinct from epithelial-derived carcinomas. We will review what is understood about angiogenesis-related signaling in neuroblastoma. In particular, we will present evidence that angiogenesis-related molecules are differentially expressed in primary neuroblastomas in a pattern suggesting promotion of a pro-angiogenic phenotype in high-risk tumors and an anti-angiogenic phenotype in low-risk tumors. We will also discuss a variety of vascular inhibition strategies that have been used in neuroblastoma preclinical models including specific inhibition of vascular endothelial growth factor (VEGF) and methionine aminopeptidase 2 (MetAP2). Recent observations that the combination of angiogenesis inhibitors with conventional chemotherapy provides synergy without additive toxicity, suggests the potential use of angiogenesis inhibitors as an adjunct between cycles of conventional cytotoxic therapy. Further identification of critical angiogenic signaling pathways and evaluation of specific inhibitors in preclinical neuroblastoma models should provide justification for future selection and evaluation of angiogenesis inhibitors in clinical trials for high-risk neuroblastoma patients.
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PMID:Prospects for therapeutic inhibition of neuroblastoma angiogenesis. 1592 58

The extent of angiogenesis and/or vascular endothelial growth factor (VEGF) expression in neuroblastoma tumors correlates with metastases, N-myc amplification, and poor clinical outcome. Understanding the mechanisms regulating VEGF expression in neuroblastoma cells provides additional therapeutic options to control neuroblastoma tumor growth. VEGF mRNA is controlled by growth factors and hypoxia via the transcription factor hypoxia-inducible factor (HIF-1alpha). HIF-1alpha protein levels are regulated by the von Hippel Lindau tumor suppressor gene, VHL, which targets HIF-1alpha degradation. To determine whether the levels of VEGF in neuroblastomas are due to mutations in VHL, we evaluated genomic DNA from 15 neuroblastoma cell lines using PCR. We found no mutations in exons 1, 2, or 3 of the VHL gene. VEGF mRNA levels in neuroblastoma cells cultured in serum-free medium increased after 8 to 16 hours in serum, insulin-like growth factor-I (IGF-I), epidermal growth factor, or platelet-derived growth factor. Serum/IGF-I induced increases in HIF-1alpha protein that temporally paralleled increases in VEGF mRNA, whereas HIF-1beta levels were unaffected. VEGF and HIF-1alpha levels were blocked by inhibitors of phosphatidylinositol 3-kinase and mammalian target of rapamycin. Furthermore, we confirmed that HIF-1alpha mediates approximately 40% of the growth factor activity stimulating VEGF protein expression. Topotecan blocked the IGF-I-stimulated increase in HIF-1alpha but not HIF-1beta, and this resulted in a decrease in VEGF in four neuroblastoma cell lines tested. These data indicate that growth factors in an autocrine or paracrine manner play a major role in regulating VEGF levels in neuroblastoma cells and that targeted therapies to phosphatidylinositol 3-kinase, mammalian target of rapamycin, and/or HIF-1alpha have the potential to inhibit VEGF expression and limit neuroblastoma tumor growth.
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PMID:Topotecan blocks hypoxia-inducible factor-1alpha and vascular endothelial growth factor expression induced by insulin-like growth factor-I in neuroblastoma cells. 1593 Feb 97

Flt1, an "fms-like tyrosine kinase" receptor, has been suggested to play an active role in vascular endothelial growth factor (VEGF)-mediated autocrine signaling of tumor growth and angiogenesis. Here, we used a neuroblastoma model to investigate the role of VEGF/Flt1 signaling in hypoxia-mediated tumor cell survival, drug resistance, and in vivo angiogenesis. SK-N-BE2, a highly malignant neuroblastoma cell line resistant to hypoxia-induced apoptosis expresses active Flt1 but lacks VEGFR2 expression. We found that 24-hour hypoxia (<0.1% O2) alone (no serum deprivation) showed sustained activation of extracellular signal-regulated kinase 1/2 (ERK1/2) associated with bcl-2 up-regulation and resistance to etoposide-induced (5 mumol/L) apoptosis. Treatment with anti-VEGF and anti-Flt1 antibodies inhibited ERK1/2 activation, down-regulated bcl-2, and reversed the hypoxia-mediated drug resistance to etoposide. Similar results were obtained with U0126 and ursolic acid, specific and nonspecific inhibitors of ERK1/2, respectively. We confirmed the protective role of Flt1 receptor by small interfering RNA knockout and Flt1 overexpression studies. Subsequently, we found that inhibition of VEGF/Flt1 autocrine signaling led to reduced hypoxia-inducible factor-1alpha (HIF-1alpha) phosphorylation. Furthermore, the reduced phosphorylation was associated with down-regulation of basic fibroblast growth factor, a downstream target of the HIF-1alpha and VEGF pathways. Our findings suggested an expanded autocrine loop between VEGF/Flt1 signaling and HIF-1alpha. We investigated the angiogenic activity of the loop in an in vivo Matrigel plug assay. The hypoxia-treated conditioned medium induced a strong angiogenic response, as well as the cooption of surrounding vessels into the plugs; ursolic acid inhibited the angiogenesis process. We also found that three other Flt1-expressing neuroblastoma cell lines show hypoxia-mediated drug resistance to etoposide, melphalan, doxorubicin, and cyclophosphamide. Taken together, we conclude that a hypoxia-driven VEGF/Flt1 autocrine loop interacts with HIF-1alpha through a mitogen-activated protein kinase/ERK1/2 pathway in neuroblastoma. The interaction, in the form of an autocrine loop, is required for the hypoxia-driven cell survival, drug resistance, and angiogenesis in neuroblastoma.
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PMID:A hypoxia-driven vascular endothelial growth factor/Flt1 autocrine loop interacts with hypoxia-inducible factor-1alpha through mitogen-activated protein kinase/extracellular signal-regulated kinase 1/2 pathway in neuroblastoma. 1610 78

We sought to characterize the expression of vascular endothelial growth factor (VEGF) and its receptors in neuroblastoma (NBL) and to correlate the results with N-myc (MYCN) expression and in vivo growth of these tumors. Two representative human-derived NBL cell lines, SK-N-AS (AS) with low and SK-N-DZ (DZ) with a high MYCN copy number, were used for the study. We examined their proliferation, VEGF and VEGF receptor expression in vitro and xenograft tumor growth in vivo. In parallel, human NBL specimens were analyzed for expression of VEGF and neuropilin-1 (NRP-1). DZ cells exhibited a 4-fold higher proliferation rate than AS. In contrast, VEGF protein expression was significantly higher in AS cells. NRP-1 was the only VEGF receptor produced in AS and DZ cells in vitro and in vivo. Both AS and DZ cells formed tumors in athymic mice but AS tumors grew 3.5 times larger than DZ tumors and had larger diameter tumor vessels. VEGF and NRP-1 expression was also demonstrated in human NBL specimens. Our studies indicate that VEGF and VEGF receptor expression in NBL tumor cells are associated with tumor growth and that angiogenic factors may serve as a biological marker together with already established MYCN amplification.
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PMID:Tumor cell-associated neuropilin-1 and vascular endothelial growth factor expression as determinants of tumor growth in neuroblastoma. 1619 33

Thrombin, a serine protease that plays a pivotal role in blood coagulation, wound healing, and angiogenesis, has also been implicated in the mitogenesis of various cell types. Previously, we showed that thrombin and the thrombin receptor agonist peptide (TRAP-14; SFLLRNPNDKYEPF) for protease-activated receptor 1 (PAR1) induce vascular endothelial growth factor (VEGF) secretion in PC-12 cells. In this study, we show that thrombin and TRAP-14 also stimulate VEGF secretion in the human NB-1 neuroblastoma cells. In these cells, we further show that thrombin-induced VEGF secretion was blocked by cycloheximide and actinomycin D, indicating that de novo protein synthesis is essential for this process. Reduced thrombin-induced VEGF secretion upon treatment with LY294002, calphostin C, or BAPTA, further suggests that the process is dependent on phosphatidyl-inositol-3-kinase, protein kinase C, and calcium. However, the complete loss of thrombin-induced VEGF production upon treatment with argatroban, a derivative of arginine and a potent anticoagulant/antithrombin agent, supports the notion that argatroban serves as a useful therapeutic tool for thrombin-associated pathologic conditions. Here, it appears that argatroban may be effective in controlling disorders linked to thrombin-induced VEGF production in neuronal cells.
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PMID:Inhibition of thrombin-induced vascular endothelial growth factor production in human neuroblastoma (NB-1) cells by argatroban. 1629 85

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