Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Genistein is a specific inhibitor of protein tyrosine kinase (PTK) and is considered as a therapeutic candidate for various cancers. In this paper we investigate the effects of genistein on cell proliferation and differentiation in neuroblastoma (NB) cell lines and its possible mechanism of action. Genistein substantially inhibited the growth of five (N2A, JC, SKNSH, MSN and Lan5) of the six tumor cell lines examined in a dose-dependent manner with an IC50 value of approximately 5 microg/ml. The exception was GC cells. N2A cells were treated with genistein for 6 days and exhibited morphological features of differentiation, as evidenced by the development of dendritic extensions. Terminal deoxynucleotidyl transferase (TDT) histochemical staining showed a significant elevation in darkly stained nuclei in genistein-treated N2A cells compared with controls, indicating the occurrence of apoptosis. Fluorescent quantitation of DNA fragments confirmed apoptosis in genistein-treated N2A cells. To further elucidate the possible mechanisms by which genistein modulates NB cell growth and differentiation we investigated the effect of genistein on the activities of PTK and mitogen-activated protein (MAP) kinase and N-myc proto-oncogene expression in N2A cells. The results showed that genistein down-regulated intrinsic PTK activity by approximately 33% and inhibited insulin-like growth factor (IGF)-stimulated PTK activity by 75%. The effect of genistein on the intrinsic activity of MAP kinase was insignificant. In addition, genistein significantly reduced N-myc expression in a dose-dependent fashion. Our study suggests that genistein arrests cell growth and induces NB cell differentiation by mediating apoptosis and modulating PTK activity and N-myc proto-oncogene expression.
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PMID:Genistein modulates neuroblastoma cell proliferation and differentiation through induction of apoptosis and regulation of tyrosine kinase activity and N-myc expression. 966 36

In SH-SY5Y human neuroblastoma cells, insulin-like growth factor (IGF)-I mediates membrane ruffling and growth cone extension. We have previously shown that IGF-I activates the tyrosine phosphorylation of focal adhesion kinase (FAK) and extracellular signal-regulated protein kinase (ERK) 2. In the current study, we examined which signaling pathway underlies IGF-I-mediated FAK phosphorylation and cytoskeletal changes and determined if an intact cytoskeleton was required for IGF-I signaling. Treatment of SH-SY5Y cells with cytochalasin D disrupted the actin cytoskeleton and prevented any morphological changes induced by IGF-I. Inhibitors of phosphatidylinositol 3-kinase (PI 3-K) blocked IGF-I-mediated changes in the actin cytoskeleton as measured by membrane ruffling. In contrast, PD98059, a selective inhibitor of ERK kinase, had no effect on IGF-I-induced membrane ruffling. In parallel with effects on the actin cytoskeleton, cytochalasin D and PI 3-K inhibitors blocked IGF-I-induced FAK tyrosine phosphorylation, whereas PD98059 had no effect. It is interesting that cytochalasin D did not block IGF-I-induced ERK2 tyrosine phosphorylation. Therefore, it is likely that FAK and ERK2 tyrosine phosphorylations are regulated by separate pathways during IGF-I signaling. Our study suggests that integrity as well as dynamic motility of the actin cytoskeleton mediated by PI 3-K is required for IGF-I-induced FAK tyrosine phosphorylation, but not for ERK2 activation.
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PMID:Differential regulation of focal adhesion kinase and mitogen-activated protein kinase tyrosine phosphorylation during insulin-like growth factor-I-mediated cytoskeletal reorganization. 972 62

Several lines of evidence now indicate that type 1 insulin-like growth factor receptor (IGF1R) function may be particularly important in the pathogenesis of the pediatric cancer neuroblastoma. Modulating the expression of specific genes involved in neuroblastoma tumorigenesis could provide a much needed alternative treatment strategy for poor prognosis disease. We now report construction of an antisense expression vector to the IGF1R that markedly reduces cellular IGF1R levels and inhibits the proliferation and clonogenicity of neuroblastoma cells in vitro but not that of IGF1R null cells. This antitumor activity is associated with the induction of apoptotic cell death in transfected cells, as measured by annexin V staining and flow cytometry. Direct injection of this vector into established tumors growing in syngeneic mice results in a marked inhibition of tumor growth with complete and durable tumor regression in one-half of the animals. This effect appears to be immunologically mediated in that vector injection of neuroblastoma tumors growing in severe combined immunodeficiency mice results in only modest delay of tumor growth. Our results suggest that inhibition of IGF1R expression by direct intratumoral delivery of an antisense construct could provide a novel therapeutic approach in the management of poor prognosis neuroblastoma.
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PMID:Inhibition of insulin-like growth factor I receptor expression in neuroblastoma cells induces the regression of established tumors in mice. 985 76

The major substrates for the type I insulin-like growth factor (IGF-I) receptor are Shc and insulin receptor substrate (IRS) proteins. In the current study, we report that IGF-I induces a sustained tyrosine phosphorylation of Shc and its association with Grb2 in SH-SY5Y human neuroblastoma cells. The time course of Shc tyrosine phosphorylation parallels the time course of IGF-I-stimulated activation of extracellular signal-regulated kinase (ERK). Transfection of SH-SY5Y cells with a p52 Shc mutant decreases Shc tyrosine phosphorylation and Shc-Grb2 association. This results in the inhibition of IGF-I-mediated ERK tyrosine phosphorylation and neurite outgrowth. In contrast, IGF-I induces a transient tyrosine phosphorylation of IRS-2 and an association of IRS-2 with Grb2. The time course of IRS-2 tyrosine phosphorylation and IRS-2-Grb2 and IRS-2-p85 association closely resembles the time course of IGF-I-mediated membrane ruffling. Treating cells with the phosphatidylinositol 3'-kinase inhibitors wortmannin and LY294002 blocks IGF-I-induced membrane ruffling. The ERK kinase inhibitor PD98059, as well as transfection with the p52 Shc mutant, has no effect on IGF-I-mediated membrane ruffling. Immunolocalization studies show IRS-2 and Grb2, but not Shc, concentrated at the tip of the extending growth cone where membrane ruffling is most active. Collectively, these results suggest that the association of Shc with Grb2 is essential for IGF-I-mediated neurite outgrowth, whereas the IRS-2-Grb2-phosphatidylinositol 3'-kinase complex may regulate growth cone extension and membrane ruffling.
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PMID:Insulin receptor substrate 2 and Shc play different roles in insulin-like growth factor I signaling. 985 24

Apoptosis is a cell death program which is modulated by a variety of factors including growth factors, signal transduction molecules and inducers of gene expression or DNA replication. Of particular interest is Type I insulin-like growth factor receptor which contains a tyrosine kinase domain linked to the ras-raf-MAPK cascade. This receptor has antiapoptotic effects in a number of in vivo and in vitro models, thus making IGF-I-R a potential target for gene therapy. Particularly the growth of neuroblastoma depends on IGFs which exert their effect through the Type I IGF receptor. This review highlights the role of the IGF-system in neuroblastoma and points at possible modulators with the aim of inducing differentiation or apoptosis of tumor cells.
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PMID:Insulin-like growth factor system in neuroblastoma tumorigenesis and apoptosis: potential diagnostic and therapeutic perspectives. 1022 94

Expression level of trkA tyrosine kinase receptor for nerve growth factor is a major prognostic determinant of neuroblastoma, suggesting that defective trkA-mediated signaling is responsible for the tumorigenesis of this childhood malignancy. We investigated the biologic effect of trkA, with special reference to its effect on insulin-like growth factor-II (IGF-II) expression, in SK-N-AS human neuroblastoma cells transfected with human trkA cDNA. Nerve growth factor treatment of trkA-transfected cells promoted growth and changed the morphologic phenotype into a substrate-adherent, flatter phenotype (S-type), and down-regulated the mRNA expression of IGF-II. The effects on both growth and the morphologic differentiation of SK-N-AS cells differed significantly from those of previous studies, and implied that trkA effects can be diverse, depending on the phenotype of the individual neuroblastoma cells. Immunohistochemical screening of trkA and IGF-II expression in adrenal neuroblastomas (n = 25) also favored the nonoverlapping pattern of trkA and IGF-II expression (p < 0.05). Because IGF-II is believed to play a significant role in the tumorigenesis of neuroblastoma, the inverse relationship between trkA and IGF-II strongly suggests that a low level of trkA can be a feature of the pathogenetic mechanism of IGF-II expressing adrenal neuroblastomas.
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PMID:Insulin-like growth factor-II expression is down-regulated in TrkA-transfected SK-N-AS neuroblastoma cells. 1046 38

The types of neurotrophin receptors that are expressed in neuroblastomas have different prognostic implications; trkA is a marker of good prognosis, whereas trkB expression is associated with poor prognosis. This suggests that either the signaling that is mediated via these receptors modulates the biological features of neuroblastoma cells differently, or that distinct lineages of sympathoadrenal precursors have been transformed. In this report, we evaluate the biological effects after activation of trkA or trkB by their major ligands in SH-SY5Y human neuroblastoma cells. Both trkA and trkB induce differentiation, inhibit growth, and promote the survival of cells under conditions of nutrient deprivation. However, the up-regulation of insulin-like growth factor-II (IGF-II) expression is a predominant feature of trkA activation by nerve growth factor (NGF). The growth inhibition induced by blocking the insulin-like growth factor-I receptor suggests that IGF-II is a component of the effector mechanism of trkA activation by NGF in trkA-transfected cells. Although trkA and trkB expression is associated with different prognoses in neuroblastoma, our study indicates that the effects mediated by these receptors in vivo may be quite similar for certain subsets of neuroblastomas.
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PMID:Up-regulation of insulin-like growth factor-II expression is a feature of TrkA but not TrkB activation in SH-SY5Y neuroblastoma cells. 1055 Mar 22

We evaluated the effect of insulin-like growth factor (IGF)-I on neuronal cell viability and apoptosis induced by exposure to serum-free (SF) medium and to doxorubicin. In primary neuronal culture, IGF-I (0.5-2.0 microg/ml) slightly increased basal cell viability; SF medium tended to decrease viability (20-27%), and addition of IGF-I significantly antagonized this decrease (P< 0.05). In neuroblastoma (NB) SK-N-SH cell culture, IGF-I significantly increased viability (0.05-1.25 microg/ml) (P< 0.005); SF medium decreased it by 75%, and this decrease was prevented by IGF-I (0.5-1. 0 microg/ml) (P< 0.005). Flow cytometry studies showed an increased apoptosis on exposure to SF medium (88.8 vs 10.2%), which was suppressed to 38.3% by addition of IGF-I. Growth hormone (1-10 microU/ml) did not modify basal cell viability in either culture, and SF-induced cell death in NB cells. Doxorubicin (1-100 microM) caused neurotoxicity in primary and NB cultures (66-39% and 39-10% of controls, respectively), and increased apoptosis in NB cells (73. 8 vs 20.1%). IGF-I antagonized these neurotoxic/apoptotic effects (P< 0.05). This study suggests that IGF-I possesses a potent neuroprotective activity which may be involved in the resistance to doxorubicin.
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PMID:Insulin-like-growth-factor-I (IGF-I) antagonizes apoptosis induced by serum deficiency and doxorubicin in neuronal cell culture. 1062 67

Mutations in the presenilin-1 (PS1) and presenilin-2 (PS2) genes account for the majority of early-onset familial Alzheimer's disease cases. Recent studies suggest that presenilin gene mutations predispose cells to apoptosis by mechanisms involving altered calcium homeostasis and oxidative damage. In the present study, we determined whether PS1 mutations also sensitize cells to hyperosmotic stress-induced apoptosis. For this, we established SH-SY5Y neuroblastoma cell lines stably transfected with wild-type PS1 or either the PS1 exon 9 deletion (deltaE9) or PS1 L250S mutants. Cultured cells were exposed to an overnight (17 h) serum deprivation, followed by a 30 min treatment with either 20 mM glucose, 10 nM insulin-like growth factor-1 or 20 mM glucose + 10 nM insulin-like growth factor-1. Cells were then cultured for a further 3, 6 or 24 h and stained for apoptotic condensed nuclei using propidium iodide. Confirmation that cells were undergoing an active apoptotic process was achieved by labelling of DNA strand breaks using the terminal dUTP nick end labelling (TUNEL) technique. We also determined cell viability using 3-(4,5-dimethyl-thiazol-2-yl)-2,5-diphenyltetrazolium bromide (MTT) reduction. Propidium iodide staining revealed that all cell lines and controls showed an increased number of apoptotic cells appearing with condensed nuclei at 24 h compared with 6 h and 3 h. High glucose-induced hyperosmotic stress resulted in significantly more apoptotic cells in the PS1 deltaE9 and PS1 L250S mutation cell lines at 24 h, compared with the wild-type PS1 lines (P < 0.001, ANOVA for both comparisons). Mean values (+/-S.D.) for the percentage number of apoptotic cells at 24 h following high glucose treatment were 16.1 +/- 3.5%, 26.7 +/- 5.5% and 31.0 +/- 5.7% for the wild-type PS1, PS1 deltaE9 and PS1 L250S lines, respectively. The pro-apoptotic effects of high glucose treatment were reversed by 10 nM insulin-like growth factor-1, although to a lesser extent in the mutation cell lines (5.8 +/- 2.4%, 15.2 +/- 7.3% and 13.2 +/- 2.0% for the wild-type PS1, PS1 deltaE9 (P < 0.01 for comparison with wild-type PS1) and PS1 L250S (P < 0.01 for comparison with wild-type PS1) transfected lines, respectively. TUNEL labelling of cells at 24 h following treatment gave essentially the same results pattern as obtained using propidium iodide. The percentage number of apoptotic cells with DNA strand breaks (means +/- S.D.) following high glucose treatment was 15.4 +/- 2.6% for the wild-type PS1, 26.8 +/- 3.2% for the PS1 deltaE9 (P < 0.001 for comparison with wild-type PS1) and 29.7 +/- 6.1% for the PS1 L250S transfected lines (P < 0.001 for comparison with wild-type PS1). The PS1 deltaE9 and PS1 L250S transfected lines also showed a higher number of apoptotic cells with DNA strand breaks at 24 h following high glucose plus insulin-like growth factor-1 treatment (11.4 +/- 2.0% and 14.3 +/- 2.8%, respectively), compared with values for the wild-type PS1 lines (8.5 +/- 2.4%). These differences were significant (P < 0.01) for the comparison of wild-type PS1 and PS1 L250S, but not PS1 deltaE9 lines. The mutation-related increases in number of apoptotic cells at 24 h following high glucose treatment were not accompanied by significant differences in cell viability at this time-point. Our results indicate that PS1 mutations predispose to hyperosmotic stress-induced apoptosis and that the anti-apoptotic effects of insulin-like growth factor-1 are compromised by these mutations. Perturbations of insulin-like growth factor-1 signalling may be involved in PS1 mutation-related apoptotic neuronal cell death in Alzheimer's disease.
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PMID:Alzheimer's disease presenilin-1 exon 9 deletion and L250S mutations sensitize SH-SY5Y neuroblastoma cells to hyperosmotic stress-induced apoptosis. 1065 39

The type I insulin-like growth factor receptor (IGF-IR) is important for mitogenesis, transformation, and survival of tumor cells. The current study examines the effect of IGF-IR expression and activation on apoptosis in SHEP human neuroblastoma cells. SHEP cells undergo apoptosis which is prevented by IGF-I addition or overexpression of the IGF-IR (SHEP/IGF-IR cells). High mannitol treatment activates caspase-3 by 1 h in SHEP cells while caspase-3 activation is delayed by 3 h in SHEP/IGF-IR cells. Transfection with Bcl-2 (SHEP/Bcl-2 cells) prevents serum withdrawal and mannitol induced apoptosis and caspase-3 activation. Mannitol induces mitochondrial membrane depolarization in both SHEP and SHEP/IGF-IR cells. IGF-IR activation or overexpression of Bcl-2 in SHEP cells prevents mitochondrial membrane depolarization. Collectively, these results suggest that IGF-IR or Bcl-2 overexpression in neuroblastoma cells promotes cell survival by preventing mitochondrial membrane depolarization and caspase-3 activation, ultimately leading to increased tumor growth.
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PMID:IGF-I receptor activation and BCL-2 overexpression prevent early apoptotic events in human neuroblastoma. 1088 10


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