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)

Dexamethasone stimulates type C virus production induced by iododeoxyuridine (IdUrd) from several murine cell lines: uninfected BALB cells, virally transformed nonproducer K-BALB cells, mouse neuroblastoma N-4 cells, and rat tumor XC cells. Dexamethasone also stimulates virus production from BALB cells newly infected by some murine leukemia or leukemia sarcoma viruses, from a murine myelogenous leukemic cell line (M-1) producing type C virus, from K-BALB(l) cells (K-BALB producing cells previously induced by IdUrd), and from K-BALB cells rescued by Rauscher leukemia virus. However, this stimulatory effect is not universal, since we observed that dexamethasone did not stimulate virus production from BALB cells newly infected by B-tropic virus, from S2CL3 cells producing N-tropic virus (a clone of spontaneously transformed BALB cells), from virus producing normal rat kidney cells, and from a mouse adrenal gland tumor Y-1 cell line chronically producing type C virus. Some estrogenic hormones that do not have any stimulatory effect on virus production from BALB or K-BALB cells induced by IdUrd stimulate virus production from normal rat kidney cells induced by IdUrd. When there is no stimulation of virus production in a cell system by steroid hormones, very often there is some inhibitory activity. Furthermore, we observed that in JLSV10 cells chronically producing Rauscher leukemia virus and in K-BALB cells newly infected by Rauscher leukemia virus, virus production is enhanced by dexamethasone when the cells are still producing a low titer of virus but is not enhanced when the cells are producing a high titer of virus.
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PMID:A survey on the effect of steroid hormone on type C virus production from cultured murine cells. 17 41

Dexamethasone induces morphological differentiation in murine neuroblastoma cells in culture. The percentage of differentiated cells depends on the concentration of dexamethasone in the medium and duration of treatment. After drug removal (with or without replating), many cells maintain their differentiated phenotype. Dexamethasone-treated cells have larger soma and contain more protein. Dexamethasone also produces a concentration-dependent inhibition of population growth. Growth inhibition is complete by 2 days following treatment with dexamethasone 50 micrograms/ml. Complete growth inhibition is achieved prior to the complete expression of morphological differentiation. Androstenedione, testosterone, and 17-beta-estradiol--all steroids without glucocorticoid activity--have no differentiating effect, although they inhibit growth or cause cell death at higher concentrations.
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PMID:Morphological differentiation of a murine neuroblastoma clone in monolayer culture induced by dexamethasone. 40 Sep 12

Voltage-gated sodium currents and acetylcholine-elicited currents in clonal rat pheochromocytoma cells (PC12) were studied using the whole-cell patch-clamp technique. After treatment of cultures with nerve growth factor (NGF, 2-4 nM) for 5 or more days, both Na currents and ACh responses increased by 5-7-fold. We tested the ability of a number of treatments reported to induce physiological differentiation in neuroblastoma or neuroblastoma-glioma hybrid cells. We found that no treatment was as effective as NGF, and mitotic inhibitors and 8-bromocyclic AMP reduced the efficacy of NGF at increasing both sodium currents and ACh responses. Some treatments were able to selectively reduce or enhance the ability of NGF to induce ACh responses or sodium currents. Dexamethasone, in particular, completely blocked the NGF-induced increase in ACh response, while leaving Na currents unaffected. Furthermore, in individual cells the Na current density and ACh current density are uncorrelated. These observations indicate that physiological differentiation in PC12 cells is regulated differently than in neuroblastoma cells and, further, in PC12 cells sodium currents and ACh responses are independently regulated.
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PMID:Regulation of sodium currents and acetylcholine responses in PC12 cells. 230 64

Metallothioneins are a class of cysteine-rich and low molecular weight, metal-binding proteins that are inducible by a wide variety of agents, including metal ions, such as cadmium and zinc, glucocorticoid hormones, interferon, and tumor promoters. In an effort to delineate the regulation of the synthesis of the recently identified brain metallothionein-like protein, a study was undertaken to compare the induction of metallothionein in human neuroblastoma IMR-32 cells by zinc, cadmium, and dexamethasone using the human Chang liver cells as a control. Both cadmium (1 microM) and zinc (100 microM) significantly enhanced the incorporation of [35S]cysteine into metallothioneins isolated from both neuroblastoma and Chang liver cells. Dexamethasone in concentrations of 10 microM stimulated the synthesis of metallothionein in the Chang cells, whereas it had no effects on the synthesis of metallothionein in the neuroblastoma cells at concentrations ranging from 2.5--100 microM. The degree of stimulation of metallothionein synthesis in the Chang cells by cadmium and zinc was significantly higher than seen in neuroblastoma cells. The neuroblastoma IMR-32 exhibited less tolerance to the toxicity of both cadmium and zinc than the Chang cells, which may correlate with the inherent ability of these ions to induce metallothioneins in these dissimilar cells. The results of these studies are interpreted to indicate that the factors regulating the synthesis of metallothioneins in the Chang and neuroblastoma cells are not identical, suggesting also of the presence of dissimilar regulatory mechanisms in the liver and brain.
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PMID:The stimulation of metallothionein synthesis in neuroblastoma IMR-32 by zinc and cadmium but not dexamethasone. 248 8

Endocrine hypertension secondary to disorders of the adrenal glands is uncommon, but by no means rare. The importance of correct biochemical diagnosis and subsequent localization of the responsible lesion(s) lie in the fact that many of these syndromes occur in younger patients, may exhibit familial patterns of inheritance and are frequently amenable to surgical cure. The radiopharmaceuticals (131)1-6 beta-iodomethyl-19-norcholesterol (NP-59), a marker of adrenocortical cholesterol uptake, and (131)1- and (123)1-metaiodobenzylguanidine (MIBG), a norepinephrine (NE) analog and marker of energy-dependent NE storage vesicle accumulation, can be shown to accurately localize adrenal cortex and sympathoadrenal dysfunction, respectively. In Cushing's syndrome (CS) not only does the pattern of NP-59 uptake depict the adrenal dysfunction and its pathophysiologic basis, but the level of NP-59 accumulation reflects the degree of adrenocortical hyperfunction. Adrenocorticotrophin-independent CS is uniformly and accurately localized, especially in bilateral cortical nodular hyperplasia where even high resolution computed tomography (CT) may fail to depict the often subtle, asymmetric anatomic abnormalities. Dexamethasone suppression NP-59 adrenal scintigraphy has been shown to be highly sensitive and specific, and exceeds the efficacy of CT in the differentiation of adenoma and bilateral hyperplasia in primary aldosteronism. MIBG is useful as a sympathoadrenal imaging agent whose clinical utility has been demonstrated in the localization of pheochromocytoma, especially as a modality to screen the body for multiple and extraadrenal, recurrent, or metastatic lesions. Moreover, the extent of metastatic involvement from neuroblastoma can also be accurately depicted using MIBG. In this review we will examine the role of adrenal scintigraphy in the characterization of hypersecretory disorders of the adrenal cortex, medulla, and related conditions that produce hypertension as part of their symptom(s) complex. This approach, which is complementary to other anatomical modalities of imaging, can be used to advantage in the localization of functioning cortical and medulla adrenal diseases and other neoplasms of adrenergic origin.
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PMID:Scintigraphic studies in adrenal hypertension. 265 11

The effect of steroid hormones on the prostaglandin E1 (PGE1)-mediated cyclic AMP formation by murine neuroblastoma clone N1E-115 was studied. Dexamethasone at submicromolar concentrations and corticosterone at micromolar concentrations (steroids with glucocorticoid activity) were able to modify the PGE1-mediated response whereas testosterone, progesterone, and estradiol each at 10 microM had no effect. Glucocorticoids added to the culture medium of N1E-115 cells produced an increase in the maximal response to PGE1 only after long-term (greater than or equal to 4 h) incubation with the hormone. Inhibitors of protein and RNA synthesis blocked this effect of glucocorticoids. Basal activity of adenylate cyclase in treated cells was twofold higher than that in control cells, and this enzyme seemed to be the primary target for the hormone action, since the activity of 3':5'-cyclic AMP phosphodiesterase and the binding of [3H]PGE1 to its receptors were not altered by glucocorticoid treatment. Our results indicate that glucocorticoids modulate receptor-mediated responses in cells of neural origin through a mechanism that involves induction of protein synthesis.
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PMID:Glucocorticoids potentiate the prostaglandin E1-mediated cyclic AMP formation by a cultured murine neuroblastoma clone. 298 17

The presence of angiotensinogen messenger RNA (mRNA) was assessed in total RNA extracted from hepatoma, glioma, neuroblastoma, and glioma-neuroblastoma hybrid cell lines. Total RNA from 1 X 10(7) cells was extracted, transferred to a membrane, and hybridized with a 32P-labeled, full-length (1650-base pair) rat angiotensinogen complementary DNA (cDNA). Angiotensinogen RNA sequences could be definitively detected only in hepatoma cells. Steroids were used in an attempt to increase the angiotensinogen mRNA level. Dexamethasone (2 X 10(-6) M) or 17 beta-estradiol (1 X 10(-7) M) was added to the cultures 18 to 24 hours prior to harvest. Dexamethasone treatment of the hepatoma cells resulted in a large increase in angiotensinogen mRNA, whereas estradiol had no effect. Steroids failed to induce detectable levels of angiotensinogen mRNA in total RNA from the other cell lines. That the RNA was intact was ensured by hybridizing duplicate Northern blots to a 32P-labeled actin cDNA. Actin mRNA sequences were detected in all cell lines. Blot hybridization of poly(A)+RNA resulted in the visualization of a weak angiotensinogen mRNA signal for a glioma cell line and a glioma-neuroblastoma hybrid line. However, the ability to detect angiotensinogen mRNA in a cell may depend on the phenotype expressed, which can be governed by culture conditions.
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PMID:Presence of angiotensinogen messenger RNA in various cultured cell lines. 359 87

High concentrations of a newly-identified biologically potent peptide, neuropeptide Y, have been demonstrated in 3 related mouse neuroblastoma-derived clonal cell lines, N18TG2 0.35 pmol/mg protein, NG108-15 0.44 pmol/mg protein and NCB-20 0.39 pmol/mg protein. The NG108-15 cell line was chosen for further evaluation. Dexamethasone (10 microM) and nerve growth factor (10 ng/ml) resulted in a 2-fold increase in cellular neuropeptide Y concentrations. The response to dexamethasone was demonstrated to be dose-dependent. Exposure to both agents in combination resulted in a more than additive effect, indicating synergism.
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PMID:Neuropeptide Y in neuroblastoma X glioma hybrid cells. Response to dexamethasone and nerve growth factor. 668 84

The human neuroblastoma cell line NB-39-nu expressed mRNA coding for inducible nitric oxide synthase (iNOS) following treatment with a combination of interferon-gamma (IFN-gamma) and tumour necrosis factor-alpha (TNF-alpha). The level of iNOS mRNA peaked 24 h after stimulation and had declined by about 25% after 48 h. Trace levels of iNOS mRNA were detected after treatment with IFN-gamma alone, and its mRNA level was synergistically enhanced by simultaneous treatment with TNF-alpha. Neither bacterial lipopolysaccharide nor interleukin-1 beta (IL-1 beta) showed synergistic effects as great as that of TNF-alpha on iNOS gene expression. Dexamethasone inhibited the induction of iNOS mRNA by IFN-gamma and TNF-alpha. Induction of iNOS was confirmed by NADPH-diaphorase staining and by immunostaining with human iNOS-specific antibody.
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PMID:Nitric oxide synthase expression in human neuroblastoma cell line induced by cytokines. 872 59

Deficiencies in cellular cyclic AMP (cAMP) and nitric oxide (NO) production are thought to be involved in the pathogenesis of diabetic neuropathy. We used a human neuroblastoma cell line, SH-SY5Y, to investigate the effect of cilostazol, a specific cAMP phosphodiesterase inhibitor, on NO production and Na+, K+-ATPase activity. SH-SY5Y cells were cultured under 5 or 50 mM glucose for 5-6 days, the cells were then exposed to cilostazol or other chemicals and nitrite, cAMP and Na+, K+-ATPase activity were measured. In cells grown in 50 mM glucose, cilostazol was observed to increase significantly both NO production and cellular cAMP accumulation in a time- and dose-dependent manner. Cilostazol also significantly recovered reduced levels of protein kinase A activity (PKA) in 50 mM glucose. Furthermore, a PKA inhibitor, H-89 significantly suppressed the increase in NO production stimulated by cilostazol, suggesting that cilostazol stimulates NO production by activating PKA. Cilostazol did not affect either sorbitol or myo-inositol concentrations. Dexamethasone, which is known to induce inducible NO synthase, had no effect on NO production stimulated by cilostazol, suggesting that cilostazol stimulates NO production catalyzed by neuronal constitutive NO synthase (ncNOS) in SH-SY5Y cells. L-arginine, which is an NO agonist enhanced Na+, K+-ATPase activity in cells grown in 50 mM glucose, NG-nitro-L-arginine methyl ester (L-NAME), which is an NOS inhibitor inhibited basal Na+, K+-ATPase activity in 5 mM glucose and suppressed the increased enzyme activity induced by cilostazol in 50 mM glucose. The above results confirmed our previous observation that NO regulates Na+, K+-ATPase activity in SH-SY5Y cells and suggest that cilostazol increases Na+, K+-ATPase activity, at least in part, by stimulating NO production. The present results also suggest that cilostazol has a beneficial effect on diabetic neuropathy by improving Na+, K+-ATPase activity via directly increasing cAMP and NO production in nerves.
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PMID:Cilostazol, a cyclic AMP phosphodiesterase inhibitor, stimulates nitric oxide production and sodium potassium adenosine triphosphatase activity in SH-SY5Y human neuroblastoma cells. 1050 60

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