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)

Angiotensin II (ANG II) is the primary mediator of the renin-angiotensin system, which has an important functional role in cardiovascular homeostasis. The angiotensin receptor and its functional correlates have been redefined by the cloning of angiotensin receptors and the discovery and widespread study of specific nonpeptide ANG II-receptor antagonists losartan (AT1 selective) and PD123177 (AT2 selective). With these antagonists, it has been possible to extend the concept of ANG II-receptor heterogeneity to virtually every tissue and species. The losartan-sensitive sites have been shown to mediate all of the major ANG II-induced biologic effects, including vasoconstriction, aldosterone and catecholamine release, and central, ANG II-induced drinking behavior. The function of the AT2 site is not fully understood, but it may be involved in neuronal ion channel modulation and in fibroblast collagen metabolism. The presence of AT2 sites in fetal tissues and in discrete locations in the brain has encouraged continued research. Losartan, which represents the first of a new class of therapeutic agents, is currently undergoing clinical trials. A growing number of other AT1-selective ANG II-receptor antagonists are under development, including L-158,809, SKF 108566, and GR117285. Rat AT1-receptor subtypes have been cloned and sequenced (AT1A and AT1B). Human ANG II receptors have also been cloned and shown to have high affinity for losartan. A number of atypical angiotensin-binding sites have been identified from mycoplasma, amphibians, and mouse neuroblastoma, which are not sensitive to either losartan or PD123177.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Angiotensin II receptors and functional correlates. 129 Jun 17

Local renin-angiotensin systems (RAS) exist in many cell types, and angiotensin II (AII) has growth regulatory effects in some tissues. We demonstrated the presence of angiotensinogen (ANG) mRNA in cultured human mesangial cells (MC) and SHSY-5Y human neuroblastoma cells using reverse transcription and the polymerase chain reaction (RT/PCR) followed by hybridization to a human ANG-specific oligonucleotide probe. We speculated, therefore, that AII might act in an autocrine or paracrine fashion to regulate the growth of mesangial cells and neuroblastoma cells. Sense and antisense oligonucleotides were next synthesized complementary to the ANG transcription start site. Antisense but not sense oligonucleotides decreased [3H]thymidine incorporation into DNA by both MC and neuroblastoma cells. Growth of antisense oligonucleotide-treated cells was restored to control levels by the addition of AII but not by the addition of basic fibroblast growth factor. Neither oligonucleotide affected [3H]thymidine incorporation in mouse L929 cells. These data indicate that locally produced AII can act in an autocrine or paracrine fashion to alter the growth of human mesangial and neuroblastoma cells. Therefore, they suggest a role for local RAS in the pathogenesis of growth abnormalities in the cardiovascular system as well as in some forms of malignancy.
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PMID:The use of antisense oligonucleotides to establish autocrine angiotensin growth effects in human neuroblastoma and mesangial cells. 149 71

Because of the known capacity of angiotensin II to serve as a growth factor in multiple tissues, we elected to study the effects of renin-angiotensin system inhibition on the growth of human SH-SY5Y neuroblastoma cells. Cells were treated with captopril (0.05-5 mg/ml), enalapril, or enalaprilat (0.02-5 mg/ml) or saralasin (0.1-0.25 mg/ml). In all cases, statistically significant reductions in cell growth were seen over 5 days of culture. In additional experiments, captopril and enalaprilat significantly decreased thymidine incorporation into DNA in these cells. The administration of angiotensin II in the presence of captopril partially offset these suppressive effects.
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PMID:Angiotensin-converting enzyme inhibition reduces neuroblastoma cell growth rate. 199 5

The metabolism of angiotensin (Ang) peptides was studied in NG108-15 neuroblastoma x glioma hybrid cells which express Ang II receptors, renin, dipeptidyl carboxypeptidase A (converting enzyme), as well as Ang I and Ang II. In these experiments, 0.2 nM of either 125I-Ang I or 125I-Ang II was incubated with intact cell monolayers and the medium was analyzed for 125I-products by high performance liquid chromatography. The major product generated from the metabolism of labeled Ang I or Ang II was identified as the amino-terminal heptapeptide Ang-(1-7). N-benzyloxycarbonyl-prolyl-prolinal (ZPP), a specific inhibitor of prolyl endopeptidase, inhibited the formation of Ang-(1-7) from Ang I by 35%. Complete inhibition of Ang-(1-7) generation was attained with p-chloromercuriphenyl-sulfonate, which suggests that a sulfhydryl-containing peptidase other than prolyl endopeptidase is also involved in Ang-(1-7) formation. Ang II was observed to be a minor product resulting from Ang I metabolism. Although the converting enzyme inhibitor enalaprilat (MK-422) significantly reduced Ang II formation, it had no effect on the levels of Ang-(1-7). These findings demonstrate a preferential processing of Ang I into Ang-(1-7) which is not dependent on the prior formation of Ang II.
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PMID:Processing of angiotensin peptides by NG108-15 neuroblastoma x glioma hybrid cell line. 216 36

Plasma total renin is a new, useful marker for nephroblastoma, but the conventional method for determining its level is sophisticated and requires large blood samples. To develop a simpler technique, a monoclonal antibody specific for both inactive and active renin (inactive + active = total) was raised, and a radioimmunoassay (RIA) system was established. This monoclonal antibody stains only the juxtaglomerular apparatus; values determined by this RIA did not change before and after activation. So far, the RIA system has been applied to 136 samples from 92 patients. Plasma total renin levels were also determined with the conventional method: samples were activated, then renin activity was assayed by measuring angiotensin I. The coefficient of the data obtained by these two different techniques was 0.921 (P less than .01). Plasma total renin levels in patients with nephroblastoma were significantly increased (546.5 +/- 297.8 pg/mL) over those in patients with neuroblastoma (218.6 +/- 46.5 pg/mL) and in controls (165.8 +/- 67.5 pg/mL, P less than .01). After removal of Wilms' tumors, the levels decreased to normal when sampled every 2 weeks. It was concluded that a newly developed RIA system is more useful in determining plasma total renin levels in patients with nephroblastoma.
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PMID:Determination of plasma total renin level by RIA with a monoclonal antibody: value as a marker for nephroblastoma. 217 85

Adrenal imaging using radiopharmaceuticals is a functional test that can contribute significantly to surgical management and follow-up of patients with either benign or malignant conditions of the adrenal cortex and medulla. Imaging of the cortex is achieved by iodine-131-labeled iodomethyl nor-cholesterol (NP-59), while adrenal medulla imaging can be successfully accomplished by 131I-metaiodobenzylguanidine (MIBG), which localizes in the adrenergic nerve terminal with norepinephrine. Both tests carry high sensitivity and specificity for functional tumors and hyperplasia, and often better than CT scanning. This article reviews the current status and clinical utility of nuclear imaging of the adrenal cortex in congenital hyperplasia, low renin hypertension and aldosteronism, and Cushing's syndrome. Adrenal medulla imaging is reviewed in light of our experience at the University of Texas M.D. Anderson Cancer Center in pheochromocytoma, neuroblastoma, and other neuroectodermal tumors. Investigation of 131I-MIBG therapy of metastatic tumors of neuroectodermal origin potentially offers a means of at least controlling symptoms of hormonal secretion in these patients.
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PMID:Role of adrenal imaging in surgical management. 217 29

Plasma renin levels are elevated in neuroblastoma as in nephroblastoma patients. Unlike nephroblastoma, the active component appears to predominate. Patients with thoracic neuroblastoma produce high levels of renin by the tumour, which thus excludes an ischaemic aetiology as the source.
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PMID:Plasma renin levels in patients with thoracic neuroblastoma. 266 3

High activity of renin was demonstrated in human neuroblastoma tissue. This activity was inhibited by specific antibody raised against human renal renin, indicating that it was not due to the nonspecific action of proteases. The specific activity of renin was 122.8 ng of angiotensin I generated mg of protein-1 h-1. It shared some biochemical features with well-known kidney renin, such as molecular weight, optimum pH, the presence of trypsin-activatable inactive renin, and glycoprotein nature. Furthermore, angiotensin-converting enzyme (ACE) activity (2.64 nmol mg of protein-1 min-1) was found in the tissue. This activity was inhibited by captopril, a specific ACE inhibitor, or by omission of chloride ion. These results suggest that true renin in addition to ACE exists in human neuroblastoma tissue.
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PMID:Renin and angiotensin-converting enzyme in human neuroblastoma tissue. 298 31

Readily detectable levels of renin activity were demonstrated in the human brain. This activity was inhibited by specific antibody raised against human renal renin, indicating that it was not due to the nonspecific action of proteases such as cathepsin D. The pineal gland was found to be the richest source of renin followed by the pituitary, hypothalamus and hippocampus. The substantia nigra, caudate nucleus, putamen and thalamus contained moderately high concentrations of renin. The brain renins from pineal and pituitary glands shared some biochemical features with well-known kidney renin, such as molecular weight (46,000 daltons for pineal renin; 37,000-45,000 daltons for pituitary renin), optimum pH (6.0-7.0), the presence of trypsin activatable inactive renin, and a glycoprotein nature. However, the electrofocusing pattern of renin from pituitary tissue (pI = 4.43, 5.77) differed from that of plasma and kidney enzymes heretofore reported, a discrepancy which could be interpreted as evidence for the endogeneous synthesis of renin in the brain tissue. Furthermore, a high activity of immunoreactive renin was found in human neuroblastoma tissue. The biochemical characteristics of the neuroblastomal renin were generally similar to the known properties of kidney renin in many respects, providing evidence of the presence of the renin-angiotensin system within human neuronal cells.
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PMID:Immunoreactive renin in human brain: distribution and properties. 299 58

Cultured neuroblastoma cells and neuroblastoma-glioma cells have been shown to contain renin activity, angiotensin-converting enzyme activity, and angiotensins. It has been assumed that these cells also produce angiotensinogen as the substrate of an intracellular renin-angiotensin system. However, measurements of angiotensinogen have not been reported in the neuroblastoma or neuroblastoma-glioma cells, and the possibility that the cells generate angiotensins from fetal bovine angiotensinogen has not been eliminated. In this work angiotensinogen was shown to accumulate in the serum-free medium of thoroughly washed neuroblastoma cells (mouse Neuro-2A and rat B103) and glioma cells (rat C6). Separate experiments demonstrated that mouse Neuro-2A cells continue to produce angiotensinogen even after two passages in a defined serum-free culture medium. Further evidence that the angiotensinogen was not a contaminant from fetal bovine serum was obtained by the use of a monoclonal antibody raised against angiotensinogen of rat plasma. The angiotensinogen of Neuro-2A and C6-glioma cells is bound by the monoclonal antibody, whereas fetal bovine angiotensinogen is not bound. These results are consistent with the hypothesis that angiotensinogen is produced locally in the brain and in neuroblastoma cells as a substrate for an intracellular renin-angiotensin system.
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PMID:Generation of angiotensinogen by cultured neuroblastoma and glioma cells. 394 66

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