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)

The endogenous central nervous tissue substance called MLC (morphine-like compound) is shown to bind to the opiate receptors of the mouse neuroblastoma X glioma hybrid cell line NG108-15. The interaction of MLC with these opiate receptors is noncooperative, as is the interaction of morphine, naloxone, and Leu-enkephalin with these receptors. A specific antibody to morphine will bind MLC but will not bind beta-endorphin, Leu-enkephalin, or Met-enkephalin. It would appear, therefore, that MLC can be considered to be a different type of endogenous ligand for the opiate receptor.
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PMID:Binding of the endogenous nonpeptide morphine-like compound to opiate receptors. 20 Sep 39

The expression of preprodynorphin has been studied using the Northern blot technique. Ten human cell lines, six small cell lung carcinoma (SCLC), one large cell carcinoma (LCC), two neuroblastoma and one lymphoblast-like cell line, were screened with a preprodynorphin cRNA-probe. Tryptic digestion followed by radioimmunoassay for Leu-enkephalin-Arg6 was used to detect possible translation of the preprodynorphin transcript. Of the ten cell lines investigated we found that all expressed preprodynorphin-mRNA to various degrees, and that this transcript is also translated. Two of the cell lines, neuroblastoma SK-N-MC and SCLC H69, also expressed preproenkephalin-mRNA. This set of cell lines provides a useful model of human origin in which the regulation of the preprodynorphin gene and the posttranslational processing of its products can be studied and compared.
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PMID:Expression of preprodynorphin in human small cell lung carcinoma cell lines. 168 70

The endogenous opioids and their receptors are known to play a major role in neoplasia. In the present study, naltrexone (NTX), a potent opioid antagonist, was utilized to explore the interactions of opioids and opioid receptors in mice with transplanted neuroblastoma (S20Y). Tumors from mice subjected to either intermittent (4-6h/day; 0.1 mg/kg NTX) or complete (24 h/day; 10 mg/kg NTX) opioid receptor blockade exhibited an up-regulation of DADLE and Met-enkephalin binding sites, as well as tissue levels of beta-endorphin and Met-enkephalin. Binding affinity to [D-Ala2,D-Leu5]enkephalin (DADLE) or ethylketocyclazocine (EKC), the levels of plasma beta-endorphin, and the anatomical location and quantity of Met- and Leu-enkephalin and cytoskeletal components (i.e. tubulin, actin, brain spectrin (240/235) were similar in NTX and control tumor-bearing animals. Tissue viability of the 0.1 NTX group was increased compared to controls. Both mitotic and labeling indexes were increased during the period of opioid receptor blockade, but decreased in the period subsequent to receptor blockade. NTX treatment produced a 2-fold increased in sensitivity to opioids. Met-enkephalin (10 mg/kg) produced a depression in both mitotic and labeling indexes in tumor-bearing mice that could be reversed by naloxone (10 mg/kg) administration. Thus, the endogenous opioids are trophic agents that inhibit growth by suppressing cell proliferation. The duration of receptor blockade by opioid antagonists modulates these actions, affecting both tumor incidence and survival time. Complete opioid receptor block prevents the interaction of increased levels of putative growth-related peptides with a greater number of opioid receptors, thereby increasing cell proliferation and accelerating tumor growth. With intermittent blockade, an enhanced opioid-receptor interaction occurs during the interval when the opioid antagonist is no longer present, producing an exaggerated inhibitory action on cell proliferation and the repression of tumorigenic events.
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PMID:Opioid antagonist modulation of murine neuroblastoma: a profile of cell proliferation and opioid peptides and receptors. 254 Aug 73

Primary cultures of pure populations of neuronal or glial cells from the striatum, the cerebral cortex, and the mesencephalon of the mouse embryo were used to look for the presence of opiate receptors coupled to adenylate cyclase. Leu-enkephalin inhibited cAMP production in membranes of embryonic striatal neurons but not in those of other cell types examined. Mu and delta opiate receptors seemed to be coupled negatively to adenylate cyclase in embryonic striatal neurons. It was found that DTLET (a selective delta agonist), as well as DAGO (a selective mu agonist), inhibited cAMP production on these cells. DTLET but not, however, DAGO produced a similar effect on homogenates from the adult rat striatum and on membranes from the neuroblastoma x glioma hybrid cell line NG 108-15, two preparations known to possess only delta receptors negatively coupled to adenylate cyclase. The selective kappa agonist U 50.488 was ineffective on all types of membrane preparations used. The inhibitory effects of both DTLET and DAGO on basal adenylate cyclase activity in striatal neurons were reversed by naloxone with a similar efficacy. Two other selective mu agonists, trimu 5 and morphiceptin, inhibited cAMP production in membranes of striatal neurons as well. The nonadditivity of the inhibitory effects of DTLET and DAGO on basal or forskolin-induced activation of adenylate cyclase suggested that mu and delta receptors were colocalized on a similar subpopulation of striatal cells in primary culture. These cells possess dopaminergic receptors of the D1 subtype as well since the amplitude of the inhibitory effects of DTLET and DAGO on cAMP production was increased in the presence of dopamine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mu and delta opiate receptors coupled negatively to adenylate cyclase on embryonic neurons from the mouse striatum in primary cultures. 284 21

The membrane of mouse neuroblastoma N-18 cells degraded dynorphin-(1-13), dynorphin-(1-17), and Leu-enkephalin. The degradation of the former two peptides was inhibited strongly by N-ethylmaleimide, moderately by diisopropylphosphorofluoridate and phosphoramidon, and slightly by bestatin. When Leu-enkephalin was the substrate, however, the effects of phosphoramidon and bestatin were marked and those of N-ethylmaleimide and diisopropylphosphorofluoridate were negligibly small. Captopril did not affect the degradation of the two dynorphins and Leu-enkephalin, but inhibited the further cleavage of N-terminal fragments generated from dynorphin-(1-13) by the N-ethylmaleimide-sensitive protease. Thus, a cysteine protease and, probably, a serine protease are responsible to the initial fragmentation of the dynorphins.
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PMID:Degradation of dynorphin-(1-13) and dynorphin-(1-17) by the neuroblastoma cell membrane. Evidence for the involvement of a cysteine protease. 287 60

A subclone of NG108-15 neuroblastoma-glioma hybrid cells was used to study the intracellular distribution of opioid receptors. Subcellular organelles were separated on self-generating Percoll-sucrose gradients and the enzymes beta-glucuronidase, galactosyltransferase, 5'-nucleotidase, and glucose-6-phosphatase were used as markers to localize the various structures. Analysis of the receptor distribution from untreated cells shows that the plasma membranes contained the highest receptor density, but a significant portion of the opioid binding sites was unevenly distributed between the lysosomes, microsomes, and Golgi elements. The enzyme markers indicated that appearance of opioid receptors in these intracellular structures does not result merely from contamination with plasma membranes. About 11% of the receptors appeared in a fraction lighter than plasma membranes. The antilysosomal agent chloroquine altered the intracellular compartmentation of the receptors, possibly by blocking their translocation in the cells. Leu-enkephalin induced time-dependent loss of receptors from all four intracellular compartments examined, but a kinetic analysis showed that the rate of receptor loss in these fractions was not identical. Thus, the percent of receptors appearing in the lysosomal fraction that could still bind [3H]D-Ala2-D-Leu5-enkephalin in vitro was increased on treatment with Leu-enkephalin. As an additional approach to follow the intracellular fate of the receptors, cells were labeled with [3H]diprenorphine, chased with various unlabeled opiates, and the distribution of 3H-ligand-receptors in the cells was monitored. Leu-enkephalin and etorphine altered the distribution of receptor-bound [3H]diprenorphine between the plasma membranes, lysosomes, and Golgi elements, whereas morphine had no such effect. The study sheds light on the role of intracellular structures in the metabolism of opioid receptors in untreated and opioid-treated cells.
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PMID:Subcellular compartmentation of opioid receptors: modulation by enkephalin and alkaloids. 300 5

Regulation of preproenkephalin gene expression was studied in NG108-15 neuroblastoma-glioma hybrid cells. Untreated cells contain 20-120 fg preproenkephalin mRNA per microgram cellular RNA. Treatment of cells with a glucocorticoid (e.g. dexamethasone) for 24 hr or 8 days elevated the abundance of this mRNA to 3 or 9 times the control, respectively. Treatment with 8-bromo-cyclic AMP or an adenylate cyclase activator such as prostaglandin E1 or forskolin elevated preproenkephalin mRNA to twice the control or less. Treatment with both glucocorticoid and forskolin for 24 hr or 8 days markedly increased preproenkephalin mRNA to 5-8 and 30 times the control, respectively. Intracellular Met-enkephalin immunoreactivity was increased in parallel with the mRNA abundance. The results demonstrate that preproenkephalin gene expression is synergistically regulated by glucocorticoids and cAMP.
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PMID:Glucocorticoids and cyclic AMP synergistically regulate the abundance of preproenkephalin messenger RNA in neuroblastoma-glioma hybrid cells. 302 Nov 19

Preproenkephalin mRNA was analyzed in Neuroblastoma X Glioma, NG 108-15, cells as well as in respective parental cell lines, i.e. mouse Neuroblastoma N18 and rat Glioma C6, using a rat preproenkephalin cDNA as a probe. NG synthesize efficiently a preproenkephalin mRNA, similar in size to that of normal tissues. Of the two parental cell lines, Neuroblastoma seems to synthesize it as well as NG; conversely Glioma cell lines under the same conditions do not appear to synthesize preproenkephalin mRNA with the same efficiency as NG and N18.
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PMID:Preproenkephalin mRNA in neuroblastoma X glioma, NG 108-15, hybrid cells and in parental cell lines: mouse neuroblastoma, N18, and rat glioma, C6. 343 69

Five opioid peptides (immunoreactivity) derived from their respective opioid precursors were measured in neuroblastoma-glioma hybrid cells (NG 108CC15; pmol/g protein): heptapeptide (Tyr-Gly-Gly-Phe-Met-Arg-Phe), 13.0 +/- 2.6; alpha-neoendorphin, 6.6 +/- 0.8; dynorphin A, 4.4 +/- 1.5; dynorphin A 1-8, 1.3 +/- 0.29; beta-endorphin, 0.3 +/- 0.13. These peptides originate from preproenkephalin A (heptapeptide), prodynorphin (alpha-neonedorphin, dynorphin A, dynorphin A 1-8) and proopiomelanocortin (beta-endorphin). The data suggest the expression of all three known opioid precursors in a single hybrid cell line, permitting a simultaneous investigation of the processing of different opioid peptides under identical experimental conditions.
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PMID:Evidence for the expression of peptides derived from three opioid precursors in NG 108CC15 hybrid cells. 356 21

Inhibition of binding of beta h-endorphin or Leu-enkephalin by beta h-endorphin analogs of various chain lengths in memmbrane preparations of the neuroblastoma x glioma NG108-15 cells has been investigated. The removal of even a single residue from the C-terminus results in the inability of the resulting peptide to completely displace beta h-endorphin. In addition, the proportion of nondisplaceable binding increases with decreasing chain length.
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PMID:Beta-endorphin. Binding activity of synthetic analogs with various chain lengths in neuroblastoma x glioma NG108-15 cell membranes. 609 37

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