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)

Morphine inhibits adenylate cyclase (EC 4.6.1.1) activity of neuroblastoma times glioma hybrid cells. The inhibition is stereospecific and is reversed by the antagonist, naloxone. The relative affinities of narcotics for the opiate receptor agree well with their effectiveness as inhibitors of adenylate cyclase. Morphine-sensitive and -insensitive cell lines were found, and the degree of sensitivity was shown to be dependent upon the abundance of narcotic receptors. Thus, morphine receptors are functionally coupled to adenylate cyclase. A molecular mechanism for narcotic addiction and tolerance is proposed.
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PMID:Morphine receptors as regulators of adenylate cyclase activity. 105 41

Buprenorphine is an opiate drug with a mixed agonist-antagonist profile and has therapeutic efficacy in attenuating drug craving and addiction. Because the adenylyl cyclase system has been implicated in the biochemical basis of opiate withdrawal phenomena, we have compared the acute and chronic effects of buprenorphine with the full opiate agonist etorphine on cyclic AMP (cAMP) synthesis in the human neuroblastoma cell SK-N-SH. Both drugs acutely inhibited prostaglandin (PG)E1-stimulated cAMP accumulation; the inhibition caused by either drug was prevented by pretreatment with the opiate antagonist naltrexone or with pertussis toxin. Chronic treatment of the cells with etorphine induced an increase in PGE1-stimulated cAMP synthesis which was observed after withdrawal of the inhibitory drug. Chronic treatment with buprenorphine appeared to have the opposite effect, resulting in an attenuated PGE1 stimulation; additionally, buprenorphine prevented the etorphine-induced enhancement in cAMP synthesis, whether administered before or after prolonged incubation of the cells with etorphine. The attenuating effect of buprenorphine occurred within 5 min and was prevented by a prior application of naltrexone, but could not be reversed by a subsequent treatment with antagonist. These findings suggest that buprenorphine was binding (pseudo)irreversibly to the opiate receptor, resulting in a persistent inhibition of cAMP synthesis which masks the etorphine-induced enhancement of adenylyl cyclase activity. This hypothesis was confirmed by experiments demonstrating that treatment of the cells with buprenorphine significantly reduced available opiate receptor binding sites despite extensive washing of the cells to remove unbound buprenorphine. These pharmacodynamic actions of buprenorphine may be relevant to its therapeutic efficacy in treating drug abuse and addiction.
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PMID:Buprenorphine prevents and reverses the expression of chronic etorphine-induced sensitization of adenylyl cyclase in SK-N-SH human neuroblastoma cells. 838 Aug 66

Opiates have been used extensively in the treatment of pain but with the severe side effect of addiction, which is believed to be related to opiates' direct (primary) or indirect (secondary) neurotoxicity. In this study, the effects of opioids on cell growth and apoptosis have been examined in human neuroblastoma cell line SK-N-SH. Etorphine, a wide-spectrum and potent agonist of opioid receptors, was found to significantly inhibit cell growth and to induce apoptosis. The inhibitory and apoptotic activities of etorphine followed a dose- and time-dependent manner. The more specific agonists of opioid receptors such as morphine, [D-Ala2, N-Me-Phe4, Gly5-ol]-enkephalin (DAGO), [D-Pen2, D-Pen5]-enkephalin (DPDPE), dynorphin A and nociceptin/orphanin FQ did not show similar toxic activities under the same conditions. In addition, the effects of etorphine could not be blocked by the opioid receptor antagonist naloxone, suggesting that the effects of etorphine might not be mediated by a classical opioid receptor. However, pretreatment of SK-N-SH cells with pertussis toxin (PTX) blocked the inhibition of cell growth and apoptosis induced by etorphine, indicating the involvement of PTX-sensitive G proteins in the processes. It was also shown that etorphine-induced apoptosis was prevented by actinomycin D (AD) and interleukin-1beta converting enzyme inhibitor I. Interestingly, etorphine was similarly potent to inhibit growth of pheochromocytoma (PC12) cells but less effective in SH-SY5Y neuroblastoma cells and C6 glioma cells. We propose that inhibition of cell growth and induction of apoptosis may be one mechanism of opioid neurotoxicity.
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PMID:Etorphine inhibits cell growth and induces apoptosis in SK-N-SH cells: involvement of pertussis toxin-sensitive G proteins. 935 60

For a study of the underlying mechanisms of a possible interaction between ethanol and nicotinic receptors during ethanol dependence, the aim of this work was to investigate the effect of chronic ethanol exposure on nicotinic receptor subtypes in a transfected fibroblast cell line (M10 cells) stably expressing alpha4beta2 nicotinic receptor subtype and an SH-SY5Y neuroblastoma cell line expressing alpha3, alpha5, alpha7, beta2, and beta4 nicotinic acetylcholine receptor (nAChR) subunits. A significant dose-related decrease (-30-80%) in number of [3H]nicotine binding sites was observed in ethanol-treated (25-240 mM) compared with untreated M10 cells. Similarly, 4-day treatment with ethanol in concentrations relevant to chronic alcoholism (100 mM) decreased the number of nicotinic receptor binding sites in the SH-SY5Y cells when measured using [3H]epibatidine. When M10 cells were chronically treated with nicotine, ethanol partly inhibited the up-regulation of nicotinic receptors when present in the cells together with nicotine. Chronic treatment for 4 days with 100 mM ethanol significantly decreased the mRNA level for the alpha3 nAChR subunit (-39%), while the mRNA levels for the alpha7 (+30%) and alpha4 (+22%) subunits were significantly increased. Chronic ethanol treatment did not affect the mRNA levels for the beta2 nAChR subunit. Changes in the levels of nAChR protein and mRNA may have adaptive significance and be involved in the development of dependence, tolerance, and addiction to chronic ethanol and nicotine exposure. They also may be targets for therapeutic strategies in the treatment of ethanol and nicotine dependence.
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PMID:Chronic ethanol treatment decreases [3H]epibatidine and [3H]nicotine binding and differentially regulates mRNA levels of nicotinic acetylcholine receptor subunits expressed in M10 and SH-SY5Y neuroblastoma cells. 948 34

Adaptive changes in gene expression are thought to contribute to dependence, addiction and other behavioral responses to chronic ethanol abuse. DNA array studies provide a nonbiased detection of networks of gene expression changes, allowing insight into functional consequences and mechanisms of such molecular responses. We used oligonucleotide arrays to study nearly 6000 genes in human SH-SY5Y neuroblastoma cells exposed to chronic ethanol. A set of 42 genes had consistently increased or decreased mRNA abundance after 3 days of ethanol treatment. Groups of genes related to norepinephrine production, glutathione metabolism, and protection against apoptosis were identified. Genes involved in catecholamine metabolism are of special interest because of the role of this pathway in mediating ethanol withdrawal symptoms (physical dependence). Ethanol treatment elevated dopamine beta-hydroxylase (DBH, EC 1.14.17.1) mRNA and protein levels and increased releasable norepinephrine in SH-SY5Y cultures. Acute ethanol also increased DBH mRNA levels in mouse adrenal gland, suggesting in vivo functional consequences for ethanol regulation of DBH. In SH-SY5Y cells, ethanol also decreased mRNA and secreted protein levels for monocyte chemotactic protein 1, an effect that could contribute to the protective role of moderate ethanol consumption in atherosclerotic vascular disease. Finally, we identified a subset of genes similarly regulated by both ethanol and dibutyryl-cAMP treatment in SH-SY5Y cells. This suggests that ethanol and cAMP signaling share mechanistic features in regulating a subset of ethanol-responsive genes. Our findings offer new insights regarding possible molecular mechanisms underlying behavioral responses or medical consequences of ethanol consumption and alcoholism.
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PMID:Expression profiling of neural cells reveals specific patterns of ethanol-responsive gene expression. 1109

The mu opioid receptor (MOR) is thought to mediate a variety of morphine's effects, including analgesia and addiction. The expression of opioid receptors can be up and down regulated, but little is known about molecular processes that regulate expression of the MOR gene. To study the regulatory elements that control expression of the human MOR (hMOR) gene, 2325 bp of the 5'-regulatory sequence of the hMOR gene were cloned and sequenced. A transcription initiation site (TIS) was mapped 252 (-252) nucleotides upstream from the translation start site (+1) by primer extension experiments using human thalamus poly(A)+ mRNA. In addition, several putative distal TISs were also identified; the most distal site was mapped 663 bp upstream of the translation start site. A series of 5'-deleted hMOR promoter-luciferase constructs were made and transiently transfected into a MOR expressing neuroblastoma cell line, SK-N-SH, and a non-expressing cell line, HeLa. These transient transfection studies indicated that the region from -563 to -292 contained a strong enhancer element(s), while the region from -776 to -564 possessed a repressor element(s). A similar transfection pattern was observed with SK-N-SH and HeLa cells, suggesting that there is not a tissue-specific element in the region from -2325 to -252.
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PMID:Functional characterization of the promoter region of the human mu opioid receptor (hMOR) gene: identification of activating and inhibitory regions. 1193 71

Elevated synaptic levels of dopamine may induce striatal neurodegeneration in l-DOPA-unresponsive parkinsonism subtype of multiple system atrophy (MSA-P subtype), multiple system atrophy, and methamphetamine addiction. We examined the participation of dopamine and D1 dopamine receptors in the genesis of postsynaptic neurodegeneration. Chronic treatment of human SK-N-MC neuroblastoma cells with dopamine or H2O2 increased NO production and accelerated cytotoxicity, as indexed by enhanced nitrite levels and cell death. The antioxidant sodium metabisulfite or SCH 23390, a D1 dopamine receptor-selective antagonist, partially blocked dopamine effects but together ablated dopamine-mediated cytotoxicity, indicating the participation of both autoxidation and D1 receptor stimulation. Direct activation of D1 dopamine receptors with SKF R-38393 caused cytotoxicity, which was refractory to sodium metabisulfite. Dopamine and SKF R-38393 induced overexpression of the nitric-oxide synthase (NOS) isoforms neuronal NOS, inducible NOS (iNOS), and endothelial NOS in a protein kinase A-dependent manner. Functional studies showed that approximately 60% of total NOS activity was due to activation of iNOS. The NOS inhibitor N(G)-nitro-l-arginine methyl ester and genistein, wortmannin, or NF-kappaB SN50, inhibitors of protein tyrosine kinases phosphatidylinositol 3-kinase and NF-kappaB, respectively, reduced nitrite production by dopamine and SKF R-38393 but were less effective in attenuating H2O2-mediated effects. In rat striatal neurons, dopamine and SKF R-38393, but not H2O2, accelerated cell death through increased expression of neuronal NOS and iNOS but not endothelial NOS. These data demonstrate a novel pathway of dopamine-mediated postsynaptic oxidative stress and cell death through direct activation of NOS enzymes by D1 dopamine receptors and its associated signaling pathways.
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PMID:Chronic stimulation of D1 dopamine receptors in human SK-N-MC neuroblastoma cells induces nitric-oxide synthase activation and cytotoxicity. 1273 94

NAC1 cDNA was identified as a novel transcript induced in the nucleus accumbens from rats chronically treated with cocaine. NAC1 is a member of the Bric-a-brac Tramtrac Broad complex/Pox virus and Zinc finger family of transcription factors and has been shown by overexpression studies to prevent the development of behavioral sensitization resulting from repeated cocaine treatment. This paper reports the cloning and characterization of the corresponding gene. The mouse Nac1 gene consist of six exons, with exon 2 containing an alternative splice donor, providing a molecular explanation of the splice variants observed in mouse and rat. Transcripts of Nac1 were ubiquitously detected in different mouse tissues with prominent expression in the brain. The mouse Nac1 gene was localized to chromosome 8, suggesting a highly plausible candidate gene to explain differences in cocaine-induced behaviors between C57BL6/J and DBA/2J mice that had previously been mapped to the area. In addition, a functional AP1 binding site has been identified in an intron 1 enhancer of the Nac1 gene that plays an essential role in the activation of the gene in differentiation of neuroblastoma cells. Co-transfection with c-jun and c-fos expression plasmids, which encode the two subunits of AP1, activated the wild type Nac1 intron 1 enhancer two-fold over basal, nearly at the level of NAC1 enhancer activity seen in differentiated N2A cells. Mutation of the AP1 site completely abrogated all activation of the NAC1 enhancer in differentiated N2A cells. Activation of immediate early genes such as c-fos and c-jun following chronic drug treatments has been well characterized. The present data describe one potential regulatory cascade involving these transcription factors and activation of NAC1. Identification of drug induced alterations in gene expression is key to understanding the types of molecular adaptations underlying addiction.
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PMID:The mouse nac1 gene, encoding a cocaine-regulated Bric-a-brac Tramtrac Broad complex/Pox virus and Zinc finger protein, is regulated by AP1. 1452 94

Addiction to opiates depend on drug-induced neuroplastic changes and are underlain by alterations of gene expression. Transcription factors Ca2+/cAMP responsive element binding protein (CREB) and activator protein 1 (AP-1) may constitute a direct link between the opioid-regulated signal transduction pathways and modulation of gene expression. Acute treatment of Neuro2a MOR neuroblastoma cells with opioids stimulated CREB activity; prolonged treatment normalized it, while withdrawal from the drug again elicited an increase in phosphorylated CREB levels. Protein kinase C was responsible for the activation of transcription following acute opioid administration whereas the cAMP pathway activated similar mechanisms during withdrawal, making CREB a kind of 'a trigger' reacting to the presence or withdrawal of the opioid signal. Apart from the elevated CREB phosphorylation, CRE binding activity and expression of luciferase reporter gene regulated by CRE elements were increased after single administration and during withdrawal from the prolonged opioid treatment. Along with CREB, AP-1 binding activity and AP-1-directed transcription were stimulated after single administration and during withdrawal from the opioid. These results provide evidence that both single opioid administration and opioid withdrawal activate CREB and CRE-dependent transcriptional mechanisms via distinct intracellular signaling pathways.
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PMID:Activation of AP-1 and CRE-dependent gene expression via mu-opioid receptor. 1528 93

Nicotine, a component of tobacco, is highly addictive but possesses beneficial properties such as cognitive improvements and memory maintenance. Involved in these processes is the neuronal nicotinic acetylcholine receptor (nAChR) alpha7, whose activation triggers depolarization, intracellular signaling cascades, and synaptic plasticity underlying addiction and cognition. It is therefore important to investigate intracellular mechanisms by which a cell regulates alpha7 nAChR activity. We have examined the role of phosphorylation by combining molecular biology, biochemistry, and electrophysiology in SH-SY5Y neuroblastoma cells, Xenopus oocytes, rat hippocampal interneurons, and neurons from the supraoptic nucleus, and we found tyrosine phosphorylation of alpha7 nAChRs. Tyrosine kinase inhibition by genistein decreased alpha7 nAChR phosphorylation but strongly increased acetylcholine-evoked currents, whereas tyrosine phosphatase inhibition by pervanadate produced opposite effects. Src-family kinases (SFKs) directly interacted with the cytoplasmic loop of alpha7 nAChRs and phosphorylated the receptors at the plasma membrane. SFK inhibition by PP2 [4-amino-5-(4-chlorophenyl)-7-(t-butyl)pyrazolo[3,4-d]pyrimidine] or SU6656 (2,3-dihydro-N,N-dimethyl-2-oxo-3-[(4,5,6,7-tetrahydro-1H-indol-2-yl)methylene]-1H-indole-5-sulfonamide) increased alpha7 nAChR-mediated responses, whereas expression of active Src reduced alpha7 nAChR activity. Mutant alpha7 nAChRs lacking cytoplasmic loop tyrosine residues because of alanine replacement of Tyr-386 and Tyr-442 were more active than wild-type receptors and insensitive to kinase or phosphatase inhibition. Because the amount of surface alpha7 receptors was not affected by kinase or phosphatase inhibitors, these data show that functional properties of alpha7 nAChRs depend on the tyrosine phosphorylation status of the receptor and are the result of a balance between SFKs and tyrosine phosphatases. These findings reveal novel regulatory mechanisms that may help to understand nicotinic receptor-dependent plasticity, addiction, and pathology.
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PMID:Alpha7 neuronal nicotinic acetylcholine receptors are negatively regulated by tyrosine phosphorylation and Src-family kinases. 1625 31


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