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: EC:2.7.11.24 (mitogen-activated protein kinase)
95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It has been known for some time that chronic treatment of neuronal cells and tissues with opioids, contrary to their acute effect, leads to an increase in cAMP accumulation. This phenomenon, defined as adenylyl cyclase superactivation, has been implicated in opiate addiction, yet the mechanism by which it is induced remains unclear. Here, we show that this phenomenon can be reproduced and studied in COS-7 cells cotransfected with adenylyl cyclase type V and mu-opioid receptor cDNAs. These cells display acute opioid inhibition of adenylyl cyclase activity, whereas prolonged exposure to the mu-agonist morphine or [-Ala2, N-methyl-Phe4, Gly-ol5]enkephalin leads to a time-dependent superactivation of adenylyl cyclase. This superactivated state is reversible, because it is gradually lost following agonist withdrawal. Adenylyl cyclase superactivation can be prevented by pertussis toxin pretreatment, indicating the involvement of Gi/o proteins, or by cotransfection with the carboxyl terminus of beta-adrenergic receptor kinase or with alpha-transducin (scavengers of Gbetagamma dimers), indicating a role for the G protein betagamma dimers in adenylyl cyclase superactivation. However, contrary to several other Gbetagamma-dependent signal transduction mechanisms (e.g. the extracellular signal-regulated kinase 2/MAP kinase pathway), adenylyl cyclase superactivation is not affected by the Ras dominant negative mutant N17-Ras.
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PMID:Chronic opioid treatment induces adenylyl cyclase V superactivation. Involvement of Gbetagamma. 870 9

Although nicotine has been implicated as a potential factor in the pathogenesis of human lung cancer, its mechanism of action in the development of this cancer remains largely unknown. The present study provides evidence that nicotine (a) activates the mitogen-activated protein (MAP) kinase signalling pathway in lung cancer cells, specifically extracellular signal-regulated kinase (ERK2), resulting in increased expression of the bcl-2 protein and inhibition of apoptosis in these cells; and (b) blocks the inhibition of protein kinase C (PKC) and ERK2 activity in lung cancer cells by anti-cancer agents, such as therapeutic opioid drugs, and thus can adversely affect cancer therapy. Nicotine appears to have no effect on the activities of c-jun NH2-terminal protein kinase (JNK) and p38 MAP kinases, which have also been shown to be involved in apoptosis. While exposure to nicotine can result in the activation of the two major signalling pathways (MAP kinase and PKC) that are known to inhibit apoptosis, nicotine regulation of MAP (ERK2) kinase activity is not dependent on PKC. These effects of nicotine occur at concentrations of 1 microM or less, that are generally found in the blood of smokers, and could lead to disruption of the critical balance between cell death and proliferation, resulting in the unregulated growth of cells. The findings suggest caution in the use of smokeless tobacco products to treat smoking addiction, as they could have a potentially deleterious effect in patients with undetectable early tumour development.
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PMID:Signalling pathways involved in nicotine regulation of apoptosis of human lung cancer cells. 960 Mar 37

The therapeutic opioid methadone, used to treat cancer pain and opioid addiction, is also a potent inducer of apoptosis in human lung cancer cells, thereby inhibiting their growth. However, in contrast to its central nervous system (CNS) actions, this effect appears to be mediated through a non-opioid mechanism involving bombesin, an autocrine growth-stimulatory factor that plays a central role in the early events of pulmonary carcinogenesis. Exposure of 'variant' small cell lung carcinoma (SCLC) and non-SCLC cells, which secrete low concentrations (< 0.01 pmol/mg protein) of bombesin, to nanomolar concentrations of methadone resulted in increased levels of mitogen-activated protein (MAP) kinase phosphatases and inactivation of MAP kinase, suppression of the bcl-2 protein, and induction of apoptosis. These effects of methadone were reversed by the addition of bombesin to the culture medium, at concentrations of < 1 microM, and 'classic' SCLC cells, which secrete high concentrations of bioactive bombesin (> 6 pmol/mg protein), were found not to respond to methadone. Thus, methadone's effectiveness is dependent upon the concentration of bioactive bombesin secreted by lung cancer cells. Methadone treatment suggests a novel therapeutic approach for patients presenting 'variant' SCLC and non-SCLC morphologies, since they respond less to conventional therapy.
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PMID:Effects of bombesin on methadone-induced apoptosis of human lung cancer cells. 1035 47

A major goal of research on addiction is to identify the molecular mechanisms of long-lasting behavioural alterations induced by drugs of abuse. Cocaine and delta-9-tetrahydrocannabinol (THC) activate extracellular signal-regulated kinase (ERK) in the striatum and blockade of the ERK pathway prevents establishment of conditioned place preference to these drugs. However, it is not known whether activation of ERK in the striatum is specific for these two drugs and/or this brain region. We studied the appearance of phospho-ERK immunoreactive neurons in CD-1 mouse brain following acute administration of drugs commonly abused by humans, cocaine, morphine, nicotine and THC, or of other psychoactive compounds including caffeine, scopolamine, antidepressants and antipsychotics. Each drug generated a distinct regional pattern of ERK activation. All drugs of abuse increased ERK phosphorylation in nucleus accumbens, lateral bed nucleus of the stria terminalis, central amygdala and deep layers of prefrontal cortex, through a dopamine D1 receptor-dependent mechanism. Although some non-addictive drugs moderately activated ERK in a few of these areas, they never induced this combined pattern of strong activation. Antidepressants and caffeine activated ERK in hippocampus and cerebral cortex. Typical antipsychotics mildly activated ERK in dorsal striatum and superficial prefrontal cortex, whereas clozapine had no effect in the striatum, but more widespread effects in cortex and amygdala. Our results outline a subset of structures in which ERK activation might specifically contribute to the long-term effects of drugs of abuse, and suggest mapping ERK activation in brain as a way to identify potential sites of action of psychoactive drugs.
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PMID:Addictive and non-addictive drugs induce distinct and specific patterns of ERK activation in mouse brain. 1507 56

Opiate addiction involves the development of chronic adaptive changes in micro -opioid receptors and associated pathways (e.g. cAMP signalling) which lead to neuronal plasticity in the brain. This study assessed the status of cAMP and mitogen-activated protein kinase (MAPK) pathways in brains (pre-frontal cortex) of chronic opiate addicts. In these subjects (n = 24), the immunodensities of adenylyl cyclase-I, PKA Calpha, total and phosphorylated CREB were not different from those in sex-, age- and PMD-matched controls. Moreover, the ratio pCREB/tCREB was similar in opiate addicts (0.74) and controls (0.76), further indicating that opiate addiction in humans is not associated with an upregulation of several key components of cAMP signalling in the pre-frontal cortex. In contrast, the components of MAPK cascade (Ras/c-Raf-1/MEK/ERK) were decreased in the same brains. Notably, pronounced downregulations of phosphorylated MEK (85%) and ERK1/2 (pERK1: 81%; pERK2: 80%) were quantitated in brains of opiate addicts. Chronic morphine treatment in rats (10-100 mg/kg for 5 days) was also associated with decreases of pERK1/2 (59-68%) in the cortex. In SH-SY5Y cells, morphine also stimulated the activity of pERK1/2 (2.5-fold) and the MEK inhibitor PD98059 blocked this effect (90%). The abnormalities of MAPK signalling might have important consequences in the long term development of various forms of neural plasticity associated with opiate addiction in humans.
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PMID:Long-term regulation of signalling components of adenylyl cyclase and mitogen-activated protein kinase in the pre-frontal cortex of human opiate addicts. 1519 81

Alcohol addiction manifests as uncontrolled drinking despite negative consequences. Few medications are available to treat the disorder. Anecdotal reports suggest that ibogaine, a natural alkaloid, reverses behaviors associated with addiction including alcoholism; however, because of side effects, ibogaine is not used clinically. In this study, we first characterized the actions of ibogaine on ethanol self-administration in rodents. Ibogaine decreased ethanol intake by rats in two-bottle choice and operant self-administration paradigms. Ibogaine also reduced operant self-administration of ethanol in a relapse model. Next, we identified a molecular mechanism that mediates the desirable activities of ibogaine on ethanol intake. Microinjection of ibogaine into the ventral tegmental area (VTA), but not the substantia nigra, reduced self-administration of ethanol, and systemic administration of ibogaine increased the expression of glial cell line-derived neurotrophic factor (GDNF) in a midbrain region that includes the VTA. In dopaminergic neuron-like SHSY5Y cells, ibogaine treatment upregulated the GDNF pathway as indicated by increases in phosphorylation of the GDNF receptor, Ret, and the downstream kinase, ERK1 (extracellular signal-regulated kinase 1). Finally, the ibogaine-mediated decrease in ethanol self-administration was mimicked by intra-VTA microinjection of GDNF and was reduced by intra-VTA delivery of anti-GDNF neutralizing antibodies. Together, these results suggest that GDNF in the VTA mediates the action of ibogaine on ethanol consumption. These findings highlight the importance of GDNF as a new target for drug development for alcoholism that may mimic the effect of ibogaine against alcohol consumption but avoid the negative side effects.
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PMID:Glial cell line-derived neurotrophic factor mediates the desirable actions of the anti-addiction drug ibogaine against alcohol consumption. 1565 98

It is known that acute cocaine administration activates the extracellular signal-regulated kinase (ERK) pathway in the striatum, and results in transcription and translation of immediate early genes (IEGs). In the present study we investigated a possible involvement of ERK in the regulation of IEG expression in the amygdala, another brain structure known to be related to an addicted state. The patterns of cocaine-induced c-Fos, JunB and Zif268 protein expression were investigated, using an immunohistochemical approach, within distinct nuclei of the amygdala, either in the presence or absence of a selective inhibitor of the ERK pathway, SL327. Although these IEGs were similarly activated in the various nuclei of the amygdala after acute administration of cocaine, they showed different patterns after chronic injections. They also showed selective sensitivities to ERK inhibition. In particular, whereas c-Fos and JunB expressions were augmented following chronic cocaine treatment, as compared with acute treatment, Zif268 expression was decreased by this chronic treatment. Additionally, chronic blocking of ERK activation affected cocaine-induced c-Fos and JunB but not Zif268 expression. Thus, the differential involvement of ERK in chronic vs. acute regulation of IEGs may account for its specific role in addiction-related behavioral alterations, such as sensitization and tolerance.
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PMID:Extracellular signal-regulated kinases (ERKs) modulate cocaine-induced gene expression in the mouse amygdala. 1611 17

Behavioral studies have demonstrated that chronic food restriction augments the rewarding and motor-activating effects of centrally injected psychostimulants and direct dopamine (DA) receptor agonists. Recently, it has been shown that intracerebroventricular (i.c.v.) injection of the D-1 DA receptor agonist, SKF-82958, produces an enhanced locomotor-activating effect as well as increased activation of striatal ERK 1/2 MAP kinase, CaM kinase II, CREB, and c-fos in food-restricted (FR) relative to ad libitum fed (AL) rats. Striatal neurons that express the D-1 DA receptor coexpress dynorphin and substance P, and CREB is known to couple D-1 DA receptor stimulation to preprodynorphin (ppD) gene expression. The purpose of the present study was to examine possible genomic consequences of FR using real-time quantitative RT-PCR to measure striatal neuropeptide gene expression 3 h after i.c.v. injection of SKF-82958 (20 microg). Results indicate that, in nucleus accumbens (NAc), basal levels of ppD and preprotachykinin (ppT) mRNA are lower in FR than AL rats. This may reflect a decrease in tonic DA transmission during FR which precedes the compensatory upregulation of postsynaptic D-1 DA receptor-mediated cell signaling. In response to SKF-82958 challenge, however, FR subjects displayed greater levels of ppD and ppT mRNA in NAc than did AL subjects. A similar trend was seen in caudate-putamen (CPu). SKF-82958 also increased preproenkephalin (ppE) mRNA in Nac, but not CPu, with no difference between feeding groups. The present findings regarding ppD and ppT are consistent with prior findings of increased behavioral and cellular responses to acute D-1 DA agonist challenge in FR rats. The functional consequences of increased neuropeptide gene expression in response to acute drug challenge remain to be investigated but may include modulation of behavioral effects that emerge with repeated drug exposure, including sensitization, tolerance, and addiction.
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PMID:Comparison of basal and D-1 dopamine receptor agonist-stimulated neuropeptide gene expression in caudate-putamen and nucleus accumbens of ad libitum fed and food-restricted rats. 1625 73

Extracellular signal-regulated kinases and activator protein 1 transcription factor have been functionally linked to addiction. It has also been shown that extracellular signal-regulated kinase activation can regulate cocaine-induced expression of c-Fos and FosB, two possible components of activator protein 1. A direct link between extracellular signal-regulated kinases and activator protein 1 activation has, however, remained unexplored. In this study, we investigated the role of extracellular signal-regulated kinases in the regulation of DNA-binding activity and composition of activator protein 1 induced in the mouse caudate putamen by cocaine treatment. We have found that pre-treatment with SL327, a selective inhibitor the extracellular signal-regulated kinase pathway, has no influence on cocaine-induced DNA-binding activity of activator protein 1, when examined one hour after an acute cocaine treatment. This phenomenon results from simultaneous decrease of c-Fos protein level and increases in JunB and deltaFosB protein levels. SL327 pre-treatment, however, reduces the DNA-binding activity of the activator protein 1 complex induced six hours after an acute cocaine treatment as well as one hour after the last of the chronic cocaine injections, a phenomenon that results from the concomitant reduction of all cocaine-induced proteins (c-Fos, FosB, deltaFosB, JunB). In conclusion, we have found that extracellular signal-regulated kinase inhibition may not only interfere with cocaine-induced gene expression and activator protein 1 complex activation, but may also disturb the time-course of gene expression and composition of activator protein 1 complex. Our results support the notion that inhibitors of the extracellular signal-regulated kinase pathway could be valuable tools to obliterate cocaine-induced molecular changes and the development of addiction.
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PMID:Regulation of cocaine-induced activator protein 1 transcription factors by the extracellular signal-regulated kinase pathway. 1626 20

While tumors become addicted to oncogenes like Ras, the microenvironment in which tumor cells reside changes during tumorigenesis; the cells are surrounded initially by normal tissue and later by tumor tissue. Hence, we asked if Ras exerts its oncogenic effects through the same set of effectors during different stages of tumorigenesis. We now show in human cells that the Ras effector pathways MAPK, RalGEF, and PI3K are required to initiate tumor growth. Conversely, activation of the PI3K/AKT pathway replaced Ras once tumors formed, although other effectors were still activated independently of Ras, presumably by factors provided upon the establishment of a tumor microenvironment. Thus, as tumorigenesis progresses the addiction of cancers to their initiating oncogene is reduced to, at least in the case of Ras, the PI3K/AKT pathway.
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PMID:Reduction in the requirement of oncogenic Ras signaling to activation of PI3K/AKT pathway during tumor maintenance. 1628 46


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