Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.24 (mitogen-activated protein kinase)
 95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Loss of sleep may result in memory impairment. However, little is known about the biochemical basis for memory deficits induced by sleep deprivation. Extracellular signal-regulated kinase (ERK) is involved in memory consolidation in different tasks. Phosphorylation of ERK is necessary for its activation and is an important step in mediating neuronal responses to synaptic activities. The aim of the present study was to determine the effects of total sleep deprivation (TSD) on memory and ERK phosphorylation in the brain. Rats were trained in Morris water maze to find a hidden platform (a spatial task) or a visible platform (a nonspatial task) after 6 h TSD or spontaneous sleep. TSD had no effect on spatial learning, but significantly impaired spatial memory tested 24 h after training. Nonspatial learning and memory were not impaired by TSD. Phospho-ERK levels in the hippocampus were significantly reduced after 6 h TSD compared to the controls and returned to the control levels after 2 h recovery sleep. Total ERK1 and ERK2 were slightly increased after 6 h TSD and returned to the control levels after 2 h recovery sleep. These alterations were not observed in the cortex after TSD. Protein phosphotase-1 and mitogen-activated protein kinase phosphatase-2, which dephosphorylates phospho-ERK, were also measured, but they were not altered by TSD. The impairments of both spatial memory and ERK phosphorylation indicate that the hippocampus is vulnerable to sleep loss. These results are consistent with the idea that decreased ERK activation in the hippocampus is involved in sleep deprivation-induced spatial memory impairment.
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PMID:Sleep deprivation impairs spatial memory and decreases extracellular signal-regulated kinase phosphorylation in the hippocampus. 1526 3

Adult rats with early-life frequently repetitive febrile seizures (FRFS), but not single febrile seizure (SFS), exhibited impaired performance in inhibitory avoidance tasks but without significant hippocampal neuronal loss. The mechanisms of long-term memory impairment in the hippocampus of adult rats with early-life FRFS remain unknown. Using a heated-air febrile seizures (FS) paradigm, male rat pups were subjected to single or nine episodes of brief FS at days 10 to 12 postpartum. We found that early-life FRFS led to long-term bidirectional modulation in hippocampal synaptic plasticity, i.e., impaired long-term potentiation and facilitated long-term depression. Three hours after inhibitory avoidance training, phosphorylation of hippocampal extracellular signal-regulated kinase (ERK) 1/2 was significantly less in the FRFS group than in controls. Furthermore, there was a selective alteration in NMDA receptor-mediated ERK1/2 phosphorylation in the hippocampus of the FRFS group. Although the expression levels of NMDA receptor subunits and interaction of NMDA receptor and postsynaptic density 95 did not alter quantitatively, there was a specific alteration in NR2A, but not NR2B, subunit tyrosine phosphorylation after NMDA stimulation in the FRFS group. These data offer a potential molecular explanation for the hippocampus-dependent memory deficits observed in the rats with early-life FRFS.
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PMID:Repetitive febrile seizures in rat pups cause long-lasting deficits in synaptic plasticity and NR2A tyrosine phosphorylation. 1575 73

The endocannabinoid system has been suggested to elicit signals that defend against several disease states including excitotoxic brain damage. Besides direct activation with CB1 receptor agonists, cannabinergic signaling can be modulated through inhibition of endocannabinoid transport and fatty acid amide hydrolase (FAAH), two mechanisms of endocannabinoid inactivation. To test whether the transporter and FAAH can be targeted pharmacologically to modulate survival/repair responses, the transport inhibitor N-(4-hydroxyphenyl)-arachidonamide (AM404) and the FAAH inhibitor palmitylsulfonyl fluoride (AM374) were assessed for protection against excitotoxicity in vitro and in vivo. AM374 and AM404 both enhanced mitogen-activated protein kinase (MAPK) activation in cultured hippocampal slices. Interestingly, combining the distinct inhibitors produced additive effects on CB1 signaling and associated neuroprotection. After an excitotoxic insult in the slices, infusing the AM374/AM404 combination protected against cytoskeletal damage and synaptic decline, and the protection was similar to that produced by the stable CB1 agonist AM356 (R-methanandamide). AM374/AM404 and the agonist also elicited cytoskeletal and synaptic protection in vivo when coinjected with excitotoxin into the dorsal hippocampus. Correspondingly, potentiating endocannabinoid responses with the AM374/AM404 combination prevented behavioral alterations and memory impairment that are characteristic of excitotoxic damage. The protective effects mediated by AM374/AM404 were (1) evident 7 d after insult, (2) correlated with the preservation of CB1-linked MAPK signaling, and (3) were blocked by a selective CB1 antagonist. These results indicate that dual modulation of the endocannabinoid system with AM374/AM404 elicits neuroprotection through the CB1 receptor. The transporter and FAAH are modulatory sites that may be exploited to enhance cannabinergic signaling for therapeutic purposes.
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PMID:Dual modulation of endocannabinoid transport and fatty acid amide hydrolase protects against excitotoxicity. 1612 Jul 83

Nobiletin is a nonpeptide compound with a low molecular weight from a citrus fruit and has the activity to rescue bulbectomy-induced memory impairment. Here we describe that nobiletin itself induces neurite outgrowth in PC12D cells, a rat pheochromocytoma cell line, like NGF, and the molecular mechanism of its neurotrophic action. As cultured in the presence of nobiletin or NGF for 48 h and then assayed using a scanning electron microscope, PC12D cells treated with nobiletin showed morphology with flatter and larger cell bodies than the cells cultured with NGF. Nobiletin-induced neurite outgrowth was inhibited by PD98059 and U0126 but not K252a. Consistently, nobiletin caused a concentration-dependent enhancement of Erk/MAP kinase phosphorylation and a sustained increment of phosphorylation of MEK and Erk/MAP kinase, resulting in a stimulation of CREB phosphorylation and CRE-mediated transcription. This compound also increased intracellular cAMP and CRE-mediated transcription in the presence of forskolin and enhanced PKA activity to stimulate phosphorylation of multiple PKA substrates in PC12D cells. Furthermore, nobiletin preferentially inhibited Ca2+/CaM-dependent phosphodiesterase in vitro. This compound failed to stimulate phosphorylation of Erk5, which is known to be induced by NGF/TrkA signaling. These results suggest that nobiletin induces neurite outgrowth by activating a cAMP/PKA/MEK/Erk/MAP kinase-dependent but not TrkA-dependent signaling pathway coupling with CRE-mediated gene transcription and may thus become a novel type of biochemical probe for elucidation of the molecular mechanism of neuronal differentiation.
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PMID:Mechanism of neurotrophic action of nobiletin in PC12D cells. 1622 58

A substantial number of neural stem cells (NSCs) continue to proliferate and generate neurons in the central nervous system throughout life. Ionizing radiation, an important adjuvant therapy for glioma patients, may damage NSCs and cause neuronal deficits, such as cognitive dysfunction and memory impairment. However, the precise mechanism of radiation effects on death and differentiation of NSCs remains largely unknown. Here, we found that radiation induced apoptosis in NSCs via the mitochondrial pathway, upregulating the ratio of Bax to Bcl-2 and releasing cytochrome c into the cytoplasm. Radiation also inhibited neuronal differentiation of NSCs by 50%. Of the three stress-associated mitogen-activated protein kinases (MAPKs), only c-Jun NH(2)-terminal kinase (JNK) was activated in NSCs after radiation. Interestingly, JNK inhibition by the specific inhibitor SP600125 rescued NSCs from apoptosis and improved neuronal differentiation. Furthermore, we examined whether radiation directly inhibits neuronal differentiation or not. Radiation did not affect the promoter activity of NeuroD, a basic helix-loop-helix transcription factor that regulates the expression of neuronal differentiation markers. Radiation induced more apoptosis in NeuroD-positive cells than NeuroD-negative cells. We concluded that radiation activates JNK and induces apoptosis, especially in neural progenitor cells, resulting in the inhibition of neurogenesis. Our findings raise the possibility that JNK inhibition has therapeutic potential in protecting NSCs from the adverse effects of radiation.
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PMID:Ionizing radiation induces apoptosis and inhibits neuronal differentiation in rat neural stem cells via the c-Jun NH2-terminal kinase (JNK) pathway. 1649 Nov 25

Fear conditioning is a popular model for investigating physiological and cellular mechanisms of memory formation. In this paradigm, a footshock is either systematically associated to a tone (paired conditioning) or is pseudorandomly distributed (unpaired conditioning). In the former procedure, the tone/shock association is acquired, whereas in the latter procedure, the context/shock association will prevail. Animals with chronically implanted recording electrodes show enhanced amplitude of the extracellularly recorded field EPSP in CA1 pyramidal cells for up to 24 h after unpaired, but not paired, fear conditioning. This is paralleled by a differential activation of the ERK/CREB pathway in CA1, which is monophasic in paired conditioning (0-15 min post-conditioning), but biphasic (0-1 h and 9-12 h post-conditioning) in unpaired conditioning as revealed by immunocytochemistry and Western blotting. Intrahippocampal injection of the MEK inhibitor U0126 prior to each phase prevents the activation of both ERK1/2 and CREB after unpaired conditioning. Block of any activation phase leads to memory impairment. We finally reveal that the biphasic activation of ERK/CREB activity is independently regulated, yet both phases are critically required for the consolidation of long-term memories following unpaired fear conditioning. These data provide compelling evidence that CA1 serves different forms of memory by expressing differential cellular mechanisms that are dependent on the training regime.
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PMID:Foreground contextual fear memory consolidation requires two independent phases of hippocampal ERK/CREB activation. 1670 40

Although the gastrin-releasing peptide-preferring bombesin receptor (GRPR) has been implicated in memory formation, the underlying molecular events are poorly understood. In the present study, we examined interactions between the GRPR and cellular signaling pathways in influencing memory consolidation in the hippocampus. Male Wistar rats received bilateral infusions of bombesin (BB) into the dorsal hippocampus immediately after inhibitory avoidance (IA) training. Intermediate doses of BB enhanced, whereas a higher dose impaired, 24-h IA memory retention. The BB-induced memory enhancement was prevented by pretraining infusions of a GRPR antagonist or inhibitors of protein kinase C (PKC), mitogen-activated protein kinase (MAPK) kinase and protein kinase A (PKA), but not by a neuromedin B receptor (NMBR) antagonist. We next further investigated the interactions between the GRPR and the PKA pathway. BB-induced enhancement of consolidation was potentiated by coinfusion of activators of the dopamine D1/D5 receptor (D1R)/cAMP/PKA pathway and prevented by a PKA inhibitor. We conclude that memory modulation by hippocampal GRPRs is mediated by the PKC, MAPK, and PKA pathways. Furthermore, pretraining infusion of BB prevented beta-amyloid peptide (25-35)-induced memory impairment, supporting the view that the GRPR is a target for the development of cognitive enhancers for dementia.
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PMID:Molecular mechanisms mediating gastrin-releasing peptide receptor modulation of memory consolidation in the hippocampus. 1673 43

The effect of ZSET1446 (spiro[imidazo[1,2-a]pyridine-3,2-indan]-2(3H)-one) on cognitive impairment in mice, previously treated with methamphetamine (METH) at a dose of 1 mg/kg for 7 days, was investigated. ZSET1446 showed a significant ameliorating effect on METH-induced impairment of recognition memory, although it had no effect on exploratory behavior. ZSET1446 (1 microg/kg) recovered the defect of the novelty-induced activation of extracellular signal-regulated kinase 1/2 (ERK1/2) in the prefrontal cortex (PFC) of METH-treated mice. The compound increased phosphorylated ERK1/2 levels in the hippocampus but not PFC of naive mice without affecting the total ERK1/2 levels. The ameliorating effect of ZSET1446 on recognition memory in METH-treated mice was negated by pretreatment with a mitogen-activated protein kinase/extracellular signal-regulated kinase kinase inhibitor, SL327 (alpha-[amino-(4-aminophenylthio)methylene]-2-(trifluoromethyl)phenylacetonitrile). Furthermore, the dopamine D1 receptor antagonist, SCH23390 [R-(+)-7-chloro-8-hydroxy-3-methyl-1-phenyl-2,3,4,5-tetrahydro-1H-3-benzazepine], and N-methyl-D-aspartate (NMDA) receptor antagonist, MK-801 [5H-dibenzo[a,d]cyclohepten-5,10-imine (dizocilpine maleate)], blocked the ameliorating effect of ZSET1446 on METH-induced memory impairment, whereas the D2 receptor antagonist, raclopride, had no effect. These results suggest that the ameliorative effect of ZSET1446 on METH-induced memory impairment is associated with indirect activation of ERK1/2 following stimulation with dopamine D1 and NMDA receptors of the PFC. ZSET1446 would be a potential candidate for further preclinical study aimed at the treatment of cognitive deficits in Alzheimer's disease and schizophrenia, as well as METH psychosis.
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PMID:A novel azaindolizinone derivative ZSET1446 (spiro[imidazo[1,2-a]pyridine-3,2-indan]-2(3H)-one) improves methamphetamine-induced impairment of recognition memory in mice by activating extracellular signal-regulated kinase 1/2. 1709 Jul 2

Amyloid beta peptide (Abeta) is considered one of the main agents of Alzheimer's disease pathogenesis. Recently, it has been proposed that memory deficits are caused by different stages of Abeta aggregation, particularly by oligomers. In addition, although memory impairment was found after Abeta administration in rodents and chicks, the nature of the memory deficits induced in invertebrates by acute administration of mammalian Abeta peptides is not well understood. Previously, we reported the amnesic effect of acute pre-training administration of naturally formed fibrils (NF) in crab memory. Here we evaluate the effect of NF and synthetic Abeta peptides administration at different times before and after training in this well characterized invertebrate memory model, the context-signal memory of the crab Chasmagnathus. We found a clear amnesic effect at very low doses of naturally Abeta NF only when administered immediately pre- and post-training, but not 24 h and 18 h before or 6h after training. Activation of ERK/MAPK (a protein kinase required for memory formation in this model) 60 min after administration was found. In contrast, neither JNK/SAPK nor NF-kappaB transcription factor were activated. Furthermore, synthetic Abeta1-42 and Abetapy3-42 administration induced amnesia when used after a protocol for fibrillation but not after a protocol for oligomerization. On the contrary, no amnestic effect was found when fibrillated Abeta1-40 and Abetapy11-42 peptides were used. Thus, Abeta1-42 and Abetapy3-42 peptides impaired memory and the effects were only found when highly aggregated peptides, which may include fibrils, protofibrils and oligomers, were administered. These temporally- and signaling-specific effects suggest that Abeta impairs memory by inducing transient physiological, rather than permanent neuropathological, alterations of the brain and this effect is achieved through generalized ERK activation.
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PMID:Effect on memory of acute administration of naturally secreted fibrils and synthetic amyloid-beta peptides in an invertebrate model. 1792 Mar 4

Nobiletin isolated from citrus peels prevents bulbectomy- and amyloid-beta protein-induced memory impairment in rodents. In the present study, using combined methods of biochemistry and electrophysiology, we examined the effects of nobiletin on phosphorylation of GluR1 receptor, the subunit of alpha-amino-3-hydroxy-5-methyl-D-aspartate (AMPA) receptors, and the receptor-mediated synaptic transmission in the hippocampus, a region implicated in memory formation, in culture and/or in slices. Western blot analysis showed that nobiletin-stimulated phosphorylation of multiple protein kinase A (PKA) substrates at 10 min following the treatment in cultured hippocampal neurons. In the cultured neurons, this natural compound also increased not only PKA activity, but also phosphorylation of GluR1 receptor at a PKA phosphorylation site, Ser 845, which has been demonstrated to be critical for synaptic plasticity, including enhancement of postsynaptic glutamate response, and important for spatial memory in vivo. The increased phosphorylation of GluR1 receptor at Ser 845 was abolished by H89 (N-(2-[p-bromocinnamylamino]ethyl)-5-isoquinolinesulfonamide hydrochloride), the PKA inhibitor, but not U0126 (1,4-diamino-2,3-dicyano-1,4-bis (2-aminophenylthio) butadiene), the mitogen-activated protein kinase/ERK kinase (MEK) inhibitor, in the cultured neurons. An increment of the phosphorylation of GluR1 receptor at Ser 845 was induced by nobiletin in the hippocampal slices as well. Furthermore, our electrophysiological analysis showed that nobiletin potentiated the AMPA receptor-mediated synaptic transmission at Schaffer collateral-CA1 pyramidal cell synapses in the hippocampal slices. This potentiation induced by the natural compound was not accompanied by the changes in paired-pulse ratio, and partially occluded the long-term potentiation, indicating the possible involvement of the postsynaptic mechanism. These findings suggest that nobiletin probably up-regulates synaptic transmission via the postsynaptic AMPA receptors at least partially by stimulation of PKA-mediated phosphorylation of GluR1 receptor in the hippocampus.
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PMID:Nobiletin, a citrus flavonoid with neurotrophic action, augments protein kinase A-mediated phosphorylation of the AMPA receptor subunit, GluR1, and the postsynaptic receptor response to glutamate in murine hippocampus. 1797 77


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