9 documentos corresponden a la consulta.
Palabras contadas: hippocampus: 30
Ballarini, F. - Moncada, D. - Martinez, M.C. - Alen, N. - Viola, H.
Proc. Natl. Acad. Sci. U. S. A. 2009;106(34):14599-14604
2009
Temas: Hippocampus - Insular cortex - Memory consolidation - Novelty - Protein synthesis - animal experiment - article - behavior - conditioned reflex - conditioning
Descripción: In daily life, memories are intertwined events. Little is known about the mechanisms involved in their interactions. Using two hippocampus-dependent (spatial object recognition and contextual fear conditioning) and one hippocampus-independent (conditioned taste aversion) learning tasks, we show that in rats subjected to weak training protocols that induce solely short term memory (STM), long term memory (LTM) is promoted and formed only if training sessions took place in contingence with a novel, but not familiar, experience occurring during a critical time window around training. This process requires newly synthesized proteins induced by novelty and reveals a general mechanism of LTM formation that begins with the setting of a "learning tag" established by a weak training. These findings represent the first comprehensive set of evidences indicating the existence of a behavioral tagging process that in analogy to the synaptic tagging and capture process, need the creation of a transient, protein synthesis-independent, and input specific tag.
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Boccia, M. - Freudenthal, R. - Blake, M. - De La Fuente, V. - Acosta, G. - Baratti, C. - Romano, A.
J. Neurosci. 2007;27(49):13436-13445
2007
Temas: κB decoy - Hippocampus - Inhibitory avoidance - NF-κB - Reconsolidation - Sulfasalazine - double stranded DNA - immunoglobulin enhancer binding protein - salazosulfapyridine - animal experiment
Descripción: Initially, memory is labile and requires consolidation to become stable. However, several studies support that consolidated memories can undergo a new period of lability after retrieval. The mechanistic differences of this process, termed reconsolidation, with the consolidation process are under debate, including the participation of hippocampus. Up to this point, few reports describe molecular changes and, in particular, transcription factor (TF) involvement in memory restabilization. Increasing evidence supports the participation of the TF nuclear factor-κB (NF-κB) in memory consolidation. Here, we demonstrate that the inhibition of NF-κB after memory reactivation impairs retention of a hippocampal-dependent inhibitory avoidance task in mice. We used two independent disruptive strategies to reach this conclusion. First, we administered intracerebroventricular or intrahippocampal sulfasalazine, an inhibitor of IKK (IκB kinase), the kinase that activates NF-κB. Second, we infused intracerebroventricular or intrahippocampal κB decoy, a direct inhibitor of NF-κB consisting of a double-stranded DNA oligonucleotide that contains the κB consensus sequence. When injected immediately after memory retrieval, sulfasalazine or κB decoy (Decoy) impaired long-term retention. In contrast, a one base mutated κB decoy (mDecoy) had no effect. Furthermore, we also found NF-κB activation in the hippocampus, with a peak 15 min after memory retrieval. This activation was earlier than that found during consolidation. Together, these results indicate that NF-κB is an important transcriptional regulator in memory consolidation and reconsolidation in hippocampus, although the temporal kinetics of activation differs between the two processes. Copyright © 2007 Society for Neuroscience.
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Moncada, D. - Viola, H.
J. Neurosci. 2007;27(28):7476-7481
2007
Temas: Behavioral tag - Hippocampus - Inhibitory avoidance - Long-term memory - Rats - Spatial novelty - 8 chloro 2,3,4,5 tetrahydro 3 methyl 5 phenyl 1h 3 benzazepin 7 ol hydrogen maleate - anisomycin - dopamine 1 receptor - dopamine 5 receptor
Descripción: A behavioral analog of the synaptic tagging and capture process, a key property of synaptic plasticity, has been predicted recently. Here, we demonstrate that weak inhibitory avoidance training, which induces short- but not long-term memory (LTM), can be consolidated into LTM by an exploration to a novel, but not a familiar, environment occurring close in time to the training session. This memorypromoting effect caused by novelty depends on activation of dopamine D1/D5 receptors and requires newly synthesized proteins in the dorsal hippocampus. Thus, our results indicate the existence of a behavioral tagging process in which the exploration to a novel environment provides the plasticity-related proteins to stabilize the inhibitory avoidance memory trace. Copyright © 2007 Society for Neuroscience.
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Moncada, D. - Viola, H.
Learn. Mem. 2008;15(11):810-814
2008
Temas: protein inhibitor - protein kinase - protein kinase m zeta - unclassified drug - zeta interacting protein - enzyme inhibitor - peptide - protein kinase C - protein kinase M zeta, rat - animal experiment
Descripción: Spatial familiarization consists of a decrease in the exploratory activity over time after exposure to a place. Here, we show that a 30-min exposure to an open field led to a pronounced decrease in the exploratory behavior of rats, generating context familiarity. This behavioral output is associated with a selective decrease in hippocampal PKMζ levels. A short 5-min exposure did not induce spatial familiarity or a decrease in PKMζ, while inactivation of hippocampal PKMζ by the specific inhibitor ZIP was sufficient to induce spatial familiarity, suggesting that the decrease in PKMζ is involved in setting a given context as a familiar place. © 2008 Cold Spring Harbor Laboratory Press.
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Gómez Ravetti, M. - Rosso, O.A. - Berretta, R. - Moscato, P.
PLoS ONE 2010;5(4)
2010
Temas: biological marker - calcium - early growth response factor - epidermal growth factor receptor - insulin - Myc associated zinc finger protein - phosphatidylinositol - transcription factor - transcription factor E2F1 - unclassified drug
Descripción: Background: Alzheimer's disease (AD) is characterized by a neurodegenerative progression that alters cognition. On a phenotypical level, cognition is evaluated by means of the MiniMental State Examination (MMSE) and the post-morten examination of Neurofibrillary Tangle count (NFT) helps to confirm an AD diagnostic. The MMSE evaluates different aspects of cognition including orientation, short-term memory (retention and recall), attention and language. As there is a normal cognitive decline with aging, and death is the final state on which NFT can be counted, the identification of brain gene expression biomarkers from these phenotypical measures has been elusive. Methodology/Principal Findings: We have reanalysed a microarray dataset contributed in 2004 by Blalock et al. of 31 samples corresponding to hippocampus gene expression from 22 AD subjects of varying degree of severity and 9 controls. Instead of only relying on correlations of gene expression with the associated MMSE and NFT measures, and by using modern bioinformatics methods based on information theory and combinatorial optimization, we uncovered a 1,372-probe gene expression signature that presents a high-consensus with established markers of progression in AD. The signature reveals alterations in calcium, insulin, phosphatidylinositol and wnt-signalling. Among the most correlated gene probes with AD severity we found those linked to synaptic function, neurofilament bundle assembly and neuronal plasticity. Conclusions/Significance: A transcription factors analysis of 1,372-probe signature reveals significant associations with the EGR/KROX family of proteins, MAZ, and E2F1. The gene homologous of EGR1, zif268, Egr-1 or Zenk, together with other members of the EGR family, are consolidating a key role in the neuronal plasticity in the brain. These results indicate a degree of commonality between putative genes involved in AD and prion-induced neurodegenerative processes that warrants further investigation. © 2010 Go ́mez Ravetti et al.
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Quintá, H.R. - Maschi, D. - Gomez-Sanchez, C. - Piwien-Pilipuk, G. - Galigniana, M.D.
J. Neurochem. 2010;115(3):716-734
2010
Temas: Chaperones - FKBP - Hippocampus - P23 - Tau - Tetratricopeptide proteins - beta tubulin - beta3 tubulin - fk 506 binding protein - fk 506 binding protein 51
Descripción: FKBP51 and FKBP52 (FK506-binding protein 51 and 52) are tetratricopeptide repeat-domain immunophilins belonging to the tetratricopeptide- protein•hsp90•hsp70•p23 heterocomplex bound to steroid receptors. Immunophilins are related to receptor folding, subcellular localization, and hormonedependent transcription. Also, they bind the immunosuppressant macrolide FK506, which shows neuroregenerative and neuroprotective actions by a still unknown mechanism. In this study, we demonstrate that in both, undifferentiated neuroblastoma cells and embryonic hippocampal neurons, the FKBP52• hsp90•p23 heterocomplex concentrates in a perinuclear structure. Upon cell stimulation with FK506, this structure disassembles and this perinuclear area becomes transcriptionally active. The acquisition of a neuronal phenotype is accompanied by increased expression of bIII-tubulin, Map-2, Tau-1, but also hsp90, hsp70, p23, and FKBP52. During the early differentiation steps, the perinuclear heterocomplex redistributes along the cytoplasm and nascent neurites, p23 binds to intermediate filaments and microtubules acquired higher filamentary organization. While FKBP52 moves towards neurites and concentrates in arborization bodies and terminal axons, FKBP51, whose expression remains constant, replaces FKBP52 in the perinuclear structure. Importantly, neurite outgrowth is favored by FKBP52 over-expression or FKBP51 knock-down, and is impaired by FKBP52 knock-down or FKBP51 over-expression, indicating that the balance between these FK506-binding proteins plays a key role during the early mechanism of neuronal differentiation. © 2010 The Authors.
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Gomez-Sanchez, C.E. - Zhou, M.Y. - Cozza, E.N. - Morita, H. - Foecking, M.F. - Gomez-Sanchez, E.P.
ENDOCRINOLOGY 1997;138(8):3369-3373
1997
Temas: 18 hydroxydeoxycorticosterone - aldosterone - corticosterone - messenger RNA - synthetase - amygdaloid nucleus - animal tissue - article - brain - cerebellum
Descripción: Messenger RNA (mRNA) for enzymes involved in adrenal steroid biosynthesis are expressed in the brain, and the coded enzymes have been shown to be active. The expression of mRNA for the cytochrome P-450 enzyme aldosterone synthase, crucial for the final step in the synthesis of aldosterone and the synthesis of aldosterone was studied in several anatomic areas of the rat brain. Expression of the mRNA for the aldosterone synthase was demonstrated by RT-PCR/Southern blot in adrenal, aorta, hypothalamus, hippocampus, amygdala, cerebrum, and cerebellum. Incubation of brain minces from intact and adrenalectomized rats demonstrated the synthesis of corticosterone and aldosterone from endogenous precursors. Incubations of brain mince, with [1,23H]-deoxycorticosterone, followed by extraction and three different successive TLCs, demonstrated the presence of labeled aldosterone, corticosterone, and 18-hydroxy-deoxycorticosterone. Incubation, in the presence of 10 μM cortisol or metyrapone, inhibited the synthesis of aldosterone or both aldosterone and corticosterone, respectively. These studies indicate that the rat brain has the enzymatic machinery for the synthesis of adrenal corticosteroids and is capable of synthesizing aldosterone. Aldosterone synthesized in the brain might play a paracrine role in the regulation of blood pressure.
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Bonfiglio, J.J. - Inda, C. - Senin, S. - Maccarrone, G. - Refojo, D. - Giacomini, D. - Turck, C.W. - Holsboer, F. - Arzt, E. - Silberstein, S.
Mol. Endocrinol. 2013;27(3):491-510
2013
Temas: B Raf kinase - beta arrestin 2 - calcium - calcium calmodulin dependent protein kinase II - corticotropin releasing factor - corticotropin releasing factor receptor 1 - cyclic AMP - cyclic AMP dependent protein kinase - dynamin - mitogen activated protein kinase 1
Descripción: CRH is a key regulator of neuroendocrine, autonomic, and behavioral response to stress. CRHstimulated CRH receptor 1 (CRHR1) activates ERK1/2 depending on intracellular context. In a previous work, we demonstrated that CRH activates ERK1/2 in limbic areas of the mouse brain (hippocampus and basolateral amygdala). ERK1/2 is an essential mediator of hippocampal physiological processes including emotional behavior, synaptic plasticity, learning, and memory. To elucidate the molecular mechanisms by which CRH activates ERK1/2 in hippocampal neurons, we used the mouse hippocampal cell line HT22. We document for the first time that ERK1/2 activation in response to CRH is biphasic, involving a first cAMP- and B-Raf-dependent early phase and a second phase that critically depends on CRHR1 internalization and β-arrestin2. By means of mass-spectrometry-based screening, we identified B-Raf-associated proteins that coimmunoprecipitate with endogenous B-Raf after CRHR1 activation. Using molecular and pharmacological tools, the functional impact of selected B-Raf partners in CRH-dependent ERK1/2 activation was dissected. These results indicate that 14-3-3 proteins, protein kinase A, and Rap1, are essential for early CRH-induced ERK1/2 activation, whereas dynamin and vimentin are required for the CRHR1 internalization-dependent phase. Both phases of ERK1/2 activation depend on calcium influx and are affected by calcium/calmodulin-dependent protein kinase II inactivation. Thus, this report describes the dynamics and biphasic nature of ERK1/2 activation downstream neuronal CRHR1 and identifies several new critical components of the CRHR1 signaling machinery that selectively controls the early and late phases of ERK1/2 activation, thus providing new potential therapeutic targets for stress-related disorders. © 2013 by The Endocrine Society.
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de la Fuente, V. - Freudenthal, R. - Romano, A.
J. Neurosci. 2011;31(15):5562-5573
2011
Temas: calcineurin - immunoglobulin enhancer binding protein - transcription factor NFAT - amino acid sequence - animal experiment - animal tissue - article - controlled study - DNA determination - enzyme inhibition
Descripción: In fear conditioning, aversive stimuli are readily associated with contextual features. A brief reexposure to the training context causes fear memory reconsolidation, whereas a prolonged re exposure induces memory extinction. The regulation of hippocampal gene expression plays akey role in contextual memory consolidation and reconsolidation. However, the mechanisms that determine whether memory will reconsolidate or extinguish are not known. Here, we demonstrate opposing roles for two evolutionarily related transcription factors in the mouse hippocampus. We found that nuclear factor-KB (NF-kB) is required for fear memory reconsolidation. Conversely, calcineurin phosphatase inhibited NF-kB and induced nuclear factor of activated T-cells (NFAT) nuclear translocation in the transition between reconsolidation and extinction. Accordingly, the hippocampal inhibition of both calcineurin and NFAT independently impaired memory extinction, whereas inhibition of NF-kB enhanced memory extinction. These findings represent the first insight into the molecular mechanisms that determine memory reprocessing after retrieval, supporting a transcriptional switch that directs memory toward reconsolidation or extinction. The precise molecular characterization of postretrieval processes has potential importance to the development of therapeutic strategies for fear memory disorders. © 2011 the authors.
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