Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011570 (depression)
 172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Levels of mRNA for c-fos, nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF), neurotrophin-3 (NT-3), TrkB, and TrkC were studied using in situ hybridization in the rat brain at different reperfusion times after unilateral middle cerebral artery occlusion (MCAO). Short-term (15 min) MCAO, which does not cause neuronal death, induced elevated BDNF mRNA expression confined to ipsilateral frontal and cingulate cortices outside the ischemic area. With a longer duration of MCAO (2 h), which leads to cortical infarction, the increase was more marked and elevated BDNF mRNA levels were also detected bilaterally in dentate granule cells and CA1 and CA3 pyramidal neurons. Maximum expression was found after 2 h of reperfusion. At 24 h BDNF mRNA expression had returned to control values. In the ischemic core of the parietal cortex only scattered neurons were expressing high levels of BDNF mRNA after 15 min and 2 h of MCAO. Analysis of different BDNF transcripts showed that MCAO induced a marked increase of exon III mRNA but only small increases of exon I and II mRNAs in cortex and hippocampus. In contrast to BDNF mRNA, elevated expression of c-fos mRNA was observed in the entire ipsilateral cerebral cortex, including the ischemic core, after both 15 min and 2 h of MCAO. Two hours of MCAO also induced transient, bilateral increases of NGF and TrkB mRNA levels and a decrease of NT-3 mRNA expression, confined to dentate granule cells. The upregulation of BDNF mRNA expression in cortical neurons after MCAO is probably triggered by glutamate through a spreading depression-like mechanism. The lack of response of the BDNF gene in the ischemic core may be due to suppression of signal transduction or transcription factor synthesis caused by the ischemia. The observed pattern of gene expression after MCAO agrees well with a neuroprotective role of BDNF in cortical neurons. However, elevated levels of NGF and BDNF protein could also increase synaptic efficacy in the postischemic phase, which may promote epileptogenesis.
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PMID:Regulation of brain-derived neurotrophic factor gene expression after transient middle cerebral artery occlusion with and without brain damage. 758 36

The structure of rat brain-derived neurotrophic factor (BDNF) gene is complex; four 5' exons are linked to separate promoters and one 3' exon is encoding the BDNF protein. To analyze the relative importance of the regulatory regions in vivo, we have generated transgenic mice with six different promoter constructs of the BDNF gene fused to the chloramphenicol acetyl transferase reporter gene. High level and neuronal expression of the reporter gene, that in many respects recapitulated BDNF gene expression, was achieved by using 9 kb of genomic sequences covering the promoter regions that lie adjacent to each other in the genome (promoters I and II and promoters III and IV, respectively) and by including sequences of BDNF intron-exon splice junctions and 3' untranslated region in the constructs. The genomic regions responsible for the in vivo upregulation of BDNF expression in the axotomized sciatic nerve and in the brain after kainic acid-induced seizures and KCl-induced spreading depression were mapped. These data show that regulation of the different aspects of BDNF expression is controlled by different regions in vivo, and they suggest that these promoter constructs may be useful for targeted expression of heterologous genes to specific regions of the central and peripheral nervous systems in an inducible manner.
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PMID:Identification of brain-derived neurotrophic factor promoter regions mediating tissue-specific, axotomy-, and neuronal activity-induced expression in transgenic mice. 782 14

This study was aimed at clarifying the role of metabotropic glutamate receptors (mGluRs) in the regulation of intracellular Ca2+ concentration ([Ca2+]i in postnatal mouse retinal ganglion neurons (RGNs). RGNs were maintained for 1-2 weeks in vitro by adding brain-derived neurotrophic factor (BDNF) and basic fibroblast growth factor (bFGF) to the culture medium. In order to select these cells for electrophysiological measurements, RGNs were vitally labelled with an antibody against Thy-1.2. Voltage-activated Ca2+ currents [ICa(V)] were recorded with patch electrodes in the whole-cell configuration. It was found that racemic +/--1-amino-cyclopentane-trans-1,3-dicarboxylic acid (t-ACPD) or its active enantiomer 1S,3R-ACPD rapidly and reversibly either enhanced or depressed ICa(V). Quisqualate (QA), L-2-amino-4-phosphonobutyrate (L-AP4) and the endogenous transmitter glutamate induced similar effects when ionotropic glutamate receptors were blocked with D-2-amino-5-phosphonovalerate (D-APV) and 6,7-dinitroquinoxaline-2,3-dione (DNQX). omega-Conotoxin GVIA (omega-CgTx GVIA), but not nifedipine prevented modulation of ICa(V) by mGluR agonists. The depression of ICa(V) by t-ACPD was irreversible when cells were dialysed with guanosine-5'-O-(3-thiotriphosphate) (GTP[gamma-S]). Ratio measurements of fura-2 fluorescence in Thy-1+ cells showed that neither t-ACPD, QA nor L-AP4 affected [Ca2+]i by liberation of Ca2+ from intracellular stores. Our results suggest that cultured RGNs express mGluRs. These receptors cannot induce Ca2+ release from intracellular stores but regulate [Ca2+]i by a fast and reversible, G-protein-mediated action on a subpopulation of voltage-activated Ca2+ channels.
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PMID:Potentiating and depressant effects of metabotropic glutamate receptor agonists on high-voltage-activated calcium currents in cultured retinal ganglion neurons from postnatal mice. 790 28

Levels of mRNA for nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF), neurotrophin-3 (NT-3) and the tyrosine kinase receptors trkB and trkC have been studied using in situ hybridization in the rat brain after topical application of KCl to the cortical surface (which induces spreading depression). Repeated episodes of spreading depression during 2 h caused a rapid and marked increase of BDNF mRNA levels in deep and, in particular, superficial cortical layers of the ipsilateral hemisphere (to 213 and 417% of control, respectively). Maximal levels were reached within 2 h after the cessation of spreading depression and at 24 h BDNF mRNA expression had returned to control values. Levels of BDNF mRNA were unaffected in the hippocampus, in areas outside the cerebral cortex and in the contralateral hemisphere. Furthermore, no change of the expression of mRNA for NGF, NT-3, trkC or the full length trkB receptor was detected at any time point. However, at 2 h after spreading depression there was an increased level (150% of control) in superficial cortical layers of mRNA hybridizing to an oligonucleotide probe detecting both truncated receptors lacking the tyrosine kinase domain and full length trkB receptors. Also one single episode of spreading depression gave rise to a significant increase of cortical BDNF mRNA levels (to 207% of control), which was attenuated (by 61%) after administration of the competitive NMDA receptor antagonist CGS 19755. The results provide evidence that mild brain insults associated with glutamate release and elevated intracellular calcium, such as spreading depression, also in the absence of seizure activity can lead to activation of the BDNF gene in cortical neurons.
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PMID:Rapid increase of BDNF mRNA levels in cortical neurons following spreading depression: regulation by glutamatergic mechanisms independent of seizure activity. 823 31

Changes in neurotrophic factor expression in the brain are part of the stress response. Decreased BDNF may contribute to hippocampal damage that occurs during chronic stress or aging. Stress-induced increases in NT-3 may be important for neural plasticity and adaptation or sensitization to repeated stress. Stress-induced changes in neurotrophic factors may be particularly relevant to the cognitive changes that occur in recurrent depression, aging, and posttraumatic stress disorder.
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PMID:Effects of stress on neurotrophic factor expression in the rat brain. 859 2

Extracellular application of brain-derived neurotrophic factor (BDNF) and ciliary neurotrophic factor (CNTF) to developing neuromuscular junctions in Xenopus nerve-muscle cultures resulted in an increase in the frequency of spontaneous synaptic currents (SSCs) and in the amplitude of nerve-evoked synaptic currents. Analyses of the amplitude and time course of the SSCs suggest that these effects are attributable to elevation of presynaptic transmitter release. The actions of these two factors on the transmitter secretion process, however, are distinctly different. Fura-2 Ca2+ imaging showed that an increase in presynaptic cytosolic Ca2+ ([Ca2+]i) accompanied the synaptic potentiation by BDNF, whereas no change in [Ca2+]i was observed during synaptic potentiation by CNTF. Removing external Ca2+ also abolished the potentiating effect of BDNF but did not influence the CNTF effect. Moreover, the two factors exerted different effects on the short-term synaptic plasticity. Paired-pulse facilitation normally found at these synapses was reduced by BDNF but unaffected by CNTF; CNTF, but not BDNF, reduced the extent of synaptic depression during high-frequency tetanic stimulation. Finally, the potentiation effect of BDNF and CNTF on spontaneous transmitter release was additive when both factors were applied together to the synapse at saturating concentrations (100 ng/ml) and was highly synergistic when low doses (1 and 10 ng/ml) of both factors were used. These results suggest that because of their differential effects on the secretory machinery, BDNF and CNTF may act cooperatively in modulating the development and functioning of synapses.
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PMID:Synaptic modulation by neurotrophic factors: differential and synergistic effects of brain-derived neurotrophic factor and ciliary neurotrophic factor. 862 63

This article summarizes recent studies from the long-term potentiation (LTP), long-term depression (LTD), and behavioral learning literature, indicating that immediate-early genes (IEGs) may play an important role in learning and memory. The LTP studies suggest that synaptic modifications occurring during NMDA-receptor-mediated hippocampal LTP and LTD are stabilized by the protein products of the krox family of IEGs (as well as by brain-derived neurotrophic factor, BDNF). Activation of muscarinic receptors also induces members of the krox as well as the fos and jun family (jun-B but not c-jun) IEGs in hippocampal neurons and this action may be involved in the facilitatory effects of muscarinic receptor activation on both hippocampal LTP and learning. The possible role of IEGs in the learning-enhancing effects of cholinergically mediated hippocampal theta is also discussed. Finally, I review a number of recent studies showing IEG expression in brain neurons after behavioral learning. Together these results suggest some role for select IEGs (e.g., Krox 24) in learning and memory, although definitive studies using antisense DNA technology are required to establish any causal links. In particular, IEGs may be critical components of the signal transduction cascade that links NMDA and muscarinic receptors to the neuronal genome and ultimately to the generation of permanent modifications in neuronal biochemistry that provides the substrate for learning.
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PMID:A role for immediate-early transcription factors in learning and memory. 875 52

Previous studies have shown that infusion of brain-derived neurotrophic factor (BDNF) into the midbrain, near the PAG and dorsal/median raphe nuclei, produced analgesia and increased activity in monoaminergic systems. Alterations in monoaminergic activity have also been implicated in the pathogenesis and treatment of depression. The present studies examined the ability of centrally administered BDNF to produce antidepressant-like activity in two animal models of depression, learned helplessness following exposure to inescapable shock and the forced swim test. In the learned helplessness paradigm, vehicle-infused rats pre-exposed to inescapable shock (veh/shock) showed severe impairments in escape behavior during subsequent conditioned avoidance trials, including a 47% decrease in the number of escapes and a 5 fold increase in escape latency, as compared to vehicle-infused rats which received no pre-shock treatment (veh/no shock). Midbrain BDNF infusion (12-24 micrograms/day) reversed these deficits, and in fact, BDNF-infused rats pre-exposed to inescapable shock (BDNF/shock) showed escape latencies similar to veh/no shock and BDNF/no shock rats. In the forced swim test, BDNF infusion decreased the immobility time by 70% as compared to vehicle-infused controls. Non-specific increases in activity could not account for these effects since general locomotor activity of BDNF- and vehicle-infused animals was not different. These findings demonstrate an antidepressant-like property of BDNF in two animal models of depression, which may be mediated by increased activity in monoaminergic systems.
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PMID:Antidepressant-like effect of brain-derived neurotrophic factor (BDNF). 898 20

Recent studies have begun to characterize the actions of stress and antidepressant treatments beyond the neurotransmitter and receptor level. This work has demonstrated that long-term antidepressant treatments result in the sustained activation of the cyclic adenosine 3',5'-monophosphate system in specific brain regions, including the increased function and expression of the transcription factor cyclic adenosine monophosphate response element-binding protein. The activated cyclic adenosine 3',5'-monophosphate system leads to the regulation of specific target genes, including the increased expression of brain-derived neurotrophic factor in certain populations of neurons in the hippocampus and cerebral cortex. The importance of these changes is highlighted by the discovery that stress can decrease the expression of brain-derived neurotrophic factor and lead to atrophy of these same populations of stress-vulnerable hippocampal neurons. The possibility that the decreased size and impaired function of these neurons may be involved in depression is supported by recent clinical imaging studies, which demonstrate a decreased volume of certain brain structures. These findings constitute the framework for an updated molecular and cellular hypothesis of depression, which posits that stress-induced vulnerability and the therapeutic action of antidepressant treatments occur via intracellular mechanisms that decrease or increase, respectively, neurotrophic factors necessary for the survival and function of particular neurons. This hypothesis also explains how stress and other types of neuronal insult can lead to depression in vulnerable individuals and it outlines novel targets for the rational design of fundamentally new therapeutic agents.
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PMID:A molecular and cellular theory of depression. 923 44

Cortical spreading depression (CSD) protects hippocampal and cortical neurons from an otherwise lethal ischemic insult delivered days later. The present study was undertaken to evaluate changes in the expression of BDNF following CSD, distinct from lesion effects and its possible involvement in delayed ischemic tolerance. CSD was elicited by KCl application and a cortical lesion was made by hyperosmolar NaCl application. BDNF mRNA was examined by in situ hybridization and Northern blot up to 7 days post-CSD. BDNF protein content was measured by ELISA. In the cortex, BDNF protein was mildly elevated despite minimal increases of mRNA in the NaCl lesion group. CSD specifically up-regulated BDNF mRNA at 4 h, followed by a delayed secondary increase at 2-3 days. BDNF protein exhibited smaller biphasic increases at 24 h and 3-7 days post-CSD which were significantly higher than the NaCl lesion group. In the hippocampus, BDNF protein levels showed a delayed decrease in both groups independent of mRNA changes, but CSD specifically delayed this decrease. Thus, CSD can alter BDNF levels independent of lesion effects. The increased BDNF following CSD in the cortex is consistent with the involvement of BDNF in cortical ischemic tolerance. BDNF could not, however, be directly related to ischemic tolerance in the hippocampus.
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PMID:Cortical spreading depression induces long-term alterations of BDNF levels in cortex and hippocampus distinct from lesion effects: implications for ischemic tolerance. 929 91


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