BDNF and Activity-Dependent Synaptic Modulation: Figure 1.

Lu, Bai

doi:10.1101/lm.54603

Cited by 842 publications

(620 citation statements)

References 196 publications

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“…Initially isolated as a secretory protein capable of promoting the survival of peripheral neurons, BDNF is now recognized as a plethoric factor able to regulate a wide repertoire of functions, including neuronal survival, migration, phenotypic differentiation, axonal and dendritic growth, and synapse formation (Huang and Reichardt, 2001;Lewin and Barde, 1996). In addition to its prominent role in neuronal survival and differentiation during development, BDNF has emerged as a key regulator of synaptic plasticity and behavior (McAllister et al, 1999;Poo, 2001;Lu, 2003). Recent evidence strongly implicates a role for BDNF in cognitive functions, notably in memory acquisition and consolidation.…”

Section: Bdnfmentioning

confidence: 99%

“…BDNF has a complex genomic structure rendering it an ideal target for multiple and complex transcriptional regulation (West et al, 2001;Lu, 2003). Multiple upstream promoters, each individually regulated, drive a short 5 0 exon that is alternatively spliced onto a common 3 0 exon, which encodes the pre-proBDNF protein.…”

Section: Bdnfmentioning

confidence: 99%

“…BDNF mRNA is translated in the ER into a precursor protein, which is folded in the trans-Golgi and then packaged into secretory vesicles (Lu, 2003). Upon correct folding, BDNF can be sorted into the constitutive (spontaneous release) or more frequently, into the regulatory (release in response to stimuli) secretory pathway.…”

Section: Bdnfmentioning

confidence: 99%

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Interaction between BDNF and Serotonin: Role in Mood Disorders

Martinowich

2007

Neuropsychopharmacol

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Brain-derived neurotrophic factor (BDNF) and serotonin (5-hydroxytryptamine, 5-HT) are two seemingly distinct signaling systems that play regulatory roles in many neuronal functions including survival, neurogenesis, and synaptic plasticity. A common feature of the two systems is their ability to regulate the development and plasticity of neural circuits involved in mood disorders such as depression and anxiety. BDNF promotes the survival and differentiation of 5-HT neurons. Conversely, administration of antidepressant selective serotonin reuptake inhibitors (SSRIs) enhances BDNF gene expression. There is also evidence for synergism between the two systems in affective behaviors and genetic epitasis between BDNF and the serotonin transporter genes.

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Section: Bdnfmentioning

confidence: 99%

Section: Bdnfmentioning

confidence: 99%

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Interaction between BDNF and Serotonin: Role in Mood Disorders

Martinowich

2007

Neuropsychopharmacol

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675

458

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“…[1][2][3][4] BDNF is highly expressed in the cortex and hippocampus, 5 the brain areas thought to be critical for the control of mood, emotion and cognition. BDNF deficiency as well as other abnormalities have been linked to a variety of brain disorders including depression.…”

Section: Introductionmentioning

confidence: 99%

The mood stabilizers lithium and valproate selectively activate the promoter IV of brain-derived neurotrophic factor in neurons

et al. 2007

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Brain-derived neurotrophic factor (BDNF) has been strongly implicated in the synaptic plasticity, neuronal survival and pathophysiology of depression. Lithium and valproic acid (VPA) are two primary mood-stabilizing drugs used to treat bipolar disorder. Treatment of cultured rat cortical neurons with therapeutic concentrations of LiCl or VPA selectively increased the levels of exon IV (formerly rat exon III)-containing BDNF mRNA, and the activity of BDNF promoter IV. Surprisingly, lithium-or VPA-responsive element(s) in promoter IV resides in a region upstream from the calcium-responsive elements (CaREs) responsible for depolarization-induced BDNF induction. Moreover, activation of BDNF promoter IV by lithium or VPA occurred in cortical neurons depolarized with KCl, and deletion of these three CaREs did not abolish lithium-or VPA-induced activation. Lithium and VPA are direct inhibitors of glycogen synthase kinase-3 (GSK-3) and histone deacetylase (HDAC), respectively. We showed that lithium-induced activation of promoter IV was mimicked by pharmacological inhibition of GSK-3 or short interfering RNA (siRNA)-mediated gene silencing of GSK-3a or GSK-3b isoforms. Furthermore, treatment with other HDAC inhibitors, sodium butyrate and trichostatin A, or transfection with an HDAC1-specific siRNA also activated BDNF promoter IV. Our study demonstrates for the first time that GSK-3 and HDAC are respective initial targets for lithium and VPA to activate BDNF promoter IV, and that this BDNF induction involves a novel responsive region in promoter IV of the BDNF gene. Our results have strong implications for the therapeutic actions of these two mood stabilizers.

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“…As an important NTF, BDNF mainly acts on neurons in the hippocampus, cerebral cortex, cerebellum, and basal forebrain, which are associated with higher functions such as learning and memory. BDNF also promotes neural proliferation and differentiation and has an anti-apoptotic function, as well as regulating synaptic morphology, information transmission and plasticity, thereby improving the symptoms of depression [23,24] . Interestingly, BDNF improves sleep architecture, especially slow-wave sleep, during antidepressant treatment, which refl ects enhanced synaptic plasticity and the synchronization of neuronal circuits [25] .…”

mentioning

confidence: 99%

New hypothesis and treatment targets of depression: an integrated view of key findings

2015

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Major depressive disorder (MDD) is a common and devastating psychiatric disorder characterized by persistent low mood, cognitive disorder, and impaired social function. Despite its complex mechanisms, increasing evidence has identified the involvement of neurotrophic factors, inflammatory cytokines, the hypothalamuspituitary-adrenal axis, and glutamate receptors in the pathophysiology of this illness. The present review synthesizes recent research achievements to defi ne the network between different hypotheses of MDD and to understand which part is most pivotal for its pathogenesis. By integrating MDD-related signal pathways, we highlight brain-derived neurotrophic factor (BDNF) dysfunction and increased apoptosis as the fi nal common cascades, and new therapeutic strategies aiming to enhance BDNF function have been shown to exert a rapid and effective antidepressant action.

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BDNF and Activity-Dependent Synaptic Modulation: Figure 1.

Cited by 842 publications

References 196 publications

Interaction between BDNF and Serotonin: Role in Mood Disorders

Interaction between BDNF and Serotonin: Role in Mood Disorders

The mood stabilizers lithium and valproate selectively activate the promoter IV of brain-derived neurotrophic factor in neurons

New hypothesis and treatment targets of depression: an integrated view of key findings

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