UMLS:C0011570 - FACTA Search

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pro- and mature brain-derived neurotrophic factor (BDNF) activate two distinct receptors: p75 neurotrophin receptor (p75(NTR)) and TrkB. Mature BDNF facilitates hippocampal synaptic potentiation through TrkB. Here we report that proBDNF, by activating p75(NTR), facilitates hippocampal long-term depression (LTD). Electron microscopy showed that p75(NTR) localized in dendritic spines, in addition to afferent terminals, of CA1 neurons. Deletion of p75(NTR) in mice selectively impaired the NMDA receptor-dependent LTD, without affecting other forms of synaptic plasticity. p75(NTR-/-) mice also showed a decrease in the expression of NR2B, an NMDA receptor subunit uniquely involved in LTD. Activation of p75(NTR) by proBDNF enhanced NR2B-dependent LTD and NR2B-mediated synaptic currents. These results show a crucial role for proBDNF-p75(NTR) signaling in LTD and its potential mechanism, and together with the finding that mature BDNF promotes synaptic potentiation, suggest a bidirectional regulation of synaptic plasticity by proBDNF and mature BDNF.
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PMID:Activation of p75NTR by proBDNF facilitates hippocampal long-term depression. 1602 6

During the last few years several studies have highlighted the possibility that major depression can be characterized by a general reduction in brain plasticity and an increased vulnerability under challenging situations. Such dysfunction may be the consequence of reduced expression and function of proteins important for neuroplasticity such as brain-derived neurotrophic factor (BDNF). On this basis, by using a sensitive non-radioactive in-situ hybridization, we evaluated the effects of a chronic treatment with fluoxetine on BDNF expression within rat dopaminergic regions. In fact, besides the well-established role of the hippocampus, increasing evidence indicates that other brain regions may be involved in the pathophysiology of depression and consequently be relevant for the therapeutic action of antidepressant drugs. Our results indicate that 3 wk of fluoxetine administration up-regulates BDNF mRNA levels selectively within structures belonging to the meso-cortico-limbic pathway. The expression of the neurotrophin is significantly increased in the ventral tegmental area, prefrontal cortex, and shell region of the nucleus accumbens, whereas no changes were detected in the substantia nigra and striatum. Moreover, in agreement with previous studies, fluoxetine increased BDNF mRNA levels in the hippocampus, an effect that was limited to the cell bodies without any change in its dendritic targeting. These data show that chronic treatment with fluoxetine increases BDNF gene expression not only in limbic areas but also in dopaminergic regions, suggesting that such an effect may contribute to improve the function of the dopaminergic system in depressed subjects.
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PMID:Chronic treatment with fluoxetine up-regulates cellular BDNF mRNA expression in rat dopaminergic regions. 1603 58

Brain-derived neurotrophic factor (BDNF) is a member of the neurotrophin family and plays an important role in neuronal survival and plasticity in the CNS. The proform of BDNF (pro-BDNF) is secreted and cleaved extracellularly by the serine protease plasmin to mature BDNF, which potentiates synaptic plasticity and long-term potentiation. Recent findings in animal models suggest an involvement of BDNF and its genetic functional single nucleotide polymorphism in the pathogenesis of different psychiatric diseases including depression, mania, schizophrenia, eating disorders, dementia, and Huntington's disease. In the brain and serum, BDNF is modulated by different factors. It is downregulated by stress and upregulated by learning processes, several antidepressive treatments, physical activity, and dietary restriction. Measurement of BDNF serum concentrations may be of diagnostic value. Additionally, the influence of different strategies for BDNF allocation seems to be relevant for the treatment and prevention of the above psychiatric disorders.
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PMID:[Brain-derived neurotrophic factor: from nerve growth factor to modulator of brain plasticity in cognitive processes and psychiatric diseases]. 1607 56

Affective disorders are common psychiatric illnesses characterized by marked gender-related prevalence. Recent evidence links chronic stress and dysregulation of neurotrophin signaling with the development of depression, while novel theories suggest that antidepressants may act by promoting intracellular adaptations linked to neuroplasticity. Although selective serotonin reuptake inhibitors (SSRIs) efficaciously improve a variety of dysfunctions in males, their neuroendocrine effects and intracellular signaling patterns in females are not well determined. Here we show that chronic footshock stress (21 days) promotes HPA axis hyperactivity (as seen by the increased FOS-ir in the paraventricular hypothalamic nucleus (PVN), plasma corticosterone and adrenal hypertrophy), reduces hippocampal BrdU immunoreactivity and suppresses cortical-limbic CREB phosphorylation in female rats. Long-term citalopram treatment, in contrast, attenuates stress-induced elevation of corticosterone levels and adrenal hypertrophy, although it does not reverse footshock-mediated induction of FOS-ir in the PVN, inhibition of CREB phosphorylation and reduction of hippocampal BrdU-labeling. Moreover, citalopram administration was also associated with significant hypophagic effects and inhibition of CREB phosphorylation. These data suggest that, in female rats, normalization of chronic stress-induced HPA axis abnormalities may represent an initial phase of citalopram-mediated therapeutic actions and despite this SSRI's apparent lack of effects on neuroplasticity, we cannot exclude the possibility that some neurochemical adaptations occur in a later stage which may require more than 3 weeks of treatment to manifest.
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PMID:Unique patterns of FOS, phospho-CREB and BrdU immunoreactivity in the female rat brain following chronic stress and citalopram treatment. 1630 18

Neurotrophic factors are a group of proteins with a similar structure (The regulation of neuronal plasticity and neuron protection are some of their biological functions). The group of neurotrophic factors consists of: growth factor (NGF), brain-derived neurotrophic factor (BDNF), neurotrophin 3 (NT-3) and neurotrophin 4/5 (NT-4/5). BDNF is the most important neurotrophin from the affective disorders point of view. Preclinical and clinical studies of altered BDNF expression during chronic stress and increased BDNF activity during antidepressant treatment, confirm the role of BDNF in the pathogenesis of depression. Studies on animal models point to the antidepressant effect of BDNF, similar to long-term antidepressant treatment. The intracellular mechanisms mediated by this neurotrophic factor are connected with signal transduction pathways in cells (mainly mitogen-activated protein kinase cascade and cyclic adenosine 3',5'-monophosphate cascade). The BDNF serum level studies suggest a correlation between the BDNF expression in the central nervous system and its serum levels, what could make BDNF levels specific markers of depression. The molecular genetic studies focus on associations between BDNF gene polymorphisms and bipolar disorder or cognitive functioning disturbances. The novel pathogenetic theories of depression based on neuronal plasticity (Duman et al.) and disturbances in neurogenesis (Kempermann and Kronenberg) can be a kind of recapitulation of research on the role of neurotrophins in depression. However many issues related to the role of neurotrophic factors in affective disorders are still unclear and determine areas of future scientific interests in this field.
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PMID:[Neurotrophic factors and their role in the pathogenesis of affective disorders]. 1635 89

Neurotrophins are a family of secreted proteins that play an important role in the development, differentiation, and survival of neurons. Studies also suggest that aberrant neurotrophin signaling may play a role in processes underlying disease states such as schizophrenia, Alzheimer's disease, and depression. Whereas the development of agents that selectively stimulate neurotrophin signaling has proven to be difficult, compounds have been identified that potentiate neurotrophin 3 (NT-3)-mediated activation of trk A. In the present studies, we extend those initial observations to identify compounds that also potentiate NT-3-mediated activation of trk B. Compound potentiation of NT-3 was observed using several readouts of transfected and endogenous trk receptor activity, including trk receptor phosphorylation, mitogen-activated protein kinase phosphorylation, reporter assay activity (beta-lactamase and luciferase), cell survival and neurite extension assays. Studies using chimeric trk receptors demonstrated that the extracellular domain is essential for compound potentiation and rule out interaction with intracellular signaling molecules as a mechanism of compound activity. Thus, the present studies demonstrate that trk B receptor activity can be potentiated by small-molecule compounds via the extracellular domain of the receptor and provide reagents for further evaluating the role of NT-3-mediated trk A and trk B activity in vivo.
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PMID:Identification and characterization of compounds that potentiate NT-3-mediated Trk receptor activity. 1639 50

Neurotrophins are a unique family of polypeptide growth factors that influence the proliferation, differentiation, survival and death of neuronal and non-neuronal cells. They are essential for the health and well-being of the nervous system. NGF (nerve growth factor), BDNF (brain-derived neurotrophic factor), NT-3 (neurotrophin-3) and NT-4 (neurotrophin-4) also mediate additional higher-order activities, such as learning, memory and behaviour, in addition to their established functions for cell survival. The effects of neurotrophins depend upon their levels of availability, their affinity of binding to transmembrane receptors and the downstream signalling cascades that are stimulated after receptor activation. Alterations in neurotrophin levels have been implicated in neurodegenerative disorders, such as Alzheimer's disease and Huntington's disease, as well as psychiatric disorders, including depression and substance abuse. Difficulties in administering trophic factors have led to the consideration of using small molecules, such as GPCR (G-protein-coupled receptor) ligands, which can participate in transactivation events. In this review, we consider the signalling pathways activated by neurotrophins in both health and disease states.
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PMID:Neurotrophin signalling in health and disease. 1641 93

The neurotrophins are growth factors required by discrete neuronal cell types for survival and maintenance, with a broad range of activities in the central and peripheral nervous system in the developing and adult mammal. This review examines their role in diverse disease states, including Alzheimer's disease, depression, pain and asthma. In addition, the role of BDNF (brain-derived neurotrophic factor) in synaptic plasticity and memory formation is discussed. Unlike the other neurotrophins, BDNF is secreted in an activity-dependent manner that allows the highly controlled release required for synaptic regulation. Evidence is discussed which shows that sequestration of NGF (nerve growth factor) is able to reverse symptoms of inflammatory pain and asthma in animal models. Both pain and asthma show an underlying pathophysiology linked to increases in endogenous NGF and subsequent NGF-dependent increase in BDNF. Conversely, in Alzheimer's disease, there is a role for NGF in the treatment of the disease and a recent clinical trial has shown benefit from its exogenous application. In addition, reductions in BDNF, and changes in the processing and usage of NGF, are evident and it is possible that both NGF and BDNF play a part in the aetiology of the disease process. This highly selective choice of functions and disease states related to neurotrophin function, although in no way comprehensive, illustrates the importance of the neurotrophins in the brain, the peripheral nervous system and in non-neuronal tissues. Ways in which the neurotrophins, their receptors or agonists/antagonists may act therapeutically are discussed.
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PMID:Clinical relevance of the neurotrophins and their receptors. 1641 94

The neurotrophins mediate diverse actions in the developing peripheral and central nervous systems. They are initially synthesized as precursor forms, or proneurotrophins, that are cleaved to release C-terminal mature forms that bind to Trk receptor tyrosine kinases to enhance synaptic plasticity and neuronal survival. Recent studies suggest that proneurotrophins are not inactive precursors, but signaling proteins that can activate the p75 receptor to mediate diverse responses. Proneurotrophins can activate a heteromeric receptor complex of p75 and sortilin to initiate cell death, or bind to p75 in hippocampal neurons to enhance long term depression. Thus, neurotrophin actions are regulated by the form of the neurotrophin (pro- or mature) secreted by cells, by extracellular proteolytic cleavage of proneurotrophins to generate mature forms, and by the expression of neurotrophin receptors Trk, or p75 and sortilin, that are selectively activated by mature or proneurotrophins, respectively. Here, recent studies are reviewed that reveal that pro- and mature neurotrophins have distinct and sometimes opposing actions in regulating cell death and survival in development and in pathophysiologic states, in regulating neurotrophin secretion, and in modulating synaptic plasticity.
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PMID:Dissecting the diverse actions of pro- and mature neurotrophins. 1647 98

Early experiences affect brain function and behavior at adulthood. Being reared in a communal nest (CN), consisting of a single nest where three mothers keep their pups together and share care-giving behavior from birth to weaning (postnatal day [PND] 25), provides an highly socially stimulating environment to the developing pup. Communal nest characterizes the natural ecologic niche of many rodent species including the mouse. At adulthood, CN reared mice, compared to mice reared in standard nesting laboratory condition (SN), show an increase in BDNF protein levels and longer survival of BrdU-positive cells in the hippocampus. Open field and elevated plus maze results indicate that CN mice, although showing levels of exploratory and locomotor activity similar to those of SN mice, displayed increased anxiety-like behavior, performing more thigmotaxis in the open field and spending less time in the open arms of the plus maze. Furthermore, CN mice displayed higher levels of immobility behavior in the forced swim test. Overall, these findings show that CN, an highly stimulating early social environment, increases adult neuronal plasticity, as suggested by high BDNF levels and augmented number of newly generated cells in the hippocampus, which is associated to an increased anxiety- and "depression"-like behavior. These findings are discussed in the framework of the neurotrophin hypothesis of depression.
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PMID:Early social enrichment augments adult hippocampal BDNF levels and survival of BrdU-positive cells while increasing anxiety- and "depression"-like behavior. 1647 19

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