Differential regulation of synaptic vesicle proteins by antidepressant drugs

Rapp, Simone; Baader, Miriam; Hu, Mei; Jennen-Steinmetz, Christine; Henn, Fritz A.; Thome, Johannes

doi:10.1038/sj.tpj.6500229

Cited by 65 publications

(34 citation statements)

References 25 publications

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“…The effects of mifepristone on the mRNA level of synapsin I are not quite the same as tranylcypromine. Mifepristone decreases synapsin I in DG/CA3 and increases it in CA1 subfield in hippocampus, whereas tranylcypromine decreases synapsin I in both DG/ CA3 and CA1 subfields (Rapp et al, 2004). This difference may be explained by using different animal models.…”

Section: Discussionmentioning

confidence: 95%

“…There are a few reports about the effects of antidepressants on synapsin I in rat hippocampus. Chronic treatment with tranylcypromine, but not desipramine or fluoxetine, decreases synapsin I mRNA expression in rat hippocampal DG, CA3, and CA1 (Rapp et al, 2004), and imipramine or fluvoxamine decreases synapsin I immunoreactivity in rat hippocampus (Iwata et al, 2006). Another study showed that injecting rats with lithium for 30 days produces no changes in total synapsin in the hippocampus (Vawter et al, 2002).…”

Section: Discussionmentioning

confidence: 99%

“…Contrasted with the normal unhandled rats used in the study of Rapp et al (2004), the rat model of depression induced by chronic stress was used in the studies of Krugers et al (2006) and in our own study. Considering EEAs in DG/ CA3 is a major risk factor for the hippocampal atrophy induced by chronic stress (Watanabe et al, 1992;Magarinos et al, 1996), the selective inhibition of synapsin I by mifepristone may have a unique advantage compared with the general inhibition of synapsin I in both DG/CA3 and CA1, as shown by a classic antidepressant such as tranylcypromine.…”

Section: Discussionmentioning

confidence: 99%

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Mifepristone Repairs Region-Dependent Alteration of Synapsin I in Hippocampus in Rat Model of Depression

Han

Wang

et al. 2007

Neuropsychopharmacol

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Clinical investigations present much evidence that the glucocorticoid receptor (GR) antagonist mifepristone leads to a rapid amelioration of depression. The molecular mechanisms of mifepristone involved in the treatment of depression are not fully understood. Depression is associated with hippocampal plasticity, for which increased excitatory amino acid (EAA) release in CA3 induced by chronic stress is responsible, and glucocorticoids have a permissive role and act synergistically with EAAs in producing neuronal damage. Moreover, glucocorticoids increase synapsin I, which has a key role in the release of neurotransmitter, including EAAs. Hereby, we hypothesize that major depression involves synapsin I alteration and that mifepristone blocks this alteration. In the present study, we observed both the expression of hippocampal synapsin I and depression-associated behavior in a rat model of depression induced by chronic unpredictable mild stress (CUMS). The result showed that a region-dependent synapsin I alteration occurs in the rat hippocampus after 21 days of CUMS, that is, it increases in dentate gyrus (DG)/CA3 and decreases in the CA1 region. Correlation analysis indicated that the decrease of synapsin I in CA1 is highly correlated with the increase in the DG/CA3 subfield. Simultaneously, the region-dependent alteration of synapsin I is correlated with depression-associated behaviors. Both the alteration of synapsin I and the depression-associated behavior were rapidly restored after treatment with mifepristone for 1 week. The result suggests that the molecular mechanism underlying the treatment of depression with mifepristone is associated with the rapid repair of the synaptic alteration.

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Section: Discussionmentioning

confidence: 95%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Mifepristone Repairs Region-Dependent Alteration of Synapsin I in Hippocampus in Rat Model of Depression

Han

Wang

et al. 2007

Neuropsychopharmacol

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“…As chronic stress also induces dendritic atrophy and spine loss in mPFC pyramidal neurons (Radley et al, 2004;Wellman, 2001), it is feasible that fluoxetine treatment may induce the opposite effect. The fact that chronic fluoxetine treatment induces an increase in synaptohysin (a protein specific of synapses) expression in the cerebral cortex (Rapp et al, 2004), gives support to this hypothesis. However, studies on the structure of mPFC neurons after antidepressant treatment should be performed to clarify this matter.…”

Section: Involvement Of Psa-ncam Expression In Mpfc Neuronal Structurmentioning

confidence: 90%

Chronic Fluoxetine Treatment Increases the Expression of PSA-NCAM in the Medial Prefrontal Cortex

Varea

Blasco-Ibáñez

Gómez-Climent

et al. 2006

Neuropsychopharmacol

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Recent hypotheses suggest that changes in neuronal structure and connectivity may underlie the etiology of depression. The medial prefrontal cortex (mPFC) is affected by depression and shows neuronal remodeling during adulthood. This plasticity may be mediated by the polysialylated form of the neural cell adhesion molecule (PSA-NCAM), which is intensely expressed in the adult mPFC. As the expression of PSA-NCAM is increased by serotonin in other cerebral regions, antidepressants acting on serotonin reuptake may influence PSA-NCAM expression and thus counteract the effects of depression by modulating neuronal structural plasticity. Using immunohistochemistry, we have studied the relationship between serotoninergic fibers and PSA-NCAM expressing neurons in the adult rat mPFC and the expression of serotonin receptors in these cells. The effects of fluoxetine treatment for 14 days on mPFC PSA-NCAM expression have also been analyzed. Although serotoninergic fibers usually do not contact PSA-NCAM immunoreactive neurons, most of these cells express 5-HT3 receptors. In general, chronic fluoxetine treatment induces significant increases in the number of PSA-NCAM immunoreactive neurons and in neuropil immunostaining and coadministration of the 5-HT3 antagonist ondansetron blocks the effects of fluoxetine on PSA-NCAM expression. These results indicate that fluoxetine, acting through 5-HT3 receptors, can modulate PSA-NCAM expression in the mPFC. This modulation may mediate the structural plasticity of this cortical region and opens new perspectives on the study of the molecular bases of depression.

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“…Interestingly, chronic exposure to second-generation antispychotics olanzapine or risperidone enhances PSA-NCAM expression in the PFC, but not in the hippocampus, suggesting that modulation of cell adhesion protein in the hippocampus may be specific to the mechanism of action of ADs [152,153]. Moreover, an increased expression of synaptophysin, a glycoprotein localized in presynaptic vesicle membranes required for docking and fusion of neurotransmitter-containing synaptic vesicles as well as endocytosis [154], was observed in hippocampus and/or cerebral cortex of rats chronically treated with the MAOI tranylcypromine, the TCA amitriptyline or the SSRI fluoxetine [148,155,156]. Also, Arc (Activity-regulated, cytoskeletalassociated protein), a highly expressed protein in dendrites and postsynaptic densities [157] is implicated in LTP and spine size and type [158][159][160].…”

Section: Synaptic Plasticity and Synaptogenesismentioning

confidence: 99%

Long-Term Adaptive Changes Induced by Antidepressants: From Conventional to Novel Therapies

Mnie-Filali¹,

Abrial²,

Lambás‐Señas³

et al. 2013

Mood Disorders

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Differential regulation of synaptic vesicle proteins by antidepressant drugs

Cited by 65 publications

References 25 publications

Mifepristone Repairs Region-Dependent Alteration of Synapsin I in Hippocampus in Rat Model of Depression

Mifepristone Repairs Region-Dependent Alteration of Synapsin I in Hippocampus in Rat Model of Depression

Chronic Fluoxetine Treatment Increases the Expression of PSA-NCAM in the Medial Prefrontal Cortex

Long-Term Adaptive Changes Induced by Antidepressants: From Conventional to Novel Therapies

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