Shiquen Zhang scite author profile

ERK(1/2) phosphorylation was abolished by SB204741, a universal 5-HT(2) receptor antagonist, and in 5-HT(2B) receptor-depleted cells, but unaffected by 5-HT(2A) or 5-HT(2C) receptor antagonists (M100907 and SB242084). Phosphorylation of ERK(1/2) and EGFRs was abolished by AG 1478, an inhibitor of EGFR tyrosine kinases, and GM 6001, an inhibitor of Zn-dependent metalloproteinases, suggesting growth factor "shedding" and transactivation of EGFRs. Chelation of [Ca(2+)](i) or PKC inhibition with GF 109203X abrogated ERK(1/2) phosphorylation. Up-regulated mRNA and protein expression of c-fos and fosB was abolished by SB204741, AG1478, and by U0126, an inhibitor of ERK phosphorylation by MAP kinase/ERK kinase.

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Fluoxetine affects GluK2 editing, glutamate-evoked Ca²⁺ influx and extracellular signal-regulated kinase phosphorylation in mouse astrocytes

Zhang

et al. 2011

jpn

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. Background:We sought to study the effects of chronic exposure to fluoxetine -a selective serotonin reuptake inhibitor (SSRI) and specific 5-HT 2B receptor agonist in astrocytes -on the expression of kainate receptors (GluK1-5) in cultured astrocytes and in intact brains in mice and on GluK2 editing by adenosine deaminase acting on RNA (ADAR), as well as the ensuing effects of fluoxetine on glutamate-mediated Ca 2+ influx and extracellular signal-regulated kinase (ERK) 1/2 phosphorylation in astrocytes. Methods: We performed reverse transcription-polymerase chain reaction (PCR) to assess mRNA expression. We analyzed RNA editing with amplification refractory mutation system PCR and complementary DNA sequencing. Protein expression and ERK phosphorylation were assessed using Western blots. We studied gene silencing with specific small interfering RNAs (siRNA), and we studied intracellular Ca 2+ using fluorometry. Results: All GluK subunits were present in the brain in vivo, and GluK2-5 subunits were present in cultured astrocytes. Fluoxetine upregulated GluK2 and ADAR2. Enhanced GluK2 editing by fluoxetine abolished glutamate-mediated increases in intra cellular Ca 2+ and ERK 1/2 phosphorylation. Enhanced editing of GluK2 was prevented by siRNA against the 5-HT 2B receptor or ADAR2. Limitations: Limitations of our study include the use of an in vitro system, but our cultured cells in many respects behave like in vivo astrocytes. Conclusion: Fluoxetine alters astrocytic glutamatergic function.

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5-HT_2Breceptors are expressed on astrocytes from brain and in culture and are a chronic target for all five conventional ‘serotonin-specific reuptake inhibitors’

Zhang

Lovatt

et al. 2010

Neuron Glia Biol.

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In well-differentiated primary cultures of mouse astrocytes, which express no serotonin transporter (SERT), the 'serotonin-specific reuptake inhibitor' (SSRI) fluoxetine leads acutely to 5-HT2B receptor-mediated, transactivation-dependent phosphorylation of extracellular regulated kinases 1/2 (ERK1/2) with an EC50 of ~5 μM, and chronically to ERK1/2 phosphorylation-dependent upregulation of mRNA and protein expression of calcium-dependent phospholipase A2 (cPLA2) with ten-fold higher affinity. This affinity is high enough that fluoxetine given therapeutically may activate astrocytic 5-HT2B receptors (Li et al., 2008, 2009). We now confirm the expression of 5-HT2B receptors in astrocytes freshly dissociated from mouse brain and isolated by fluorescence-activated cell sorting (FACS) and investigate in cultured cells if the effects of fluoxetine are shared by all five conventional SSRIs with sufficiently high affinity to be relevant for mechanism(s) of action of SSRIs. Phosphorylated and total ERK1/2 and mRNA and protein expression of cPLA2a were determined by Western blot and reverse transcription polymerase chain reaction (RT-PCR). Paroxetine, which differs widely from fluoxetine in affinity for SERT and for another 5-HT2 receptor, the 5-HT2C receptor, acted acutely and chronically like fluoxetine. One micromolar of paroxetine, fluvoxamine or sertraline increased cPLA2a expression during chronic treatment; citalopram had a similar effect at 0.1-0.5 μM; these are therapeutically relevant concentrations.

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Chronic treatment of astrocytes with therapeutically relevant fluoxetine concentrations enhances cPLA2 expression secondary to 5-HT2B-induced, transactivation-mediated ERK1/2 phosphorylation

Zhang

et al. 2009

Psychopharmacology

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This demonstration replicates the fluoxetine-induced cPLA(2) upregulation in rat brain shown by Rao et al. (Pharmacogenomics J 6:413-420, 2006) and provides the new information that upregulation (1) occurs in astrocytes, (2) is evoked by stimulation of 5-HT(2B) receptor, and (3) requires transactivation-mediated ERK(1/2) phosphorylation. Similar upregulation of cPLA(2) in intact brain in response to 5-HT(2)-mediated signaling by elevated serotonin levels and/or an SSRI during antidepressant treatment may explain the repeatedly reported ability of SSRIs to normalize regional decreases which occur in brain metabolism during major depression, since (1) arachidonic acid strongly stimulates glucose metabolism in cultured astrocytes (Yu et al., J Neurosci Res 64:295-303, 1993) and (2) plasma concentrations of arachidonic acid in depressed patients are linearly correlated with regional brain glucose metabolism (Elizabeth Sublette et al., Prostaglandins Leukot Essent Fatty Acids 80:57-64, 2009).

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Shiquen Zhang

Fluoxetine-mediated 5-HT2B receptor stimulation in astrocytes causes EGF receptor transactivation and ERK phosphorylation

Fluoxetine affects GluK2 editing, glutamate-evoked Ca²⁺ influx and extracellular signal-regulated kinase phosphorylation in mouse astrocytes

5-HT_2Breceptors are expressed on astrocytes from brain and in culture and are a chronic target for all five conventional ‘serotonin-specific reuptake inhibitors’

Chronic treatment of astrocytes with therapeutically relevant fluoxetine concentrations enhances cPLA2 expression secondary to 5-HT2B-induced, transactivation-mediated ERK1/2 phosphorylation

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Shiquen Zhang

Fluoxetine-mediated 5-HT2B receptor stimulation in astrocytes causes EGF receptor transactivation and ERK phosphorylation

Fluoxetine affects GluK2 editing, glutamate-evoked Ca2+ influx and extracellular signal-regulated kinase phosphorylation in mouse astrocytes

5-HT2Breceptors are expressed on astrocytes from brain and in culture and are a chronic target for all five conventional ‘serotonin-specific reuptake inhibitors’

Chronic treatment of astrocytes with therapeutically relevant fluoxetine concentrations enhances cPLA2 expression secondary to 5-HT2B-induced, transactivation-mediated ERK1/2 phosphorylation

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Resources

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Fluoxetine affects GluK2 editing, glutamate-evoked Ca²⁺ influx and extracellular signal-regulated kinase phosphorylation in mouse astrocytes

5-HT_2Breceptors are expressed on astrocytes from brain and in culture and are a chronic target for all five conventional ‘serotonin-specific reuptake inhibitors’