Fluoxetine exposure for more than 2 days decreases the neuronal plasticity mediated by CRMP2 in differentiated PC12 cells

Fluoxetine exposure for more than 2 days decreases the neuronal plasticity mediated by CRMP2 in differentiated PC12 cells

•FLU exposure increased neuronal plasticity at day 1.•FLU exposure for longer periods has an opposite effect on the regulation of neuronal plasticity at day 1 and day 3.•The regulation of CRMP2 activity influenced the neuronal plasticity. Recent studies indicate that antidepressants treatment restor...

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Bibliographic Details
Published in:Brain research bulletin Vol. 158; pp. 99 - 107
Main Authors: Wu, Zuotian, Wang, Gaohua, Wang, Huiling, Xiao, Ling, Wei, Yanyan, Yang, Can
Format: Journal Article
Language:English
Published: United States Elsevier Inc 01-05-2020
Subjects:
Antidepressant
CRMP2
Depression
Fluoxetine
Plasticity
Bcl-2
Antidepressant
cKO
CUMS
WB
FLU
SB
DMEM
SD
PI3K
RT-PCR
Plasticity
WT
IF
Fluoxetine
TBST
Depression
AKT
Co-IP
PVDF
SDS-PAGE
GSK3β
CCK8
Arc
NC
CRMP2
Bax
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Summary:•FLU exposure increased neuronal plasticity at day 1.•FLU exposure for longer periods has an opposite effect on the regulation of neuronal plasticity at day 1 and day 3.•The regulation of CRMP2 activity influenced the neuronal plasticity. Recent studies indicate that antidepressants treatment restores neuronal plasticity. In contrast, some researchers claim that serotonergic antidepressants, including fluoxetine (FLU), may exacerbate neuronal plasticity, which is contradictory and rarely studied. Since almost those studies exposed cells with drugs for 1–2 days as treatment models of antidepressants, it is possible that FLU exposure for longer periods would have opposite effects on neuronal plasticity. In the present study, we examined the effects of FLU exposure (up to 3 days) on the neuronal plasticity in differentiated PC12 cells. The cell viability shown a slight decrease at day 2 (93.5 ± 3.5 %), followed by a highly significant decrease at day 3(71.4 ± 4.4 %). As previously reported, neuronal plasticity was significantly upregulated by FLU exposure at day 1. However, the neurite length, activity-regulated cytoskeleton-associated protein (Arc) and c-Fos mRNA were inhibited with FLU exposure at day 3. Similarly, the expression of tubulin, which play important roles in the neuronal plasticity, was the same result. Furthermore, we found α-tubulin interacted with collapsing response mediator protein 2(CRMP2), which is related to neuronal plasticity, and the regulation of CRMP2 activity influenced the neurite length, Arc, c-Fos and tubulin expression. The results demonstrated that neuronal plasticity was increased by FLU exposure at day 1, but exposure with FLU for more than 2 days had opposite effect on it. The reduction in neuronal plasticity with FLU exposure for more than 2 days might be involved in some aspects of the therapeutic effect of antidepressant on depression.
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ISSN:0361-9230
1873-2747
DOI:10.1016/j.brainresbull.2020.02.007