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Literature DB >> 26446044

Regulation of astrocyte pathology by fluoxetine prevents the deterioration of Alzheimer phenotypes in an APP/PS1 mouse model.

Jinping Qiao^1,2,3, Junhui Wang^1,4, Hongxing Wang⁵, Yanbo Zhang⁶, Shenghua Zhu³, Abulimiti Adilijiang⁴, Huining Guo⁴, Ruiguo Zhang⁷, Wei Guo⁵, Gang Luo⁸, Yiqing Qiu⁹, Haiyun Xu¹, Jiming Kong³, Qingjun Huang¹, Xin-Min Li⁴.

Abstract

Studies have implicated astrocytic dysfunction in Alzheimer's disease (AD). However, the role of astrocytes in the pathophysiology and treatment of the disease is poorly characterized. Here, we identified astrocytes as independent key factors involved in several Alzheimer-like phenotypes in an APP/PS1 mouse model, including amyloid pathology, altered neuronal and synaptic properties, and impaired cognition. In vitro astrocytes from APP/PS1 mice induced synaptotoxicity as well as reduced dendritic complexity and axonal branching of hippocampal neurons. These astrocytes produced high levels of soluble β-amyloid (Aβ) which could be significantly inhibited by fluoxetine (FLX) via activating serotonin 5-HT2 receptors. FLX could also protect hippocampal neurons against astrocyte-induced neuronal damage in vitro. In the same APP/PS1 mice, FLX inhibited activation of astrocytes, lowered Aβ products, ameliorated neurotoxicity, and improved behavioral performance. These findings may provide a basis for the clinical application of FLX in patients, and may also lay the groundwork for exploration of other novel astrocyte-based therapies of AD.

Entities: Chemical Disease Gene Species

Keywords: Alzheimer's disease (AD); astrocyte; astrocyte conditioned medium (ACM); beta-amyloid; fluoxetine

Mesh：

Substances：

Year: 2015 PMID： 26446044 DOI： 10.1002/glia.22926

Source DB: PubMed Journal: Glia ISSN： 0894-1491 Impact factor: 7.452

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Cited

22 in total

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Journal: Acta Pharmacol Sin Date: 2019-04-18 Impact factor: 6.150

Review 3. Astrocyte Bioenergetics and Major Psychiatric Disorders.

Authors: Ivan V Maly; Michael J Morales; Mikhail V Pletnikov
Journal: Adv Neurobiol Date: 2021

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7. Lamotrigine Reduces Inflammatory Response and Ameliorates Executive Function Deterioration in an Alzheimer's-Like Mouse Model.

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Journal: Front Integr Neurosci Date: 2016-01-08

9. Response: Commentary: Chronic SSRI Stimulation of Astrocytic 5-HT2B Receptors Change Multiple Gene Expressions/Editings and Metabolism of Glutamate, Glucose and Glycogen: A Potential Paradigm Shift.

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10. Fluoxetine attenuates the impairment of spatial learning ability and prevents neuron loss in middle-aged APPswe/PSEN1dE9 double transgenic Alzheimer's disease mice.

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Journal: Oncotarget Date: 2017-04-25