Neuroprotective effect of the alpha 7 nicotinic receptor agonist PHA 543613 in an in vivo excitotoxic adult rat model

Foucault-Fruchard, Laura; Doméné, Aurélie; Page, Guylène; Windsor, Marguerite; Emond, Patrick; Rodrigues, Nélson; Dollé, Frédéric; Damont, Anne Laure; Buron, Frédéric; Routier, Sylvain; Chalon, Sylvie; Antier, Daniel

doi:10.1016/j.neuroscience.2017.05.019

Cited by 31 publications

(15 citation statements)

References 79 publications

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“…This bi‐directional interaction between microglia and DA neurons is known to fuel the neurodegenerative process. In our model, we quantitated the striatal density of the 18 kDa TSPO which is considered as a sensitive marker of microglial activation (Chen & Guilarte, ; Rupprecht et al, ) using [ 3 H]DPA‐714, a highly sensitive radioligand of TSPO which has demonstrated its usefulness to assess striatal microglial activation in a rat model of brain excitotoxicity (Foucault‐Fruchard et al, ). In parallel, microglial activation was assessed in the SN using immunostaining of CD11b, a surface protein which is overexpressed during activation of these cells (Roy et al, ).…”

Section: Discussionmentioning

confidence: 99%

Extensive exploration of a novel rat model of Parkinson's disease using partial 6‐hydroxydopamine lesion of dopaminergic neurons suggests new therapeutic approaches

Vetel

Sérrière

Vercouillie

et al. 2018

Synapse

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Parkinson's disease (PD) is characterized by the degeneration of dopaminergic (DA) neurons constituting the nigrostriatal pathway. Neuroinflammation, related to microglial activation, plays an important role in this process. Exploration of animal models of PD using neuroimaging modalities allows to better understand the pathophysiology of the disease. Here, we fully explored a moderate lesion model in the rat in which 6‐hydroxydopamine was unilaterally delivered in three sites along the striatum. The degenerative process was assessed through in vivo Positron Emission Tomography (PET) imaging and in vitro autoradiographic quantitation of the striatal dopamine transporter (DAT) and immunostaining of tyrosine hydroxylase (TH). The microglial activation was studied through in vitro autoradiographic quantitation of the 18 kDa translocator protein (TSPO) in the striatum and CD11b staining in the SN. In addition, a targeted metabolomics exploration was performed in both these structures using mass spectrometry coupled to HPLC. Our results showed a reproducible decrease in the striatal DAT density associated with a reduction in the number of TH‐positive cells in the SN and striatum, reflecting a robust moderate degeneration of nigrostriatal DA neurons. In addition, we observed strong microglia activation in both the striatum and SN ipsilateral to the lesion, highlighting that this moderate degeneration of DA neurons was associated with a marked neuroinflammation. Our metabolomics studies revealed alterations of specific metabolites and metabolic pathways such as carnitine, arginine/proline, and histidine metabolisms. These results bring new insights in the PD mechanism knowledge and new potential targets for future therapeutic strategies.

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Section: Discussionmentioning

confidence: 99%

Extensive exploration of a novel rat model of Parkinson's disease using partial 6‐hydroxydopamine lesion of dopaminergic neurons suggests new therapeutic approaches

Vetel

Sérrière

Vercouillie

et al. 2018

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“…Another agonist, PHA 543613, attenuates early-stage HD induced by striatal quinolinic acid lesions. PHA 543613 reduced microglial activation to protect neurons [150]. In another study, α7nAChR-agonist-treated 3xTg-AD mice showed improved cognitive function [151].…”

Section: Cholinergic Receptorsmentioning

confidence: 97%

G-Protein-Coupled Receptors in CNS: A Potential Therapeutic Target for Intervention in Neurodegenerative Disorders and Associated Cognitive Deficits

Azam

Haque

Jakaria

et al. 2020

Cells

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Neurodegenerative diseases are a large group of neurological disorders with diverse etiological and pathological phenomena. However, current therapeutics rely mostly on symptomatic relief while failing to target the underlying disease pathobiology. G-protein-coupled receptors (GPCRs) are one of the most frequently targeted receptors for developing novel therapeutics for central nervous system (CNS) disorders. Many currently available antipsychotic therapeutics also act as either antagonists or agonists of different GPCRs. Therefore, GPCR-based drug development is spreading widely to regulate neurodegeneration and associated cognitive deficits through the modulation of canonical and noncanonical signals. Here, GPCRs’ role in the pathophysiology of different neurodegenerative disease progressions and cognitive deficits has been highlighted, and an emphasis has been placed on the current pharmacological developments with GPCRs to provide an insight into a potential therapeutic target in the treatment of neurodegeneration.

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“…α7nAChR is a homopentameric neuronal receptor permeable to calcium ions and is one of the most frequently found ACh receptors in the CNS. Its ionotropic/metabotropic dual action has allowed the receptor's implication in memory modulation and anti‐inflammatory and neuroprotective mechanisms (Corradi & Bouzat, ; Foucault‐Fruchard et al, ; Picciotto, Higley, & Mineur, ). On the other hand, some studies have shown that the pharmacological blockade of α7nAChRs with the antagonist methyllycaconitine (MLA) produced cognitive deficits in mice (Addy, Nakajama, & Levin, ; Andriambeloson, Huyard, Poiraud, & Wagner, ).…”

Section: Introductionmentioning

confidence: 99%

α7 nicotinic ACh receptors are necessary for memory recovery and neuroprotection promoted by attention training in amyloid‐β‐infused mice

Telles-Longui

Mourelle

Schöwe

et al. 2019

British J Pharmacology

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Background and Purpose Attention training reverses the neurodegeneration and memory loss promoted by infusion of amyloid‐β (Aβ) peptide in rats and increases the density of α7 nicotinic ACh receptors (α7nAChRs) in brain areas related to memory. Hence, we aimed to assess the role of α7nAChRs in the memory recovery promoted by attention training. Experimental Approach C57Bl/6 mice were chronically infused with Aβ, Aβ plus the α7 antagonist methyllycaconitine (MLA), or MLA alone. Control animals were infused with vehicle. Animals were subjected weekly to the active avoidance shuttle box for 4 weeks (attention training). The brain and serum were collected for biochemical and histological analysis. Key Results Aβ caused cognitive impairment, which was reversed by the weekly training, whereas Aβ + MLA also promoted memory loss but with no reversal with weekly training. MLA alone also promoted memory loss but with only partial reversal with the training. Animals infused with Aβ alone showed senile plaques in hippocampus, no change in BDNF levels in cortex, hippocampus, and serum, but increased AChE activity in cortex and hippocampus. Co‐treatment with MLA increased AChE activity and senile plaque deposition in hippocampus as well as reducing BDNF in hippocampus and serum, suggesting a lack of α7nAChR function leads to a loss of neuroprotection mechanisms. Conclusions and Implications The α7nAChR has a determinant role in memory recovery and brain resilience in the presence of neurodegeneration promoted by Aβ peptide. These data support further studies concerning these receptors as pharmacological targets for future therapies.

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Neuroprotective effect of the alpha 7 nicotinic receptor agonist PHA 543613 in an in vivo excitotoxic adult rat model

Cited by 31 publications

References 79 publications

Extensive exploration of a novel rat model of Parkinson's disease using partial 6‐hydroxydopamine lesion of dopaminergic neurons suggests new therapeutic approaches

Extensive exploration of a novel rat model of Parkinson's disease using partial 6‐hydroxydopamine lesion of dopaminergic neurons suggests new therapeutic approaches

G-Protein-Coupled Receptors in CNS: A Potential Therapeutic Target for Intervention in Neurodegenerative Disorders and Associated Cognitive Deficits

α7 nicotinic ACh receptors are necessary for memory recovery and neuroprotection promoted by attention training in amyloid‐β‐infused mice

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