Anthocyanins Promote Learning through Modulation of Synaptic Plasticity Related Proteins in an Animal Model of Ageing

Anthocyanins Promote Learning through Modulation of Synaptic Plasticity Related Proteins in an Animal Model of Ageing

Anthocyanin-rich foods, such as berries, reportedly ameliorate age-related cognitive deficits in both animals and humans. Despite this, investigation into the mechanisms which underpin anthocyanin-mediated learning and memory benefits remains relatively limited. The present study investigates the ef...

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Main Authors: David Vauzour, Catarina Rendeiro, Alfonsina D’Amato, Pierre Waffo-Téguo, Tristan Richard, Jean Michel Mérillon, Matthew G. Pontifex, Emily Connell, Michael Müller, Laurie T. Butler, Claire M. Williams, Jeremy P. E. Spencer
Format: Article
Language:English
Published: MDPI AG 2021-07-01
Series:Antioxidants
Subjects:
flavonoids
brain
signalling
cognition
neuroprotection
Online Access:https://www.mdpi.com/2076-3921/10/8/1235
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spelling doaj-b9f67cd611b244f2ab2f22e1cb31f86d2021-08-26T13:28:41ZengMDPI AGAntioxidants2076-39212021-07-01101235123510.3390/antiox10081235Anthocyanins Promote Learning through Modulation of Synaptic Plasticity Related Proteins in an Animal Model of AgeingDavid Vauzour0Catarina Rendeiro1Alfonsina D’Amato2Pierre Waffo-Téguo3Tristan Richard4Jean Michel Mérillon5Matthew G. Pontifex6Emily Connell7Michael Müller8Laurie T. Butler9Claire M. Williams10Jeremy P. E. Spencer11Faculty of Medicine and Health Sciences, Norwich Medical School, University of East Anglia, Norwich NR4 7UQ, UKSchool of Sport, Exercise and Rehabilitation Sciences, University of Birmingham, Edgbaston, Birmingham B15 2TT, UKDepartment of Pharmaceutical Sciences, University of Milan, 20133 Milan, ItalyUFR des Sciences Pharmaceutiques, Unité de Recherche Œnologie EA 4577, University of Bordeaux, USC 1366 INRA, Equipe Molécules d’Intérêt Biologique, 210 Chemin de Leysotte, F-33882 Villenave d’Ornon, FranceUFR des Sciences Pharmaceutiques, Unité de Recherche Œnologie EA 4577, University of Bordeaux, USC 1366 INRA, Equipe Molécules d’Intérêt Biologique, 210 Chemin de Leysotte, F-33882 Villenave d’Ornon, FranceUFR des Sciences Pharmaceutiques, Unité de Recherche Œnologie EA 4577, University of Bordeaux, USC 1366 INRA, Equipe Molécules d’Intérêt Biologique, 210 Chemin de Leysotte, F-33882 Villenave d’Ornon, FranceFaculty of Medicine and Health Sciences, Norwich Medical School, University of East Anglia, Norwich NR4 7UQ, UKFaculty of Medicine and Health Sciences, Norwich Medical School, University of East Anglia, Norwich NR4 7UQ, UKFaculty of Medicine and Health Sciences, Norwich Medical School, University of East Anglia, Norwich NR4 7UQ, UKFaculty of Science and Engineering, Anglia Ruskin University, Cambridge CB1 1PT, UKSchool of Psychology and Clinical Language Sciences, University of Reading, Reading RG6 6AL, UKMolecular Nutrition Group, Department of Food and Nutritional Sciences, School of Chemistry, Food and Pharmacy, University of Reading, Reading RG6 6AP, UKAnthocyanin-rich foods, such as berries, reportedly ameliorate age-related cognitive deficits in both animals and humans. Despite this, investigation into the mechanisms which underpin anthocyanin-mediated learning and memory benefits remains relatively limited. The present study investigates the effects of anthocyanin intake on a spatial working memory paradigm, assessed via the cross-maze apparatus, and relates behavioural test performance to underlying molecular mechanisms. Six-week supplementation with pure anthocyanins (2% <i>w</i>/<i>w</i>), administered throughout the learning phase of the task, improved both spatial and psychomotor performances in aged rats. Behavioural outputs were accompanied by changes in the expression profile of key proteins integral to synaptic function/maintenance, with upregulation of dystrophin, protein kinase B (PKB/Akt) and tyrosine hydroxylase, and downregulation of apoptotic proteins B-cell lymphoma-extra-large (Bcl-xL) and the phosphorylated rapidly accelerated fibrosarcoma (p-Raf). Separate immunoblot analysis supported these observations, indicating increased activation of extracellular signal-related kinase (ERK1), Akt Ser473, mammalian target of rapamycin (mTOR) Ser2448, activity-regulated cytoskeleton-associated protein (Arc/Arg 3.1) and brain-derived neurotrophic factor (BDNF) in response to anthocyanin treatment, whilst α-E-catenin, c-Jun N-terminal kinase (JNK1) and p38 protein levels decreased. Together, these findings suggest that purified anthocyanin consumption enhances spatial learning and motor coordination in aged animals and can be attributed to the modulation of key synaptic proteins, which support integrity and maintenance of synaptic function.https://www.mdpi.com/2076-3921/10/8/1235flavonoidsbrainsignallingcognitionneuroprotection
collection DOAJ
language English
format Article
sources DOAJ
author David Vauzour
Catarina Rendeiro
Alfonsina D’Amato
Pierre Waffo-Téguo
Tristan Richard
Jean Michel Mérillon
Matthew G. Pontifex
Emily Connell
Michael Müller
Laurie T. Butler
Claire M. Williams
Jeremy P. E. Spencer
spellingShingle David Vauzour
Catarina Rendeiro
Alfonsina D’Amato
Pierre Waffo-Téguo
Tristan Richard
Jean Michel Mérillon
Matthew G. Pontifex
Emily Connell
Michael Müller
Laurie T. Butler
Claire M. Williams
Jeremy P. E. Spencer
Anthocyanins Promote Learning through Modulation of Synaptic Plasticity Related Proteins in an Animal Model of Ageing
Antioxidants
flavonoids
brain
signalling
cognition
neuroprotection
author_facet David Vauzour
Catarina Rendeiro
Alfonsina D’Amato
Pierre Waffo-Téguo
Tristan Richard
Jean Michel Mérillon
Matthew G. Pontifex
Emily Connell
Michael Müller
Laurie T. Butler
Claire M. Williams
Jeremy P. E. Spencer
author_sort David Vauzour
title Anthocyanins Promote Learning through Modulation of Synaptic Plasticity Related Proteins in an Animal Model of Ageing
title_short Anthocyanins Promote Learning through Modulation of Synaptic Plasticity Related Proteins in an Animal Model of Ageing
title_full Anthocyanins Promote Learning through Modulation of Synaptic Plasticity Related Proteins in an Animal Model of Ageing
title_fullStr Anthocyanins Promote Learning through Modulation of Synaptic Plasticity Related Proteins in an Animal Model of Ageing
title_full_unstemmed Anthocyanins Promote Learning through Modulation of Synaptic Plasticity Related Proteins in an Animal Model of Ageing
title_sort anthocyanins promote learning through modulation of synaptic plasticity related proteins in an animal model of ageing
publisher MDPI AG
series Antioxidants
issn 2076-3921
publishDate 2021-07-01
description Anthocyanin-rich foods, such as berries, reportedly ameliorate age-related cognitive deficits in both animals and humans. Despite this, investigation into the mechanisms which underpin anthocyanin-mediated learning and memory benefits remains relatively limited. The present study investigates the effects of anthocyanin intake on a spatial working memory paradigm, assessed via the cross-maze apparatus, and relates behavioural test performance to underlying molecular mechanisms. Six-week supplementation with pure anthocyanins (2% <i>w</i>/<i>w</i>), administered throughout the learning phase of the task, improved both spatial and psychomotor performances in aged rats. Behavioural outputs were accompanied by changes in the expression profile of key proteins integral to synaptic function/maintenance, with upregulation of dystrophin, protein kinase B (PKB/Akt) and tyrosine hydroxylase, and downregulation of apoptotic proteins B-cell lymphoma-extra-large (Bcl-xL) and the phosphorylated rapidly accelerated fibrosarcoma (p-Raf). Separate immunoblot analysis supported these observations, indicating increased activation of extracellular signal-related kinase (ERK1), Akt Ser473, mammalian target of rapamycin (mTOR) Ser2448, activity-regulated cytoskeleton-associated protein (Arc/Arg 3.1) and brain-derived neurotrophic factor (BDNF) in response to anthocyanin treatment, whilst α-E-catenin, c-Jun N-terminal kinase (JNK1) and p38 protein levels decreased. Together, these findings suggest that purified anthocyanin consumption enhances spatial learning and motor coordination in aged animals and can be attributed to the modulation of key synaptic proteins, which support integrity and maintenance of synaptic function.
topic flavonoids
brain
signalling
cognition
neuroprotection
url https://www.mdpi.com/2076-3921/10/8/1235
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