The Cellular Prion Protein—ROCK Connection: Contribution to Neuronal Homeostasis and Neurodegenerative Diseases

The Cellular Prion Protein—ROCK Connection: Contribution to Neuronal Homeostasis and Neurodegenerative Diseases

Amyloid-based neurodegenerative diseases such as prion, Alzheimer's, and Parkinson's diseases have distinct etiologies and clinical manifestations, but they share common pathological events. These diseases are caused by abnormally folded proteins (pathogenic prions PrPSc in prion diseases,...

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Main Authors: Benoit Schneider, Anne Baudry, Mathéa Pietri, Aurélie Alleaume-Butaux, Chloé Bizingre, Pierre Nioche, Odile Kellermann, Jean-Marie Launay
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-04-01
Series:Frontiers in Cellular Neuroscience
Subjects:
prion
signaling
neuronal differentiation
cytoskeleton
inflammation
unfolded protein response
Online Access:https://www.frontiersin.org/articles/10.3389/fncel.2021.660683/full
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spelling doaj-b12abf07f59a4a9a925fce07329b3a9c2021-04-12T05:17:39ZengFrontiers Media S.A.Frontiers in Cellular Neuroscience1662-51022021-04-011510.3389/fncel.2021.660683660683The Cellular Prion Protein—ROCK Connection: Contribution to Neuronal Homeostasis and Neurodegenerative DiseasesBenoit Schneider0Benoit Schneider1Anne Baudry2Anne Baudry3Mathéa Pietri4Mathéa Pietri5Aurélie Alleaume-Butaux6Aurélie Alleaume-Butaux7Aurélie Alleaume-Butaux8Chloé Bizingre9Chloé Bizingre10Pierre Nioche11Pierre Nioche12Pierre Nioche13Odile Kellermann14Odile Kellermann15Jean-Marie Launay16Jean-Marie Launay17Inserm UMR-S1124, Paris, FranceUniversité de Paris, Faculté des Sciences, Paris, FranceInserm UMR-S1124, Paris, FranceUniversité de Paris, Faculté des Sciences, Paris, FranceInserm UMR-S1124, Paris, FranceUniversité de Paris, Faculté des Sciences, Paris, FranceInserm UMR-S1124, Paris, FranceUniversité de Paris, Faculté des Sciences, Paris, FranceUniversité de Paris - BioMedTech Facilities- INSERM US36 | CNRS UMS2009 - Structural and Molecular Analysis Platform, Paris, FranceInserm UMR-S1124, Paris, FranceUniversité de Paris, Faculté des Sciences, Paris, FranceInserm UMR-S1124, Paris, FranceUniversité de Paris, Faculté des Sciences, Paris, FranceUniversité de Paris - BioMedTech Facilities- INSERM US36 | CNRS UMS2009 - Structural and Molecular Analysis Platform, Paris, FranceInserm UMR-S1124, Paris, FranceUniversité de Paris, Faculté des Sciences, Paris, FranceInserm UMR 942, Hôpital Lariboisière, Paris, FrancePharma Research Department, Hoffmann-La-Roche Ltd., Basel, SwitzerlandAmyloid-based neurodegenerative diseases such as prion, Alzheimer's, and Parkinson's diseases have distinct etiologies and clinical manifestations, but they share common pathological events. These diseases are caused by abnormally folded proteins (pathogenic prions PrPSc in prion diseases, β-amyloids/Aβ and Tau in Alzheimer's disease, α-synuclein in Parkinson's disease) that display β-sheet-enriched structures, propagate and accumulate in the nervous central system, and trigger neuronal death. In prion diseases, PrPSc-induced corruption of the physiological functions exerted by normal cellular prion proteins (PrPC) present at the cell surface of neurons is at the root of neuronal death. For a decade, PrPC emerges as a common cell surface receptor for other amyloids such as Aβ and α-synuclein, which relays, at least in part, their toxicity. In lipid-rafts of the plasma membrane, PrPC exerts a signaling function and controls a set of effectors involved in neuronal homeostasis, among which are the RhoA-associated coiled-coil containing kinases (ROCKs). Here we review (i) how PrPC controls ROCKs, (ii) how PrPC-ROCK coupling contributes to neuronal homeostasis, and (iii) how the deregulation of the PrPC-ROCK connection in amyloid-based neurodegenerative diseases triggers a loss of neuronal polarity, affects neurotransmitter-associated functions, contributes to the endoplasmic reticulum stress cascade, renders diseased neurons highly sensitive to neuroinflammation, and amplifies the production of neurotoxic amyloids.https://www.frontiersin.org/articles/10.3389/fncel.2021.660683/fullprionsignalingneuronal differentiationcytoskeletoninflammationunfolded protein response
collection DOAJ
language English
format Article
sources DOAJ
author Benoit Schneider
Benoit Schneider
Anne Baudry
Anne Baudry
Mathéa Pietri
Mathéa Pietri
Aurélie Alleaume-Butaux
Aurélie Alleaume-Butaux
Aurélie Alleaume-Butaux
Chloé Bizingre
Chloé Bizingre
Pierre Nioche
Pierre Nioche
Pierre Nioche
Odile Kellermann
Odile Kellermann
Jean-Marie Launay
Jean-Marie Launay
spellingShingle Benoit Schneider
Benoit Schneider
Anne Baudry
Anne Baudry
Mathéa Pietri
Mathéa Pietri
Aurélie Alleaume-Butaux
Aurélie Alleaume-Butaux
Aurélie Alleaume-Butaux
Chloé Bizingre
Chloé Bizingre
Pierre Nioche
Pierre Nioche
Pierre Nioche
Odile Kellermann
Odile Kellermann
Jean-Marie Launay
Jean-Marie Launay
The Cellular Prion Protein—ROCK Connection: Contribution to Neuronal Homeostasis and Neurodegenerative Diseases
Frontiers in Cellular Neuroscience
prion
signaling
neuronal differentiation
cytoskeleton
inflammation
unfolded protein response
author_facet Benoit Schneider
Benoit Schneider
Anne Baudry
Anne Baudry
Mathéa Pietri
Mathéa Pietri
Aurélie Alleaume-Butaux
Aurélie Alleaume-Butaux
Aurélie Alleaume-Butaux
Chloé Bizingre
Chloé Bizingre
Pierre Nioche
Pierre Nioche
Pierre Nioche
Odile Kellermann
Odile Kellermann
Jean-Marie Launay
Jean-Marie Launay
author_sort Benoit Schneider
title The Cellular Prion Protein—ROCK Connection: Contribution to Neuronal Homeostasis and Neurodegenerative Diseases
title_short The Cellular Prion Protein—ROCK Connection: Contribution to Neuronal Homeostasis and Neurodegenerative Diseases
title_full The Cellular Prion Protein—ROCK Connection: Contribution to Neuronal Homeostasis and Neurodegenerative Diseases
title_fullStr The Cellular Prion Protein—ROCK Connection: Contribution to Neuronal Homeostasis and Neurodegenerative Diseases
title_full_unstemmed The Cellular Prion Protein—ROCK Connection: Contribution to Neuronal Homeostasis and Neurodegenerative Diseases
title_sort cellular prion protein—rock connection: contribution to neuronal homeostasis and neurodegenerative diseases
publisher Frontiers Media S.A.
series Frontiers in Cellular Neuroscience
issn 1662-5102
publishDate 2021-04-01
description Amyloid-based neurodegenerative diseases such as prion, Alzheimer's, and Parkinson's diseases have distinct etiologies and clinical manifestations, but they share common pathological events. These diseases are caused by abnormally folded proteins (pathogenic prions PrPSc in prion diseases, β-amyloids/Aβ and Tau in Alzheimer's disease, α-synuclein in Parkinson's disease) that display β-sheet-enriched structures, propagate and accumulate in the nervous central system, and trigger neuronal death. In prion diseases, PrPSc-induced corruption of the physiological functions exerted by normal cellular prion proteins (PrPC) present at the cell surface of neurons is at the root of neuronal death. For a decade, PrPC emerges as a common cell surface receptor for other amyloids such as Aβ and α-synuclein, which relays, at least in part, their toxicity. In lipid-rafts of the plasma membrane, PrPC exerts a signaling function and controls a set of effectors involved in neuronal homeostasis, among which are the RhoA-associated coiled-coil containing kinases (ROCKs). Here we review (i) how PrPC controls ROCKs, (ii) how PrPC-ROCK coupling contributes to neuronal homeostasis, and (iii) how the deregulation of the PrPC-ROCK connection in amyloid-based neurodegenerative diseases triggers a loss of neuronal polarity, affects neurotransmitter-associated functions, contributes to the endoplasmic reticulum stress cascade, renders diseased neurons highly sensitive to neuroinflammation, and amplifies the production of neurotoxic amyloids.
topic prion
signaling
neuronal differentiation
cytoskeleton
inflammation
unfolded protein response
url https://www.frontiersin.org/articles/10.3389/fncel.2021.660683/full
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