Double-Edge Sword of Sustained ROCK Activation in Prion Diseases through Neuritogenesis Defects and Prion Accumulation.

Double-Edge Sword of Sustained ROCK Activation in Prion Diseases through Neuritogenesis Defects and Prion Accumulation.

In prion diseases, synapse dysfunction, axon retraction and loss of neuronal polarity precede neuronal death. The mechanisms driving such polarization defects, however, remain unclear. Here, we examined the contribution of RhoA-associated coiled-coil containing kinases (ROCK), key players in neurito...

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Main Authors: Aurélie Alleaume-Butaux, Simon Nicot, Mathéa Pietri, Anne Baudry, Caroline Dakowski, Philippe Tixador, Hector Ardila-Osorio, Anne-Marie Haeberlé, Yannick Bailly, Jean-Michel Peyrin, Jean-Marie Launay, Odile Kellermann, Benoit Schneider
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-08-01
Series:PLoS Pathogens
Online Access:http://europepmc.org/articles/PMC4524729?pdf=render
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spelling doaj-f1c7ab37f8994140b4f83ce0e621baa22020-11-25T02:35:19ZengPublic Library of Science (PLoS)PLoS Pathogens1553-73661553-73742015-08-01118e100507310.1371/journal.ppat.1005073Double-Edge Sword of Sustained ROCK Activation in Prion Diseases through Neuritogenesis Defects and Prion Accumulation.Aurélie Alleaume-ButauxSimon NicotMathéa PietriAnne BaudryCaroline DakowskiPhilippe TixadorHector Ardila-OsorioAnne-Marie HaeberléYannick BaillyJean-Michel PeyrinJean-Michel PeyrinJean-Marie LaunayOdile KellermannBenoit SchneiderIn prion diseases, synapse dysfunction, axon retraction and loss of neuronal polarity precede neuronal death. The mechanisms driving such polarization defects, however, remain unclear. Here, we examined the contribution of RhoA-associated coiled-coil containing kinases (ROCK), key players in neuritogenesis, to prion diseases. We found that overactivation of ROCK signaling occurred in neuronal stem cells infected by pathogenic prions (PrPSc) and impaired the sprouting of neurites. In reconstructed networks of mature neurons, PrPSc-induced ROCK overactivation provoked synapse disconnection and dendrite/axon degeneration. This overactivation of ROCK also disturbed overall neurotransmitter-associated functions. Importantly, we demonstrated that beyond its impact on neuronal polarity ROCK overactivity favored the production of PrPSc through a ROCK-dependent control of 3-phosphoinositide-dependent kinase 1 (PDK1) activity. In non-infectious conditions, ROCK and PDK1 associated within a complex and ROCK phosphorylated PDK1, conferring basal activity to PDK1. In prion-infected neurons, exacerbated ROCK activity increased the pool of PDK1 molecules physically interacting with and phosphorylated by ROCK. ROCK-induced PDK1 overstimulation then canceled the neuroprotective α-cleavage of normal cellular prion protein PrPC by TACE α-secretase, which physiologically precludes PrPSc production. In prion-infected cells, inhibition of ROCK rescued neurite sprouting, preserved neuronal architecture, restored neuronal functions and reduced the amount of PrPSc. In mice challenged with prions, inhibition of ROCK also lowered brain PrPSc accumulation, reduced motor impairment and extended survival. We conclude that ROCK overactivation exerts a double detrimental effect in prion diseases by altering neuronal polarity and triggering PrPSc accumulation. Eventually ROCK emerges as therapeutic target to combat prion diseases.http://europepmc.org/articles/PMC4524729?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Aurélie Alleaume-Butaux
Simon Nicot
Mathéa Pietri
Anne Baudry
Caroline Dakowski
Philippe Tixador
Hector Ardila-Osorio
Anne-Marie Haeberlé
Yannick Bailly
Jean-Michel Peyrin
Jean-Michel Peyrin
Jean-Marie Launay
Odile Kellermann
Benoit Schneider
spellingShingle Aurélie Alleaume-Butaux
Simon Nicot
Mathéa Pietri
Anne Baudry
Caroline Dakowski
Philippe Tixador
Hector Ardila-Osorio
Anne-Marie Haeberlé
Yannick Bailly
Jean-Michel Peyrin
Jean-Michel Peyrin
Jean-Marie Launay
Odile Kellermann
Benoit Schneider
Double-Edge Sword of Sustained ROCK Activation in Prion Diseases through Neuritogenesis Defects and Prion Accumulation.
PLoS Pathogens
author_facet Aurélie Alleaume-Butaux
Simon Nicot
Mathéa Pietri
Anne Baudry
Caroline Dakowski
Philippe Tixador
Hector Ardila-Osorio
Anne-Marie Haeberlé
Yannick Bailly
Jean-Michel Peyrin
Jean-Michel Peyrin
Jean-Marie Launay
Odile Kellermann
Benoit Schneider
author_sort Aurélie Alleaume-Butaux
title Double-Edge Sword of Sustained ROCK Activation in Prion Diseases through Neuritogenesis Defects and Prion Accumulation.
title_short Double-Edge Sword of Sustained ROCK Activation in Prion Diseases through Neuritogenesis Defects and Prion Accumulation.
title_full Double-Edge Sword of Sustained ROCK Activation in Prion Diseases through Neuritogenesis Defects and Prion Accumulation.
title_fullStr Double-Edge Sword of Sustained ROCK Activation in Prion Diseases through Neuritogenesis Defects and Prion Accumulation.
title_full_unstemmed Double-Edge Sword of Sustained ROCK Activation in Prion Diseases through Neuritogenesis Defects and Prion Accumulation.
title_sort double-edge sword of sustained rock activation in prion diseases through neuritogenesis defects and prion accumulation.
publisher Public Library of Science (PLoS)
series PLoS Pathogens
issn 1553-7366
1553-7374
publishDate 2015-08-01
description In prion diseases, synapse dysfunction, axon retraction and loss of neuronal polarity precede neuronal death. The mechanisms driving such polarization defects, however, remain unclear. Here, we examined the contribution of RhoA-associated coiled-coil containing kinases (ROCK), key players in neuritogenesis, to prion diseases. We found that overactivation of ROCK signaling occurred in neuronal stem cells infected by pathogenic prions (PrPSc) and impaired the sprouting of neurites. In reconstructed networks of mature neurons, PrPSc-induced ROCK overactivation provoked synapse disconnection and dendrite/axon degeneration. This overactivation of ROCK also disturbed overall neurotransmitter-associated functions. Importantly, we demonstrated that beyond its impact on neuronal polarity ROCK overactivity favored the production of PrPSc through a ROCK-dependent control of 3-phosphoinositide-dependent kinase 1 (PDK1) activity. In non-infectious conditions, ROCK and PDK1 associated within a complex and ROCK phosphorylated PDK1, conferring basal activity to PDK1. In prion-infected neurons, exacerbated ROCK activity increased the pool of PDK1 molecules physically interacting with and phosphorylated by ROCK. ROCK-induced PDK1 overstimulation then canceled the neuroprotective α-cleavage of normal cellular prion protein PrPC by TACE α-secretase, which physiologically precludes PrPSc production. In prion-infected cells, inhibition of ROCK rescued neurite sprouting, preserved neuronal architecture, restored neuronal functions and reduced the amount of PrPSc. In mice challenged with prions, inhibition of ROCK also lowered brain PrPSc accumulation, reduced motor impairment and extended survival. We conclude that ROCK overactivation exerts a double detrimental effect in prion diseases by altering neuronal polarity and triggering PrPSc accumulation. Eventually ROCK emerges as therapeutic target to combat prion diseases.
url http://europepmc.org/articles/PMC4524729?pdf=render
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