Prion protein inhibits fast axonal transport through a mechanism involving casein kinase 2.

Prion protein inhibits fast axonal transport through a mechanism involving casein kinase 2.

Prion diseases include a number of progressive neuropathies involving conformational changes in cellular prion protein (PrPc) that may be fatal sporadic, familial or infectious. Pathological evidence indicated that neurons affected in prion diseases follow a dying-back pattern of degeneration. Howev...

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Main Authors: Emiliano Zamponi, Fiamma Buratti, Gabriel Cataldi, Hector Hugo Caicedo, Yuyu Song, Lisa M Jungbauer, Mary J LaDu, Mariano Bisbal, Alfredo Lorenzo, Jiyan Ma, Pablo R Helguera, Gerardo A Morfini, Scott T Brady, Gustavo F Pigino
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2017-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5737884?pdf=render
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spelling doaj-9ec8a9f6cfde4b63934a882da4ebbb3c2020-11-25T01:24:05ZengPublic Library of Science (PLoS)PLoS ONE1932-62032017-01-011212e018834010.1371/journal.pone.0188340Prion protein inhibits fast axonal transport through a mechanism involving casein kinase 2.Emiliano ZamponiFiamma BurattiGabriel CataldiHector Hugo CaicedoYuyu SongLisa M JungbauerMary J LaDuMariano BisbalAlfredo LorenzoJiyan MaPablo R HelgueraGerardo A MorfiniScott T BradyGustavo F PiginoPrion diseases include a number of progressive neuropathies involving conformational changes in cellular prion protein (PrPc) that may be fatal sporadic, familial or infectious. Pathological evidence indicated that neurons affected in prion diseases follow a dying-back pattern of degeneration. However, specific cellular processes affected by PrPc that explain such a pattern have not yet been identified. Results from cell biological and pharmacological experiments in isolated squid axoplasm and primary cultured neurons reveal inhibition of fast axonal transport (FAT) as a novel toxic effect elicited by PrPc. Pharmacological, biochemical and cell biological experiments further indicate this toxic effect involves casein kinase 2 (CK2) activation, providing a molecular basis for the toxic effect of PrPc on FAT. CK2 was found to phosphorylate and inhibit light chain subunits of the major motor protein conventional kinesin. Collectively, these findings suggest CK2 as a novel therapeutic target to prevent the gradual loss of neuronal connectivity that characterizes prion diseases.http://europepmc.org/articles/PMC5737884?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Emiliano Zamponi
Fiamma Buratti
Gabriel Cataldi
Hector Hugo Caicedo
Yuyu Song
Lisa M Jungbauer
Mary J LaDu
Mariano Bisbal
Alfredo Lorenzo
Jiyan Ma
Pablo R Helguera
Gerardo A Morfini
Scott T Brady
Gustavo F Pigino
spellingShingle Emiliano Zamponi
Fiamma Buratti
Gabriel Cataldi
Hector Hugo Caicedo
Yuyu Song
Lisa M Jungbauer
Mary J LaDu
Mariano Bisbal
Alfredo Lorenzo
Jiyan Ma
Pablo R Helguera
Gerardo A Morfini
Scott T Brady
Gustavo F Pigino
Prion protein inhibits fast axonal transport through a mechanism involving casein kinase 2.
PLoS ONE
author_facet Emiliano Zamponi
Fiamma Buratti
Gabriel Cataldi
Hector Hugo Caicedo
Yuyu Song
Lisa M Jungbauer
Mary J LaDu
Mariano Bisbal
Alfredo Lorenzo
Jiyan Ma
Pablo R Helguera
Gerardo A Morfini
Scott T Brady
Gustavo F Pigino
author_sort Emiliano Zamponi
title Prion protein inhibits fast axonal transport through a mechanism involving casein kinase 2.
title_short Prion protein inhibits fast axonal transport through a mechanism involving casein kinase 2.
title_full Prion protein inhibits fast axonal transport through a mechanism involving casein kinase 2.
title_fullStr Prion protein inhibits fast axonal transport through a mechanism involving casein kinase 2.
title_full_unstemmed Prion protein inhibits fast axonal transport through a mechanism involving casein kinase 2.
title_sort prion protein inhibits fast axonal transport through a mechanism involving casein kinase 2.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2017-01-01
description Prion diseases include a number of progressive neuropathies involving conformational changes in cellular prion protein (PrPc) that may be fatal sporadic, familial or infectious. Pathological evidence indicated that neurons affected in prion diseases follow a dying-back pattern of degeneration. However, specific cellular processes affected by PrPc that explain such a pattern have not yet been identified. Results from cell biological and pharmacological experiments in isolated squid axoplasm and primary cultured neurons reveal inhibition of fast axonal transport (FAT) as a novel toxic effect elicited by PrPc. Pharmacological, biochemical and cell biological experiments further indicate this toxic effect involves casein kinase 2 (CK2) activation, providing a molecular basis for the toxic effect of PrPc on FAT. CK2 was found to phosphorylate and inhibit light chain subunits of the major motor protein conventional kinesin. Collectively, these findings suggest CK2 as a novel therapeutic target to prevent the gradual loss of neuronal connectivity that characterizes prion diseases.
url http://europepmc.org/articles/PMC5737884?pdf=render
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