Divergent CPEB prion-like domains reveal different assembly mechanisms for a generic amyloid-like fold

Divergent CPEB prion-like domains reveal different assembly mechanisms for a generic amyloid-like fold

Abstract Background Amyloids are ordered, insoluble protein aggregates, characterized by a cross-β sheet quaternary structure in which molecules in a β-strand conformation are stacked along the filament axis via intermolecular interactions. While amyloids are typically associated with pathological c...

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Main Authors: Rubén Hervás, María del Carmen Fernández-Ramírez, Albert Galera-Prat, Mari Suzuki, Yoshitaka Nagai, Marta Bruix, Margarita Menéndez, Douglas V. Laurents, Mariano Carrión-Vázquez
Format: Article
Language:English
Published: BMC 2021-03-01
Series:BMC Biology
Subjects:
Cytoplasmic polyadenylation element binding protein (CPEB)
Functional amyloids
Prion-like protein
Memory persistence
Coiled coil
Online Access:https://doi.org/10.1186/s12915-021-00967-9
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spelling doaj-424f921c44eb4d14bf0ae0e29dc080502021-03-14T12:15:25ZengBMCBMC Biology1741-70072021-03-0119111410.1186/s12915-021-00967-9Divergent CPEB prion-like domains reveal different assembly mechanisms for a generic amyloid-like foldRubén Hervás0María del Carmen Fernández-Ramírez1Albert Galera-Prat2Mari Suzuki3Yoshitaka Nagai4Marta Bruix5Margarita Menéndez6Douglas V. Laurents7Mariano Carrión-Vázquez8Instituto Cajal, IC-CSICInstituto Cajal, IC-CSICInstituto Cajal, IC-CSICDepartment of Degenerative Neurological Diseases, National Institute of Neuroscience, National Center of Neurology and PsychiatryDepartment of Degenerative Neurological Diseases, National Institute of Neuroscience, National Center of Neurology and PsychiatryInstituto de Química-Física Rocasolano, IQFR-CSICInstituto de Química-Física Rocasolano, IQFR-CSICInstituto de Química-Física Rocasolano, IQFR-CSICInstituto Cajal, IC-CSICAbstract Background Amyloids are ordered, insoluble protein aggregates, characterized by a cross-β sheet quaternary structure in which molecules in a β-strand conformation are stacked along the filament axis via intermolecular interactions. While amyloids are typically associated with pathological conditions, functional amyloids have also been identified and are present in a wide variety of organisms ranging from bacteria to humans. The cytoplasmic polyadenylation element-binding (CPEB) prion-like protein is an mRNA-binding translation regulator, whose neuronal isoforms undergo activity-dependent aggregation, a process that has emerged as a plausible biochemical substrate for memory maintenance. CPEB aggregation is driven by prion-like domains (PLD) that are divergent in sequence across species, and it remains unknown whether such divergent PLDs follow a similar aggregating assembly pathway. Here, we describe the amyloid-like features of the neuronal Aplysia CPEB (ApCPEB) PLD and compare them to those of the Drosophila ortholog, Orb2 PLD. Results Using in vitro single-molecule and bulk biophysical methods, we find transient oligomers and mature amyloid-like filaments that suggest similarities in the late stages of the assembly pathway for both ApCPEB and Orb2 PLDs. However, while prior to aggregation the Orb2 PLD monomer remains mainly as a random coil in solution, ApCPEB PLD adopts a diversity of conformations comprising α-helical structures that evolve to coiled-coil species, indicating structural differences at the beginning of their amyloid assembly pathways. Conclusion Our results indicate that divergent PLDs of CPEB proteins from different species retain the ability to form a generic amyloid-like fold through different assembly mechanisms.https://doi.org/10.1186/s12915-021-00967-9Cytoplasmic polyadenylation element binding protein (CPEB)Functional amyloidsPrion-like proteinMemory persistenceCoiled coil
collection DOAJ
language English
format Article
sources DOAJ
author Rubén Hervás
María del Carmen Fernández-Ramírez
Albert Galera-Prat
Mari Suzuki
Yoshitaka Nagai
Marta Bruix
Margarita Menéndez
Douglas V. Laurents
Mariano Carrión-Vázquez
spellingShingle Rubén Hervás
María del Carmen Fernández-Ramírez
Albert Galera-Prat
Mari Suzuki
Yoshitaka Nagai
Marta Bruix
Margarita Menéndez
Douglas V. Laurents
Mariano Carrión-Vázquez
Divergent CPEB prion-like domains reveal different assembly mechanisms for a generic amyloid-like fold
BMC Biology
Cytoplasmic polyadenylation element binding protein (CPEB)
Functional amyloids
Prion-like protein
Memory persistence
Coiled coil
author_facet Rubén Hervás
María del Carmen Fernández-Ramírez
Albert Galera-Prat
Mari Suzuki
Yoshitaka Nagai
Marta Bruix
Margarita Menéndez
Douglas V. Laurents
Mariano Carrión-Vázquez
author_sort Rubén Hervás
title Divergent CPEB prion-like domains reveal different assembly mechanisms for a generic amyloid-like fold
title_short Divergent CPEB prion-like domains reveal different assembly mechanisms for a generic amyloid-like fold
title_full Divergent CPEB prion-like domains reveal different assembly mechanisms for a generic amyloid-like fold
title_fullStr Divergent CPEB prion-like domains reveal different assembly mechanisms for a generic amyloid-like fold
title_full_unstemmed Divergent CPEB prion-like domains reveal different assembly mechanisms for a generic amyloid-like fold
title_sort divergent cpeb prion-like domains reveal different assembly mechanisms for a generic amyloid-like fold
publisher BMC
series BMC Biology
issn 1741-7007
publishDate 2021-03-01
description Abstract Background Amyloids are ordered, insoluble protein aggregates, characterized by a cross-β sheet quaternary structure in which molecules in a β-strand conformation are stacked along the filament axis via intermolecular interactions. While amyloids are typically associated with pathological conditions, functional amyloids have also been identified and are present in a wide variety of organisms ranging from bacteria to humans. The cytoplasmic polyadenylation element-binding (CPEB) prion-like protein is an mRNA-binding translation regulator, whose neuronal isoforms undergo activity-dependent aggregation, a process that has emerged as a plausible biochemical substrate for memory maintenance. CPEB aggregation is driven by prion-like domains (PLD) that are divergent in sequence across species, and it remains unknown whether such divergent PLDs follow a similar aggregating assembly pathway. Here, we describe the amyloid-like features of the neuronal Aplysia CPEB (ApCPEB) PLD and compare them to those of the Drosophila ortholog, Orb2 PLD. Results Using in vitro single-molecule and bulk biophysical methods, we find transient oligomers and mature amyloid-like filaments that suggest similarities in the late stages of the assembly pathway for both ApCPEB and Orb2 PLDs. However, while prior to aggregation the Orb2 PLD monomer remains mainly as a random coil in solution, ApCPEB PLD adopts a diversity of conformations comprising α-helical structures that evolve to coiled-coil species, indicating structural differences at the beginning of their amyloid assembly pathways. Conclusion Our results indicate that divergent PLDs of CPEB proteins from different species retain the ability to form a generic amyloid-like fold through different assembly mechanisms.
topic Cytoplasmic polyadenylation element binding protein (CPEB)
Functional amyloids
Prion-like protein
Memory persistence
Coiled coil
url https://doi.org/10.1186/s12915-021-00967-9
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