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Phase separation modulates the functional amyloid assembly of human CPEB3

Daniel Ramírez de Mingo, Paula López-García, María Eugenia Vaquero, Rubén Hervás, Douglas V. Laurents, Mariano Carrión‐Vázquez

2023Progress in Neurobiology10 citationsDOIOpen Access PDF

Abstract

How functional amyloids are regulated to restrict their activity is poorly understood. The cytoplasmic polyadenylation element-binding protein 3 (CPEB3) is an RNA-binding protein that adopts an amyloid state key for memory persistence. Its monomer represses the translation of synaptic target mRNAs while phase separated, whereas its aggregated state acts as a translational activator. Here, we have explored the sequence-driven molecular determinants behind the functional aggregation of human CPEB3 (hCPEB3). We found that the intrinsically disordered region (IDR) of hCPEB3 encodes both an amyloidogenic and a phase separation domain, separated by a poly-A-rich region. The hCPEB3 amyloid core is composed by a hydrophobic region instead of the Q-rich stretch found in the Drosophila orthologue. The hCPEB3 phase separation domain relies on hydrophobic interactions with ionic strength dependence, and its droplet ageing process leads to a liquid-to-solid transition with the formation of a non-fibril-based hydrogel surrounded by starburst droplets. Furthermore, we demonstrate the differential behavior of the protein depending on its environment. Under physiological-like conditions, hCPEB3 can establish additional electrostatic interactions with ions, increasing the stability of its liquid droplets and driving a condensation-based amyloid pathway.

Topics & Concepts

BiophysicsChemistryFibrilAmyloid (mycology)PolyadenylationRNACytoplasmBiochemistryBiologyInorganic chemistryGeneRNA Research and SplicingRNA modifications and cancerRNA regulation and disease