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Intercellular Transmission of a Synthetic Bacterial Cytotoxic Prion-Like Protein in Mammalian Cells

Aida Revilla-García, Cristina Fernández, María Moreno‐del Álamo, Vivian de los Rı́os, Ina Vorberg, Rafael Giraldo

2020mBio17 citationsDOIOpen Access PDF

Abstract

Proteotoxic amyloid seeds can be transmitted between mammalian cells, arguing that the intercellular exchange of prion-like protein aggregates can be a common phenomenon. RepA-WH1 is derived from a bacterial intracellular functional amyloid protein, engineered to become cytotoxic in Escherichia coli . Here, we have studied if such bacterial aggregates can also be transmitted to, and become cytotoxic to, mammalian cells. We demonstrate that RepA-WH1 is capable of entering naive cells, thereby inducing the cytotoxic aggregation of a soluble RepA-WH1 variant expressed in the cytosol, following the same trend that had been described in bacteria. These findings highlight the universality of one of the central principles underlying prion biology: No matter the biological origin of a given prion-like protein, it can be transmitted to a phylogenetically unrelated recipient cell, provided that the latter expresses a soluble protein onto which the incoming protein can readily template its amyloid conformation.

Topics & Concepts

Cytotoxic T cellIntracellularBiologyCell biologyCytosolCytoplasmEscherichia coliAmyloid (mycology)Protein aggregationIntracellular parasiteChemistryBiochemistryIn vitroGeneBotanyEnzymePrion Diseases and Protein MisfoldingAlzheimer's disease research and treatmentsTrace Elements in Health
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