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- Title
Prion-like characteristics of the bacterial protein Microcin E492.
- Authors
Shahnawaz, Mohammad; Park, Kyung-Won; Mukherjee, Abhisek; Diaz-Espinoza, Rodrigo; Soto, Claudio
- Abstract
Microcin E492 (Mcc) is a pore-forming bacteriotoxin. Mcc activity is inhibited at the stationary phase by formation of amyloid-like aggregates in the culture. Here we report that, in a similar manner as prions, Mcc naturally exists as two conformers: a β-sheet-rich, protease-resistant, aggregated, inactive form (Mccia), and a soluble, protease-sensitive, active form (Mcca). The exogenous addition of culture medium containing Mccia or purified in vitro-generated Mccia into the culture induces the rapid and efficient conversion of Mcca into Mccia, which is maintained indefinitely after passaging, changing the bacterial phenotype. Mccia prion-like activity is conformation-dependent and could be reduced by immunodepleting Mccia. Interestingly, an internal region of Mcc shares sequence similarity with the central domain of the prion protein, which is key to the formation of mammalian prions. A synthetic peptide spanning this sequence forms amyloid-like fibrils in vitro and is capable of inducing the conversion of Mcca into Mccia in vivo, suggesting that this region corresponds to the prion domain of Mcc. Our findings suggest that Mcc is the first prokaryotic protein with prion properties which harnesses prion-like transmission to regulate protein function, suggesting that propagation of biological information using a prion-based conformational switch is an evolutionary conserved mechanism.
- Publication
Scientific Reports, 2017, p45720
- ISSN
2045-2322
- Publication type
Article
- DOI
10.1038/srep45720