Flotillin-mediated stabilization of unfolded proteins in bacterial membrane microdomains

Author:

Ukleja Marta,Kricks Lara,Torrens GabrielORCID,Peschiera Ilaria,Rodrigues-Lopes InesORCID,Krupka Marcin,García-Fernández JuliaORCID,Melero Roberto,del Campo RosaORCID,Eulalio AnaORCID,Mateus AndréORCID,López-Bravo María,Rico Ana I.ORCID,Cava FelipeORCID,Lopez DanielORCID

Abstract

AbstractThe function of many bacterial processes depends on the formation of functional membrane microdomains (FMMs), which resemble the lipid rafts of eukaryotic cells. However, the mechanism and the biological function of these membrane microdomains remain unclear. Here, we show that FMMs in the pathogen methicillin-resistant Staphylococcus aureus (MRSA) are dedicated to confining and stabilizing proteins unfolded due to cellular stress. The FMM scaffold protein flotillin forms a clamp-shaped oligomer that holds unfolded proteins, stabilizing them and favoring their correct folding. This process does not impose a direct energy cost on the cell and is crucial to survival of ATP-depleted bacteria, and thus to pathogenesis. Consequently, FMM disassembling causes the accumulation of unfolded proteins, which compromise MRSA viability during infection and cause penicillin re-sensitization due to PBP2a unfolding. Thus, our results indicate that FMMs mediate ATP-independent stabilization of unfolded proteins, which is essential for bacterial viability during infection.

Publisher

Springer Science and Business Media LLC

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