Protein-lipid interaction at low pH induces oligomerization of the MakA cytotoxin from Vibrio cholerae

The α-pore-forming toxins (α-PFTs) from pathogenic bacteria damage host cell membranes by pore formation. We demonstrate a remarkable, hitherto unknown mechanism by an α-PFT protein from . As part of the MakA/B/E tripartite toxin, MakA is involved in membrane pore formation similar to other α-PFTs....

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Veröffentlicht in:eLife 2022-02, Vol.11
Hauptverfasser: Nadeem, Aftab, Berg, Alexandra, Pace, Hudson, Alam, Athar, Toh, Eric, Ådén, Jörgen, Zlatkov, Nikola, Myint, Si Lhyam, Persson, Karina, Gröbner, Gerhard, Sjöstedt, Anders, Bally, Marta, Barandun, Jonas, Uhlin, Bernt Eric, Wai, Sun Nyunt
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Sprache:eng
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Zusammenfassung:The α-pore-forming toxins (α-PFTs) from pathogenic bacteria damage host cell membranes by pore formation. We demonstrate a remarkable, hitherto unknown mechanism by an α-PFT protein from . As part of the MakA/B/E tripartite toxin, MakA is involved in membrane pore formation similar to other α-PFTs. In contrast, MakA in isolation induces tube-like structures in acidic endosomal compartments of epithelial cells in vitro. The present study unravels the dynamics of tubular growth, which occurs in a pH-, lipid-, and concentration-dependent manner. Within acidified organelle lumens or when incubated with cells in acidic media, MakA forms oligomers and remodels membranes into high-curvature tubes leading to loss of membrane integrity. A 3.7 Å cryo-electron microscopy structure of MakA filaments reveals a unique protein-lipid superstructure. MakA forms a pinecone-like spiral with a central cavity and a thin annular lipid bilayer embedded between the MakA transmembrane helices in its active α-PFT conformation. Our study provides insights into a novel tubulation mechanism of an α-PFT protein and a new mode of action by a secreted bacterial toxin.
ISSN:2050-084X
2050-084X
DOI:10.7554/ELIFE.73439