Bacillus subtilis cardiolipin protects its own membrane against surfactin-induced permeabilization

Bacillus subtilis cardiolipin protects its own membrane against surfactin-induced permeabilization

Surfactin, a cyclic lipoheptapeptide produced by Bacillus subtilis, is a surface-active antimicrobial that targets the barrier function of lipid membranes. It inserts itself into the membrane, where it forms conductive pores. Depending on its concentration, it eventually disintegrates the membrane i...

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Published in:Biochimica et biophysica acta. Biomembranes Vol. 1862; no. 10; p. 183405
Main Authors: Pinkas, Dominik, Fišer, Radovan, Kozlík, Petr, Dolejšová, Tereza, Hryzáková, Klára, Konopásek, Ivo, Mikušová, Gabriela
Format: Journal Article
Language:English
Published: Netherlands Elsevier B.V 01-10-2020
Subjects:
Bacillus subtilis
Bacillus subtilis - metabolism
Cardiolipin
Cardiolipins - metabolism
Cell Membrane - metabolism
Cell Membrane Permeability
Lipopeptides - metabolism
Liposome
Liposomes
Membrane
Peptides, Cyclic - metabolism
Surfactin
Liposome
Membrane
Surfactin
Cardiolipin
Bacillus subtilis
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Summary:Surfactin, a cyclic lipoheptapeptide produced by Bacillus subtilis, is a surface-active antimicrobial that targets the barrier function of lipid membranes. It inserts itself into the membrane, where it forms conductive pores. Depending on its concentration, it eventually disintegrates the membrane in a detergent-like manner. The molecular details of this activity are not yet sufficiently understood, nor are the mechanisms that the surfactin producer employs to resist its own toxic product. We have previously shown that B. subtilis modifies its membrane lipid composition upon the onset of surfactin production, mainly increasing the cardiolipin content. Here we show that the increased cardiolipin content leads to a decreased surfactin-induced leakage of liposomes reconstituted from lipids isolated from the surfactin producer. This stabilizing effect of cardiolipin is concentration-dependent. Using a propidium iodide-based cell permeabilization assay, we further confirmed that the cytoplasmic membrane of the mutant B. subtilis strain lacking cardiolipin was substantially more susceptible to the action of surfactin, even though the amount of bound surfactin was the same as in the wild-type strain. We propose that membrane remodelling; due to the increase in cardiolipin content, contributes to the surfactin tolerance of B. subtilis. [Display omitted] •Rate of surfactin-induced lysis is slower in membranes of surfactin-adapted cells.•Cardiolipin stabilizes the most the liposome integrity against surfactin.•The stabilizing effect of cardiolipin is concentration-dependent and linear.•CL-depleted B. subtilis cells are prone to surfactin-induced permeabilization.
ISSN:0005-2736
1879-2642
DOI:10.1016/j.bbamem.2020.183405