Molecular electroporation: A unifying concept for the description of membrane pore formation by antibacterial peptides, exemplified with NK-lysin

Maria Miteva; Mats Andersson; Andrey Karshikoff; Gottfried Otting

doi:10.1016/S0014-5793(99)01520-3

Molecular electroporation: A unifying concept for the description of membrane pore formation by antibacterial peptides, exemplified with NK-lysin

Maria Miteva, Mats Andersson, Andrey Karshikoff^*, Gottfried Otting

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

111 Citations (Scopus)

Abstract

The antibacterial activity of many small, positively charged peptides and proteins is based on pore formation in lipid bilayers. It is here proposed to arise from an electroporation effect. This hypothesis is supported by calculations of the electrostatic potential of NK-lysin associated to a membrane. For a significant area of the protein-membrane interface, the electrostatic potential is found to be above the minimum threshold for electroporation. A single highly charged α-helical segment of NK-lysin is mainly responsible for this effect. It is experimentally demonstrated that a peptide comprising this helix has antibacterial activity. We propose that superficial association to membranes suffices to trigger electroporation, provided the peptide is sufficiently charged. The effect is referred to as molecular electroporation.

Original language	English
Pages (from-to)	155-158
Number of pages	4
Journal	FEBS Letters
Volume	462
Issue number	1-2
DOIs	https://doi.org/10.1016/S0014-5793(99)01520-3
Publication status	Published - 26 Nov 1999
Externally published	Yes

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title = "Molecular electroporation: A unifying concept for the description of membrane pore formation by antibacterial peptides, exemplified with NK-lysin",

abstract = "The antibacterial activity of many small, positively charged peptides and proteins is based on pore formation in lipid bilayers. It is here proposed to arise from an electroporation effect. This hypothesis is supported by calculations of the electrostatic potential of NK-lysin associated to a membrane. For a significant area of the protein-membrane interface, the electrostatic potential is found to be above the minimum threshold for electroporation. A single highly charged α-helical segment of NK-lysin is mainly responsible for this effect. It is experimentally demonstrated that a peptide comprising this helix has antibacterial activity. We propose that superficial association to membranes suffices to trigger electroporation, provided the peptide is sufficiently charged. The effect is referred to as molecular electroporation.",

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T2 - A unifying concept for the description of membrane pore formation by antibacterial peptides, exemplified with NK-lysin

AU - Miteva, Maria

AU - Andersson, Mats

AU - Karshikoff, Andrey

AU - Otting, Gottfried

PY - 1999/11/26

Y1 - 1999/11/26

N2 - The antibacterial activity of many small, positively charged peptides and proteins is based on pore formation in lipid bilayers. It is here proposed to arise from an electroporation effect. This hypothesis is supported by calculations of the electrostatic potential of NK-lysin associated to a membrane. For a significant area of the protein-membrane interface, the electrostatic potential is found to be above the minimum threshold for electroporation. A single highly charged α-helical segment of NK-lysin is mainly responsible for this effect. It is experimentally demonstrated that a peptide comprising this helix has antibacterial activity. We propose that superficial association to membranes suffices to trigger electroporation, provided the peptide is sufficiently charged. The effect is referred to as molecular electroporation.

AB - The antibacterial activity of many small, positively charged peptides and proteins is based on pore formation in lipid bilayers. It is here proposed to arise from an electroporation effect. This hypothesis is supported by calculations of the electrostatic potential of NK-lysin associated to a membrane. For a significant area of the protein-membrane interface, the electrostatic potential is found to be above the minimum threshold for electroporation. A single highly charged α-helical segment of NK-lysin is mainly responsible for this effect. It is experimentally demonstrated that a peptide comprising this helix has antibacterial activity. We propose that superficial association to membranes suffices to trigger electroporation, provided the peptide is sufficiently charged. The effect is referred to as molecular electroporation.

KW - Electroporation

KW - Electrostatic interaction

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KW - Protein-membrane interaction

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U2 - 10.1016/S0014-5793(99)01520-3

DO - 10.1016/S0014-5793(99)01520-3

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VL - 462

SP - 155

EP - 158

JO - FEBS Letters

JF - FEBS Letters

IS - 1-2

ER -

Molecular electroporation: A unifying concept for the description of membrane pore formation by antibacterial peptides, exemplified with NK-lysin

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