The Possibility of Pore Formation in Lipid Membranes by Several Molecules of Amphipathic Peptides

IF 1.1 Q4 CELL BIOLOGY Biochemistry (Moscow), Supplement Series A: Membrane and Cell Biology Pub Date : 2022-12-09 DOI:10.1134/S1990747822050087

O. V. Kondrashov, S. A. Akimov

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引用次数: 2

Abstract

Antimicrobial activity of some amphipathic peptides is associated with the formation of through pores in bacterial membranes. Antimicrobial peptides (AMPs) specifically bind to the plasma membrane by incorporating their hydrophobic regions into the outer lipid monolayer. The membrane is inevitably deformed. Many AMPs form so-called toroidal pores, the edge of which is partially lined with peptide molecules. The edge of the pore is characterized by significant deformations. In this work, we calculated the energy of the pore edge, with amphipathic peptides located on the pore equator, as well as the energy of deformations induced by AMP in a planar lipid bilayer. It was shown that for certain physicochemical and geometric characteristics of the AMP molecule the energy of the pore, on the equator of which two or more peptide molecules are located, can be lower than the energy of deformations induced in the planar bilayer by the same number of peptide molecules. Thus, two AMP molecules can, in principle, form a through pore in the membrane, although this is possible only in a fairly narrow range of physicochemical and geometric characteristics of the peptides.

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几种两亲肽分子在脂质膜上形成孔的可能性

一些两性肽的抗菌活性与细菌膜上的通孔形成有关。抗菌肽(AMPs)通过将其疏水区域结合到外脂质单分子层中特异性地结合到质膜上。膜不可避免地会变形。许多amp形成所谓的环状孔，其边缘部分排列着肽分子。孔隙边缘具有明显的变形特征。在这项工作中，我们计算了位于孔隙赤道上的两性肽的孔隙边缘能量，以及AMP在平面脂质双分子层中引起的变形能量。结果表明，由于AMP分子的某些物理化学和几何特性，位于两个或多个肽分子的赤道孔的能量可以低于由相同数量的肽分子引起的平面双分子层变形的能量。因此，原则上两个AMP分子可以在膜上形成一个通孔，尽管这仅在肽的物理化学和几何特征的相当狭窄的范围内是可能的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Biochemistry (Moscow), Supplement Series A: Membrane and Cell Biology CELL BIOLOGY-

CiteScore

1.40

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0.00%

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期刊介绍： Biochemistry (Moscow), Supplement Series A: Membrane and Cell Biology is an international peer reviewed journal that publishes original articles on physical, chemical, and molecular mechanisms that underlie basic properties of biological membranes and mediate membrane-related cellular functions. The primary topics of the journal are membrane structure, mechanisms of membrane transport, bioenergetics and photobiology, intracellular signaling as well as membrane aspects of cell biology, immunology, and medicine. The journal is multidisciplinary and gives preference to those articles that employ a variety of experimental approaches, basically in biophysics but also in biochemistry, cytology, and molecular biology. The journal publishes articles that strive for unveiling membrane and cellular functions through innovative theoretical models and computer simulations.

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