抗菌肽膜选择性的光谱学和热力学证据。

Spectroscopic and thermodynamic evidence for antimicrobial peptide membrane selectivity.

作者信息

Russell Amanda L, Kennedy Anthony M, Spuches Anne M, Venugopal Divakaramenon, Bhonsle Jayendra B, Hicks Rickey P

机构信息

Department of Chemistry, East Carolina University, Science and Technology Building, Greenville, NC 27858, USA.

出版信息

Chem Phys Lipids. 2010 Jun;163(6):488-97. doi: 10.1016/j.chemphyslip.2010.03.009. Epub 2010 Apr 1.

DOI:10.1016/j.chemphyslip.2010.03.009

PMID:20362562

Abstract

In our laboratory we developed a series of antimicrobial peptides that exhibit selectivity and potency for prokaryotic over eukaryotic cells (Hicks et al., 2007). Circular dichroism (CD), isothermal calorimetry (ITC) and calcein leakage assays were conducted to determine the mechanism of lipid binding of a representative peptide 1 (Ac-GF-Tic-Oic-GK-Tic-Oic-GF-Tic-Oic-GK-Tic-KKKK-CONH(2)) to model membranes. POPC liposomes were used as a simple model for eukaryotic membranes and 4:1 POPC:POPG liposomes were used as a simple model for prokaryotic membranes. CD, ITC and calcein leakage data clearly indicate that compound 1 interacts via very different mechanisms with the two different liposome membranes. Compound 1 exhibits weaker binding and induces less calcein leakage in POPC liposomes than POPC:POPG (4:1 mole ratio) liposomes. The predominant binding mechanism to POPC appears to be limited to surface interactions while the mechanism of binding to 4:1 POPC:POPG most likely involves some type of pore formation.

摘要

在我们实验室中，我们开发了一系列对原核细胞比对真核细胞具有选择性和强效性的抗菌肽（希克斯等人，2007年）。进行了圆二色性（CD）、等温滴定量热法（ITC）和钙黄绿素泄漏测定，以确定代表性肽1（Ac-GF-Tic-Oic-GK-Tic-Oic-GF-Tic-Oic-GK-Tic-KKKK-CONH₂）与模型膜的脂质结合机制。POPC脂质体用作真核细胞膜的简单模型，4:1的POPC:POPG脂质体用作原核细胞膜的简单模型。CD、ITC和钙黄绿素泄漏数据清楚地表明，化合物1与两种不同脂质体膜的相互作用机制非常不同。与POPC:POPG（4:1摩尔比）脂质体相比，化合物1在POPC脂质体中的结合较弱，诱导的钙黄绿素泄漏较少。与POPC的主要结合机制似乎仅限于表面相互作用，而与4:1 POPC:POPG的结合机制很可能涉及某种类型的孔形成。

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抗菌肽膜选择性的光谱学和热力学证据。

Spectroscopic and thermodynamic evidence for antimicrobial peptide membrane selectivity.

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