Biomimetic supported lipid bilayers with high cholesterol content formed by α-helical peptide-induced vesicle fusion.

Gregory J Hardy, Rahul Nayak, S Munir Alam, Joseph G Shapter, Frank Heinrich, Stefan Zauscher
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Abstract

In this study, we present a technique to create a complex, high cholesterol-containing supported lipid bilayers (SLBs) using α-helical (AH) peptide-induced vesicle fusion. Vesicles consisting of POPC : POPE : POPS : SM : Chol (9.35 : 19.25 : 8.25 : 18.15 : 45.00) were used to form a SLB that models the native composition of the human immunodeficiency virus-1 (HIV-1) lipid envelope. In the absence of AH peptides, these biomimetic vesicles fail to form a complete SLB. We verified and characterized AH peptide-induced vesicle fusion by quartz crystal microbalance with dissipation monitoring, neutron reflectivity, and atomic force microscopy. Successful SLB formation entailed a characteristic frequency shift of -35.4 ± 2.0 Hz and a change in dissipation energy of 1.91 ± 0.52 × 10-6. Neutron reflectivity measurements determined the SLB thickness to be 49.9 +1.9-1.5 Å, and showed the SLB to be 100 +0.0-0.1% complete and void of residual AH peptide after washing. Atomic force microscopy imaging confirmed complete SLB formation and revealed three distinct domains with no visible defects. This vesicle fusion technique gives researchers access to a complex SLB composition with high cholesterol content and thus the ability to better recapitulate the native HIV-1 lipid membrane.

α螺旋肽诱导囊泡融合形成的高胆固醇含量仿生支撑脂质双分子层。
在本研究中,我们介绍了一种利用α-螺旋(AH)肽诱导的囊泡融合技术来创建复杂的高胆固醇支撑脂质双分子层(SLB)的技术。由 POPC : POPE : POPS : SM : Chol (9.35 : 19.25 : 8.25 : 18.15 : 45.00) 组成的囊泡被用来形成模拟人类免疫缺陷病毒-1(HIV-1)脂质包膜原生成分的支撑脂质双层膜(SLB)。在缺乏 AH 肽的情况下,这些仿生囊泡无法形成完整的 SLB。我们通过石英晶体微天平耗散监测、中子反射和原子力显微镜验证并鉴定了AH肽诱导的囊泡融合。SLB的成功形成需要-35.4 ± 2.0 Hz的特征频率偏移和1.91 ± 0.52 × 10-6的耗散能量变化。中子反射率测量确定 SLB 厚度为 49.9 +1.9-1.5 Å,并显示 SLB 的完整度为 100 +0.0-0.1%,且在清洗后没有残留的 AH 肽。原子力显微镜成像证实了 SLB 的完整形成,并显示出三个不同的畴,没有明显的缺陷。这种囊泡融合技术使研究人员能够获得高胆固醇含量的复杂SLB成分,从而能够更好地再现原生HIV-1脂膜。
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
Journal of Materials Chemistry
Journal of Materials Chemistry 工程技术-材料科学:综合
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1.5 months
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