胆固醇对脂质双层中横向扩散和垂直波动的影响。一项电子-电子双共振（ELDOR）研究。

The effects of cholesterol on lateral diffusion and vertical fluctuations in lipid bilayers. An electron-electron double resonance (ELDOR) study.

作者信息

Yin J J, Feix J B, Hyde J S

机构信息

National Biomedical ESR Center, Department of Radiology, Medical College of Wisconsin, Milwaukee 53226.

出版信息

Biophys J. 1987 Dec;52(6):1031-8. doi: 10.1016/S0006-3495(87)83296-4.

DOI:10.1016/S0006-3495(87)83296-4

PMID:2827800

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1330102/

Abstract

Electron-electron double resonance (ELDOR) and saturation-recovery spectroscopy employing 14N:15N stearic acid spin-label pairs have been used to study the effects of cholesterol on lateral diffusion and vertical fluctuations in lipid bilayers. The 14N:15N continuous wave electron-electron double resonance (CW ELDOR) theory has been developed using rate equations based on the relaxation model. The collision frequency between 14N-16 doxyl stearate and 15N-16 doxyl stearate, WHex (16:16), is indicative of lateral diffusion of the spin probes, while the collision frequency between 14N-16 doxyl stearate and 15N-5 doxyl stearate, WHex (16:5), provides information on vertical fluctuations of the 14N-16 doxyl stearate spin probe toward the membrane surface. Our results show that: (a) cholesterol decreases the electron spin-lattice relaxation time Tle of 14N-16 doxyl stearate spin label in dimyristoylphosphatidylcholine (DMPC) and egg yolk phosphatidylcholine (egg PC). (b) Cholesterol increases the biomolecular collision frequency WHex (16:16) and decreases WHex (16:5), suggesting that incorporation of cholesterol significantly orders the part of the bilayer that it occupies and disorders the interior region of the bilayer. (c) Alkyl chain unsaturation of the host lipid moderates the effect of cholesterol on both vertical fluctuations and lateral diffusion of 14N-16 doxyl stearate. And (d), there are marked differences in the effects of cholesterol on lateral diffusion and vertical fluctuations between 0-30 mol% and 30-50 mol% of cholesterol that suggest an inhomogeneous distribution of cholesterol in the membrane.

摘要

利用14N:15N硬脂酸自旋标记对的电子-电子双共振（ELDOR）和饱和恢复光谱法研究了胆固醇对脂质双层中横向扩散和垂直波动的影响。基于弛豫模型，利用速率方程建立了14N:15N连续波电子-电子双共振（CW ELDOR）理论。14N-16-多氧硬脂酸盐与15N-16-多氧硬脂酸盐之间的碰撞频率WHex(16:16)可指示自旋探针的横向扩散，而14N-16-多氧硬脂酸盐与15N-5-多氧硬脂酸盐之间的碰撞频率WHex(16:5)则提供了14N-16-多氧硬脂酸盐自旋探针朝向膜表面垂直波动的信息。我们的结果表明：（a）胆固醇降低了二肉豆蔻酰磷脂酰胆碱（DMPC）和蛋黄磷脂酰胆碱（蛋黄PC）中14N-16-多氧硬脂酸盐自旋标记的电子自旋-晶格弛豫时间T1e。（b）胆固醇增加了生物分子碰撞频率WHex(16:16)并降低了WHex(16:5)，这表明胆固醇的掺入显著使它所占据的双层部分有序化，并使双层内部区域无序化。（c）主体脂质的烷基链不饱和度减轻了胆固醇对14N-16-多氧硬脂酸盐垂直波动和横向扩散的影响。并且（d），胆固醇在0-30 mol%和30-50 mol%时对横向扩散和垂直波动的影响存在显著差异，这表明胆固醇在膜中分布不均匀。

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