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双极分子 25-羟胆固醇在空气/水界面的异常行为——用理论计算补充的Langmuir 单层方法。

Unusual Behavior of the Bipolar Molecule 25-Hydroxycholesterol at the Air/Water Interface-Langmuir Monolayer Approach Complemented with Theoretical Calculations.

机构信息

Faculty of Chemistry , Jagiellonian University , Gronostajowa 2 , 30-387 Kraków , Poland.

Department of Pharmaceutical Biophysics, Faculty of Pharmacy , Jagiellonian University Medical College , Medyczna 9 , 30-688 Kraków , Poland.

出版信息

J Phys Chem B. 2020 Feb 13;124(6):1104-1114. doi: 10.1021/acs.jpcb.9b10938. Epub 2020 Feb 3.

DOI:10.1021/acs.jpcb.9b10938
PMID:31972080
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7497659/
Abstract

In this study, 25-hydroxycholesterol (25-OH), a biamphiphilic compound with a wide range of biological activities, has been investigated at the air/water interface. We were interested in how two hydroxyl groups attached at distal positions of the 25-OH molecule (namely, at C(3) in the sterane system and at C(25) in the side chain) influence its surface behavior. Apart from traditional Langmuir monolayers, other complementary surface-sensitive techniques, such as electric surface potential measurements, Brewster angle microscopy (BAM, enabling texture visualization and film thickness measurements), and polarization modulation-infrared reflection-absorption spectroscopy (PM-IRRAS), were applied. Experimental data have been interpreted with the aid of theoretical study. Our results show that 25-OH molecules in the monomolecular layer are anchored to the water surface alternatively with C(3) or C(25) hydroxyl groups. Theoretical calculations revealed that the populations of these alternative orientations were not equal and molecules anchored with C(3) hydroxyl groups were found to be in excess. As a consequence of such an arrangement, surface films of 25-OH are of lower stability as compared to cholesterol (considered as a non-oxidized analogue of 25-OH). Moreover, it was found that, upon compression, the transition from mono- to bilayer occurred. The molecular mechanism and interactions stabilizing bilayer structure were proposed. The explanation of the observed unusual surface behavior of 25-OH may contribute to an understanding of differences in biological activity between chain- and ring-oxidized sterols.

摘要

在这项研究中,25-羟胆固醇(25-OH)作为一种具有广泛生物活性的双亲性化合物,在气/水界面进行了研究。我们感兴趣的是 25-OH 分子中两个羟基分别位于远端的位置(甾烷系统中的 C(3)和侧链中的 C(25))对其表面行为的影响。除了传统的 Langmuir 单层膜外,还应用了其他互补的表面敏感技术,如电动表面电势测量、Brewster 角显微镜(BAM,可实现纹理可视化和膜厚测量)以及偏振调制红外反射吸收光谱(PM-IRRAS)。实验数据借助理论研究进行了解释。我们的结果表明,在单分子层中,25-OH 分子通过 C(3)或 C(25)羟基交替锚定在水表面上。理论计算表明,这些替代取向的分布并不相等,并且发现带有 C(3)羟基的分子过剩。由于这种排列,25-OH 的表面膜稳定性低于胆固醇(被认为是 25-OH 的非氧化类似物)。此外,还发现,在压缩过程中,从单分子层到双层分子层的转变发生了。提出了稳定双层结构的分子机制和相互作用。对 25-OH 观察到的异常表面行为的解释可能有助于理解链状和环状氧化甾醇之间生物活性的差异。

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