成像荧光相关光谱表征模型和活细胞膜中扩散的温度依赖性。

Biochimica et biophysica acta Pub Date : 2014-03-01
Nirmalya Bag, Darilyn Hui Xin Yap, Thorsten Wohland
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引用次数: 0

摘要

质膜的组织是由液体有序相(Lo)和液体无序相(Ld)之间的动态平衡调节的。Lo相的丰度被认为是胆固醇与其他脂质相互作用的结果,否则这些脂质要么处于Ld相,要么处于凝胶(So)相。这些阶段的特征脂质堆积导致了它们各自横向动力学的显著差异。在本研究中,采用成像全内反射荧光相关光谱(ITIR-FCS)来监测负载脂质双层(slb)内的扩散作为温度和成分的函数。我们发现膜侧扩散的温度依赖性,由Arrhenius活化能(EArr)参数化,可以解决脂质混合物的亚分辨相行为。应用FCS扩散规律(iir -FCS中实现的一种新型膜非均质标子)表明,so - ld相中的结构域是静态的、大的,而Lo-Ld相中的结构域是小的、动态的。在不同温度下的扩散测量和FCS扩散规律分析表明,高温(313 K)下膜动力学的调制是域熔化和刚度松弛的累积效应。最后,我们将这些研究扩展到常用的神经母细胞瘤、HeLa和成纤维细胞的质膜。神经母细胞瘤细胞膜动力学的温度依赖性与HeLa或成纤维细胞明显不同,因为不同类型的细胞表现出高度的成分异质性。
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Temperature dependence of diffusion in model and live cell membranes characterized by imaging fluorescence correlation spectroscopy.

The organization of the plasma membrane is regulated by the dynamic equilibrium between the liquid ordered(Lo) and liquid disordered (Ld) phases. The abundance of the Lo phase is assumed to be a consequence of the interaction between cholesterol and the other lipids, which are otherwise in either the Ld or gel (So) phase.The characteristic lipid packing in these phases results in significant differences in their respective lateral dynamics.In this study, imaging total internal reflection fluorescence correlation spectroscopy (ITIR-FCS) is applied to monitor the diffusion within supported lipid bilayers (SLBs) as functions of temperature and composition. We show that the temperature dependence of membrane lateral diffusion,which is parameterized by the Arrhenius activation energy (EArr), can resolve the sub-resolution phase behavior of lipid mixtures. The FCS diffusion law, a novel membrane heterogeneity ruler implemented in ITIR-FCS, is applied to show that the domains in the So–Ldphase are static and large while they are small and dynamic in the Lo–Ld phase. Diffusion measurements and the subsequent FCS diffusion law analyses at different temperatures show that the modulation in membrane dynamics at high temperature (313 K) is a cumulative effect of domain melting and rigidity relaxation. Finally, we extend these studies to the plasma membranes of commonly used neuroblastoma, HeLa and fibroblast cells.The temperature dependence of membrane dynamics for neuroblastoma cells is significantly different from that of HeLa or fibroblast cells as the different cell types exhibit a high level of compositional heterogeneity.

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