髓鞘膜脂在模型膜中的自分离。
Self-segregation of myelin membrane lipids in model membranes.
机构信息
Max-Planck-Institute of Experimental Medicine, Göttingen, Germany.
出版信息
Biophys J. 2011 Dec 7;101(11):2713-20. doi: 10.1016/j.bpj.2011.10.026.
Abstract
Rapid conduction of nerve impulses requires coating of axons by myelin sheaths, which are multilamellar, lipid-rich membranes produced by oligodendrocytes in the central nervous system. To act as an insulator, myelin has to form a stable and firm membrane structure. In this study, we have analyzed the biophysical properties of myelin membranes prepared from wild-type mice and from mouse mutants that are unable to form stable myelin. Using C-Laurdan and fluorescence correlation spectroscopy, we find that lipids are tightly organized and highly ordered in myelin isolated from wild-type mice, but not from shiverer and ceramide synthase 2 null mice. Furthermore, only myelin lipids from wild-type mice laterally segregate into physically distinct lipid phases in giant unilamellar vesicles in a process that requires very long chain glycosphingolipids. Taken together, our findings suggest that oligodendrocytes exploit the potential of lipids to self-segregate to generate a highly ordered membrane for electrical insulation of axons.
摘要
神经冲动的快速传导需要轴突被髓鞘包裹,髓鞘是由中枢神经系统中的少突胶质细胞产生的多层、富含脂质的膜。为了起到绝缘体的作用,髓鞘必须形成稳定而坚固的膜结构。在这项研究中,我们分析了从野生型小鼠和不能形成稳定髓鞘的小鼠突变体中制备的髓鞘膜的生物物理特性。使用 C-胆甾醇和荧光相关光谱法,我们发现,在从野生型小鼠中分离出的髓鞘中,脂质排列紧密且高度有序,但在颤抖和神经酰胺合酶 2 缺失的小鼠中则不是。此外,只有来自野生型小鼠的髓鞘脂质在一个需要长链糖脂的过程中侧向分离成物理上不同的脂质相。总之,我们的研究结果表明,少突胶质细胞利用脂质的自分离潜力来产生高度有序的膜,以实现轴突的电绝缘。
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