膜联蛋白V染色显示质膜脂不对称损失。

Julia F Baum, Huriye D Uzun, Thomas Günther Pomorski
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引用次数: 0

摘要

质膜脂质不对称的丧失有助于许多细胞功能和反应,包括凋亡、血液凝固和细胞融合。在本方案中,我们描述了使用荧光标记的膜联蛋白V,通过荧光显微镜检测贴壁活细胞质膜中脂质不对称的损失。该方法提供了一种简单、敏感和可重复的方法来检测脂质不对称的变化,但受低样品通量的限制。该方案也可以适用于其他荧光标记脂质结合蛋白或肽探针。为了验证这种探针的脂质结合特性,我们在这里还描述了巨型单层囊泡作为简单模型膜系统的制备和使用,其大小与细胞相当。通过共聚焦显微镜监测质膜中脂质不对称的损失。方案可适用于任何类型的细胞贴壁的培养,包括原代细胞。测定可适用于其他荧光标记脂质结合蛋白或肽探针。巨型单层囊泡可作为验证此类探针脂质结合特性的工具。通过共聚焦显微镜成像荧光膜联蛋白V与粘附的哺乳动物细胞和巨泡的结合。膜联蛋白V标记是检测细胞中质膜脂不对称缺失的有效方法(上图,红色);DAPI可以用来识别细胞核(上图,蓝色)。巨型囊泡被用作验证膜联蛋白V与阴离子脂质的脂质结合特性的工具(下图,红色)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Visualizing Loss of Plasma Membrane Lipid Asymmetry Using Annexin V Staining.

Visualizing Loss of Plasma Membrane Lipid Asymmetry Using Annexin V Staining.

Visualizing Loss of Plasma Membrane Lipid Asymmetry Using Annexin V Staining.

Visualizing Loss of Plasma Membrane Lipid Asymmetry Using Annexin V Staining.

Loss of plasma membrane lipid asymmetry contributes to many cellular functions and responses, including apoptosis, blood coagulation, and cell fusion. In this protocol, we describe the use of fluorescently labeled annexin V to detect loss of lipid asymmetry in the plasma membrane of adherent living cells by fluorescence microscopy. The approach provides a simple, sensitive, and reproducible method to detect changes in lipid asymmetry but is limited by low sample throughput. The protocol can also be adapted to other fluorescently labeled lipid-binding proteins or peptide probes. To validate the lipid binding properties of such probes, we additionally describe here the preparation and use of giant unilamellar vesicles as simple model membrane systems that have a size comparable to cells. Key features Monitoring loss of lipid asymmetry in the plasma membrane via confocal microscopy. Protocol can be applied to any type of cell that is adherent in culture, including primary cells. Assay can be adapted to other fluorescently labeled lipid-binding proteins or peptide probes. Giant unilamellar vesicles serve as a tool to validate the lipid binding properties of such probes. Graphical overview Imaging the binding of fluorescent annexin V to adherent mammalian cells and giant vesicles by confocal microscopy. Annexin V labeling is a useful method for detecting a loss of plasma membrane lipid asymmetry in cells (top image, red); DAPI can be used to identify nuclei (top image, blue). Giant vesicles are used as a tool to validate the lipid binding properties of annexin V to anionic lipids (lower image, red).

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