Measuring plasma membrane fluidity using confocal microscopy

Pablo Carravilla; Luca Andronico; Jan Schlegel; Yagmur B. Urem; Ellen Sjule; Franziska Ragaller; Florian Weber; Cenk O. Gurdap; Yavuz Ascioglu; Taras Sych; Joseph Lorent; Erdinc Sezgin

doi:10.1038/s41596-024-01122-8

Measuring plasma membrane fluidity using confocal microscopy

Pablo Carravilla, Luca Andronico, Jan Schlegel, Yagmur B. Urem, Ellen Sjule, Franziska Ragaller, Florian Weber, Cenk O. Gurdap, Yavuz Ascioglu, Taras Sych, Joseph Lorent, Erdinc Sezgin^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

Membrane fluidity is a crucial parameter for cellular physiology. Recent evidence suggests that fluidity varies between cell types and states and in diseases. As membrane fluidity has gradually become an important consideration in cell biology and biomedicine, it is essential to have reliable and quantitative ways to measure it in cells. In the past decade, there has been substantial progress both in chemical probes and in imaging tools to make membrane fluidity measurements easier and more reliable. We have recently established a robust pipeline, using confocal imaging and new environment-sensitive probes, that has been successfully used for several studies. Here we present our detailed protocol for membrane fluidity measurement, from labeling to imaging and image analysis. The protocol takes ~4 h and requires basic expertise in cell culture, wet lab and microscopy.

Original language	English
Article number	5396
Journal	Nature Protocols
Early online date	19 Feb 2025
DOIs	https://doi.org/10.1038/s41596-024-01122-8
Publication status	E-pub ahead of print - 19 Feb 2025

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title = "Measuring plasma membrane fluidity using confocal microscopy",

abstract = "Membrane fluidity is a crucial parameter for cellular physiology. Recent evidence suggests that fluidity varies between cell types and states and in diseases. As membrane fluidity has gradually become an important consideration in cell biology and biomedicine, it is essential to have reliable and quantitative ways to measure it in cells. In the past decade, there has been substantial progress both in chemical probes and in imaging tools to make membrane fluidity measurements easier and more reliable. We have recently established a robust pipeline, using confocal imaging and new environment-sensitive probes, that has been successfully used for several studies. Here we present our detailed protocol for membrane fluidity measurement, from labeling to imaging and image analysis. The protocol takes ~4 h and requires basic expertise in cell culture, wet lab and microscopy.",

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AU - Carravilla, Pablo

AU - Andronico, Luca

AU - Schlegel, Jan

AU - Urem, Yagmur B.

AU - Sjule, Ellen

AU - Ragaller, Franziska

AU - Weber, Florian

AU - Gurdap, Cenk O.

AU - Ascioglu, Yavuz

AU - Sych, Taras

AU - Lorent, Joseph

AU - Sezgin, Erdinc

PY - 2025/2/19

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AB - Membrane fluidity is a crucial parameter for cellular physiology. Recent evidence suggests that fluidity varies between cell types and states and in diseases. As membrane fluidity has gradually become an important consideration in cell biology and biomedicine, it is essential to have reliable and quantitative ways to measure it in cells. In the past decade, there has been substantial progress both in chemical probes and in imaging tools to make membrane fluidity measurements easier and more reliable. We have recently established a robust pipeline, using confocal imaging and new environment-sensitive probes, that has been successfully used for several studies. Here we present our detailed protocol for membrane fluidity measurement, from labeling to imaging and image analysis. The protocol takes ~4 h and requires basic expertise in cell culture, wet lab and microscopy.

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Measuring plasma membrane fluidity using confocal microscopy

Abstract

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