Effect of osmotic stress on live cell plasma membranes, probed via Laurdan general polarization measurements

Elmer Zapata-Mercado; Evgenia V. Azarova; Kalina Hristova

doi:10.1016/j.bpj.2022.05.016

Effect of osmotic stress on live cell plasma membranes, probed via Laurdan general polarization measurements

Elmer Zapata-Mercado, Evgenia V. Azarova, Kalina Hristova

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

Abstract

Here we seek to gain insight into changes in the plasma membrane of live cells upon the application of osmotic stress using Laurdan, a fluorescent probe that reports on membrane organization, hydration, and dynamics. It is known that the application of osmotic stress to lipid vesicles causes a decrease in Laurdan's generalized polarization (GP), which has been interpreted as an indication of membrane stretching. In cells, we see the opposite effects, as GP increases when the osmolarity of the solution is decreased. This increase in GP is associated with the presence of caveolae, which are known to disassemble and flatten in response to osmotic stress.

Original language	English (US)
Pages (from-to)	2411-2418
Number of pages	8
Journal	Biophysical journal
Volume	121
Issue number	12
DOIs	https://doi.org/10.1016/j.bpj.2022.05.016
State	Published - Jun 21 2022
Externally published	Yes

ASJC Scopus subject areas

Biophysics

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10.1016/j.bpj.2022.05.016

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title = "Effect of osmotic stress on live cell plasma membranes, probed via Laurdan general polarization measurements",

abstract = "Here we seek to gain insight into changes in the plasma membrane of live cells upon the application of osmotic stress using Laurdan, a fluorescent probe that reports on membrane organization, hydration, and dynamics. It is known that the application of osmotic stress to lipid vesicles causes a decrease in Laurdan's generalized polarization (GP), which has been interpreted as an indication of membrane stretching. In cells, we see the opposite effects, as GP increases when the osmolarity of the solution is decreased. This increase in GP is associated with the presence of caveolae, which are known to disassemble and flatten in response to osmotic stress.",

author = "Elmer Zapata-Mercado and Azarova, {Evgenia V.} and Kalina Hristova",

note = "Funding Information: Supported by NSF MCB 1712740 . We thank Dr. Anne K. Kenworthy for reading an early version of the manuscript, for insightful discussions, and for suggesting the 3T3 MEF (−/−) line as control. We thank Brandon Tenney, Maryann Ness, and Mark Marzinke from the Johns Hopkins Hospital Core Lab facility for the osmotic measurements. Publisher Copyright: {\textcopyright} 2022 Biophysical Society",

year = "2022",

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doi = "10.1016/j.bpj.2022.05.016",

language = "English (US)",

volume = "121",

pages = "2411--2418",

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publisher = "Biophysical Society",

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T1 - Effect of osmotic stress on live cell plasma membranes, probed via Laurdan general polarization measurements

AU - Zapata-Mercado, Elmer

AU - Azarova, Evgenia V.

AU - Hristova, Kalina

N1 - Funding Information: Supported by NSF MCB 1712740 . We thank Dr. Anne K. Kenworthy for reading an early version of the manuscript, for insightful discussions, and for suggesting the 3T3 MEF (−/−) line as control. We thank Brandon Tenney, Maryann Ness, and Mark Marzinke from the Johns Hopkins Hospital Core Lab facility for the osmotic measurements. Publisher Copyright: © 2022 Biophysical Society

PY - 2022/6/21

Y1 - 2022/6/21

N2 - Here we seek to gain insight into changes in the plasma membrane of live cells upon the application of osmotic stress using Laurdan, a fluorescent probe that reports on membrane organization, hydration, and dynamics. It is known that the application of osmotic stress to lipid vesicles causes a decrease in Laurdan's generalized polarization (GP), which has been interpreted as an indication of membrane stretching. In cells, we see the opposite effects, as GP increases when the osmolarity of the solution is decreased. This increase in GP is associated with the presence of caveolae, which are known to disassemble and flatten in response to osmotic stress.

AB - Here we seek to gain insight into changes in the plasma membrane of live cells upon the application of osmotic stress using Laurdan, a fluorescent probe that reports on membrane organization, hydration, and dynamics. It is known that the application of osmotic stress to lipid vesicles causes a decrease in Laurdan's generalized polarization (GP), which has been interpreted as an indication of membrane stretching. In cells, we see the opposite effects, as GP increases when the osmolarity of the solution is decreased. This increase in GP is associated with the presence of caveolae, which are known to disassemble and flatten in response to osmotic stress.

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JO - Biophysical journal

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ER -

Effect of osmotic stress on live cell plasma membranes, probed via Laurdan general polarization measurements

Abstract

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