Volumetric deformation of live cells induced by pressure-activated cross-membrane ion transport

Volumetric deformation of live cells induced by pressure-activated cross-membrane ion transport

In this work, we developed a method that allows precise control over changes in the size of a cell via hydrostatic pressure changes in the medium. Specifically, we show that a sudden increase, or reduction, in the surrounding pressure, in the physiologically relevant range, triggers cross-membrane f...

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Bibliographic Details
Published in:Physical review letters Vol. 113; no. 11; p. 118101
Main Authors: Hui, T H, Zhou, Z L, Qian, J, Lin, Y, Ngan, A H W, Gao, H
Format: Journal Article
Language:English
Published: United States 12-09-2014
Subjects:
Biological evolution
Biotechnology
Deformation
Flow Cytometry
Fluxes
HL-60 Cells
Humans
Hydrostatic Pressure
Ion Channels - chemistry
Ion Channels - metabolism
Ion transport
K562 Cells
Models, Biological
Potassium - chemistry
Potassium - metabolism
Potassium Channels - chemistry
Potassium Channels - metabolism
Sodium
Sodium - chemistry
Sodium - metabolism
Sodium Channels - chemistry
Sodium Channels - metabolism
Transport
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Summary:In this work, we developed a method that allows precise control over changes in the size of a cell via hydrostatic pressure changes in the medium. Specifically, we show that a sudden increase, or reduction, in the surrounding pressure, in the physiologically relevant range, triggers cross-membrane fluxes of sodium and potassium ions in leukemia cell lines K562 and HL60, resulting in reversible volumetric deformation with a characteristic time of around 30 min. Interestingly, healthy leukocytes do not respond to pressure shocks, suggesting that the cancer cells may have evolved the ability to adapt to pressure changes in their microenvironment. A model is also proposed to explain the observed cell deformation, which highlights how the apparent viscoelastic response of cells is governed by the microscopic cross-membrane transport.
Bibliography:ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0031-9007
1079-7114
DOI:10.1103/PhysRevLett.113.118101