Direct Measurement of Polyethylene Glycol Induced Depletion Attraction between Lipid Bilayers

Direct Measurement of Polyethylene Glycol Induced Depletion Attraction between Lipid Bilayers

Although polyethylene glycol (PEG) is widely used for aggregating or fusing cells, the forces responsible for these interactions have remained elusive. Through a variety of techniques including quasi-elastic light scattering, surface force measurements, and 31P-NMR, we have established that while PE...

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Bibliographic Details
Published in:Langmuir Vol. 12; no. 12; pp. 3003 - 3014
Main Authors: Kuhl, Tonya, Guo, Yuqing, Alderfer, James L, Berman, Alan D, Leckband, Deborah, Israelachvili, Jacob, Hui, Sek Wen
Format: Journal Article
Language:English
Published: Washington, DC American Chemical Society 12-06-1996
Subjects:
Applied sciences
Artificial membranes and reconstituted systems
Biological and medical sciences
Exact sciences and technology
Fundamental and applied biological sciences. Psychology
Membrane physicochemistry
Molecular biophysics
Organic polymers
Physicochemistry of polymers
Properties and characterization
Solution and gel properties
Aggregation
Ethylene oxide polymer
Vesicle
Membrane fusion
Solid liquid solid interaction
Attraction interaction
Mixed bilayer
Phosphatidylcholine
Artificial membrane
Aqueous solution
Experimental study
Molecular weight property relation
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Summary:Although polyethylene glycol (PEG) is widely used for aggregating or fusing cells, the forces responsible for these interactions have remained elusive. Through a variety of techniques including quasi-elastic light scattering, surface force measurements, and 31P-NMR, we have established that while PEG of molecular weight 8000−10000 is effective in causing the aggregation of vesicles, PEG of lower or higher molecular weight (1000 and 18 500, respectively) is ineffective. For the first time, direct force measurements between lipid bilayers in solutions of 8000−10000 molecular weight reveal the existence of an attractive osmotic force due to a polymer depleted layer near the bilayer surface. Lower molecular weight PEG does not have a large enough size (Flory radius, R F) to generate a significant depletion force, while higher molecular weight PEG adsorbs sufficiently on the bilayer surfaces to eliminate the depletion attraction and produces a repulsive steric barrier to aggregation. The measured forces can be quantitatively described in terms of current theories of colloidal and polymer interactions. These findings suggest that the differential osmotic pressure produced by the depletion layer is responsible for vesicle aggregation and that fusion is promoted when the depletion pressure is strong enough to locally destabilize two membranes by possibly thinning them at their point of closest approach. The results provide a physicochemical basis for using PEG of certain molecular weights as fusogens for cells, liposomes, and vesicles.
Bibliography:Abstract published in Advance ACS Abstracts, May 15, 1996.
istex:E3E68EEFB6EBADE28C4E2835E59CAB6E12CE272A
ark:/67375/TPS-CRLKZ9J9-Z
ISSN:0743-7463
1520-5827
DOI:10.1021/la950802l