Erythrocyte membrane lateral sterol domains: A dehydroergosterol fluorescence polarization study

Erythrocyte membrane lateral sterol domains: A dehydroergosterol fluorescence polarization study

Structural domains of cholesterol and their regulation in the erythrocyte membrane are poorly understood. Dehydroergosterol fluorescence polarization change was used to continuously monitor the kinetics of sterol exchange and sterol domain size in erythrocyte ghost membranes. Direct correlation betw...

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Bibliographic Details
Published in:Biochemistry (Easton) Vol. 33; no. 10; pp. 2880 - 2890
Main Authors: Kavecansky, Juraj, Joiner, Clinton H, Schroeder, Friedhelm
Format: Journal Article
Language:English
Published: Washington, DC American Chemical Society 15-03-1994
Subjects:
Biological and medical sciences
Biological membranes
Cholesterol - blood
Ergosterol - analogs & derivatives
Erythrocyte Membrane - chemistry
Erythrocyte Membrane - metabolism
Erythrocyte Membrane - ultrastructure
Fluorescence Polarization - methods
Fundamental and applied biological sciences. Psychology
Humans
Kinetics
Liposomes
Mathematics
Membrane Lipids - blood
Membrane physicochemistry
Models, Biological
Molecular biophysics
Phosphatidylcholines
Sterols - blood
Human
Biological fluid
Analog
Plasma membrane
Molecular model
Red blood cell
Kinetics
Molecular exchange
Cholesterol
Blood
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Summary:Structural domains of cholesterol and their regulation in the erythrocyte membrane are poorly understood. Dehydroergosterol fluorescence polarization change was used to continuously monitor the kinetics of sterol exchange and sterol domain size in erythrocyte ghost membranes. Direct correlation between molecular sterol exchange and steady-state dehydroergosterol fluorescence polarization measurements was obtained without separation of donor and acceptor membranes. Three important observations were made. First, sterol exchange between small unilamellar vesicles (SUV) with the same cholesterol/phospholipid ratio as the erythrocyte membrane (1-palmitoyl-2-oleoylphosphatidylcholine/cholesterol = 1:1) was resolved into three kinetic cholesterol domains: 23 +/- 9% of total sterol was rapidly exchangeable, with t1/2 = 23 +/- 6 min; 59 +/- 9% of total sterol was slowly exchangeable, with t1/2 = 135 +/- 3 min; and 19 +/- 9% of total sterol was essentially nonexchangeable, with a t1/2 of days. Second, the substitution of erythrocyte ghosts for SUV as an acceptor significantly altered the kinetic parameters of sterol exchange from donor SUV, graphically showing that both the properties of the acceptor and spontaneous desorption of cholesterol from the donor SUV influenced spontaneous cholesterol transfer. Third, studies of exchange between erythrocyte ghosts revealed multiple kinetic pools of sterol differing from those in the SUV: 4 +/- 2% of total sterol was rapidly exchangeable, with t1/2 = 32 +/- 9 min; 29 +/- 3% of total sterol was very slowly exchangeable, with t1/2 = 23 +/- 7 h; and a surprisingly large 67 +/- 2% of total sterol was nonexchangeable, with a t1/2 of days.
Bibliography:ark:/67375/TPS-9KMPGLRS-J
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ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0006-2960
1520-4995
DOI:10.1021/bi00176a018