Lipid and protein composition of exovesicles released from human erythrocytes following treatment with amphiphiles

Lipid and protein composition of exovesicles released from human erythrocytes following treatment with amphiphiles

Human erythrocytes were treated with different water-soluble amphiphiles (detergents) at sublytic concentrations, whereafter released exovesicles and treated cells were isolated. Lipid analyses showed that exovesicles had a lower cholesterol/phospholipid ratio and a higher phosphatidylserine/phospho...

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Bibliographic Details
Published in:Biochimica et biophysica acta Vol. 1190; no. 2; p. 409
Main Authors: Hägerstrand, H, Isomaa, B
Format: Journal Article
Language:English
Published: Netherlands 23-03-1994
Subjects:
Cholesterol - analysis
Detergents - pharmacology
Erythrocyte Membrane - drug effects
Erythrocyte Membrane - metabolism
Hemolysis
Humans
Membrane Lipids - analysis
Membrane Proteins - analysis
Phospholipids - analysis
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Summary:Human erythrocytes were treated with different water-soluble amphiphiles (detergents) at sublytic concentrations, whereafter released exovesicles and treated cells were isolated. Lipid analyses showed that exovesicles had a lower cholesterol/phospholipid ratio and a higher phosphatidylserine/phospholipid ratio compared to parent cells. Protein analyses revealed that exovesicles were, relative to their total protein content, depleted in spectrin, actin and band 6 protein and enriched in band 3 protein and acetylcholinesterase. Exovesicles contained all major glycoproteins. By using a radiolabeled amphiphile ([14C]cetyltrimethylammonium bromide) it was shown that the amphiphile/phospholipid ratio was similar in the vesicle membrane and in the parent cell membrane. This indicates that no significant segregation of the intercalated amphiphile between the exovesicle membrane and the parent cell membrane occurs during the vesiculation process. It is suggested that the redistributions of membrane lipids and proteins during the vesiculation process are secondary to the detachment of the cytoskeletal network from the membrane.
ISSN:0006-3002
DOI:10.1016/0005-2736(94)90101-5