On the mechanism of vesicle release from ATP-depleted human red blood cells |
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Authors: | Heinz Müller Ursina Schmidt Hans U Lutz |
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Institution: | Swiss Federal Institut of Technology, ETH, Department of Biochemistry, Universitätsstrasse 16, Zurich Switzerland |
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Abstract: | The release of spectrin-free vesicles from ATP-depleted human red blood cells (Lutz et al. (1977) J. Cell. Biol. 73, 548) can be considered the final step of a shape change from discocytes to echinocytes. The study of physical and chemical properties of released vesicles suggests that vesicle release is not merely a consequence of charge alterations within either monolayer of the budding membrane. Fresh membranes and released vesicles have within experimental error the same sialic acid content per surface area and the same electrophoretic mobilities. Vesicle release cannot be stimulated by doubling the charge density on the outer monolayerby means of a phospholipase D-treatment, but correlates with a breakdown of polyphosphoinositides to diacylglycerol on the inner monolayer. This breakdown does not lead to a significant change in the negative charge density on the inner monolayer, because an increased phosphatidate content compensates for this alteration. Furthermore, polyphosphoinositide breakdown and diacylglycerol production are not the rate-limiting step in vesicle release from ATP-depleting red blood cells. This is evident from the fact that 10 mM EDTA inhibits vesicle release to 75% without affecting polyphosphoinositide breakdown and diacylglycerol production. Hence, diacylglycerol formation may be sufficient for membrane budding as suggested earlier (Allan et al.(1976) Nature 261, 58), but vesicle release requires a second, as yet unidentified process. |
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Keywords: | Spectrin-free vesicle ATP depletion Echinocyte Diacylglycerol (Human erythrocyte) SDS sodium dodecyl sulfate PMSF phenylmethylsulfonyl fluoride EGTA To whom correspondence should be addressed |
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