Albert Sune scite author profile

Spin-labeled analogues of phosphatidylcholine, phosphatidylethanolamine, phosphatidylserine, and sphingomyelin were added to human platelet suspensions. Due to the partial water solubility of these spin-labeled lipids which possess a relatively short beta-chain (C5), they incorporate rapidly in membranes. The orientation of the spin-labels within the platelet plasma membrane was assessed by following the spontaneous reduction at 37 and 4 degrees C due to endogenous reducing agents present in the cytosol. The rate of spontaneous reduction showed unambiguously that the labels incorporated initially in the outer leaflet of the plasma membrane and that the rate of outside-inside translocation of the aminophospholipids was faster than that of the choline derivatives. For example, at 37 degrees C, the half-time for the transverse diffusion of a phosphatidylcholine analogue was found to be of the order of 40 min, while it was less than 7 min for the phosphatidylserine analogue. At low temperatures, a fraction of the labels gave rise to a strongly immobilized ESR component. This fraction, which corresponded to 20-30% of the initial spin-label concentration, was found resistant to chemical reduction from the inner side of the membrane and also to externally added reducing agents such as ascorbate. Presumably these immobilized lipids are trapped in a gel phase formed in the outer leaflet at 4 degrees C. Cell aging, which depletes the cells of ATP, resulted in the progressive inhibition of the fast transport of the aminophospholipids from the outer to inner leaflet. Treatment of the cells with iodoacetamide completely blocked the transverse diffusion of the spin-labels.(ABSTRACT TRUNCATED AT 250 WORDS)

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Relationship between the transverse distribution of phospholipids in plasma membrane and shape change of human platelets

Sune

Bienvenüe²

1988

Biochemistry

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ESR spectroscopy was used to investigate the distribution of spin-labeled analogues of sphingomyelin, phosphatidylcholine, phosphatidylethanolamine, and phosphatidylserine in the presence of human platelets. Three rates were determined: hydrolysis of the ester bond at position 2, reduction of labels by cytoplasm, and internalization of labels situated in the outer leaflet of the plasma membrane. We found that the half-time for transverse diffusion of added phospholipids was shorter for aminophospholipids (40 min and less than 10 min for PE and PS, respectively) than for the choline derivatives (greater than 120 min for PC, not measurable for SM). Addition of any of the phospholipids led to a considerable change in the initial platelet shape (assessed by electron microscopy) from a discoid form to a smaller body with very long pseudopods. When aminophospholipids were used, the platelets quickly returned to the initial shape [half-time of 20 min and less than 5 min for (0.2)PE and (0.2)PS, respectively]. Conversely, there was no relaxation after (0.2)PC or (0.2)SM was added. We conclude that there is a relationship between the excess of phospholipids in the outer leaflet of the plasma membrane and cytoskeletal organization presumably via actin polymerization, which is responsible for platelet shape.

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Evidence for bidirectional transverse diffusion of spin-labeled phospholipids in the plasma membrane of guinea pig blood cells

Sune

Vidal

Morin

et al. 1988

Biochimica et Biophysica Acta (BBA) - Biomembranes

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Albert Sune

Selective outside-inside translocation of aminophospholipids in human platelets

Relationship between the transverse distribution of phospholipids in plasma membrane and shape change of human platelets

Evidence for bidirectional transverse diffusion of spin-labeled phospholipids in the plasma membrane of guinea pig blood cells

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