TY - JOUR
T1 - Effects of phytohaemagglutinin, wheat-germ agglutinin, and concanavalin-A on the physical state of sialic acid and membrane proteins in human erythrocyte ghosts
T2 - A spin label study
AU - Feix, Jimmy B.
AU - Green, Larry L.
AU - Butterfield, D. Allan
PY - 1982/9/6
Y1 - 1982/9/6
N2 - Parallel experiments employing sialic acid- and protein specific spin labels have been performed to monitor the effects on the physical state of this carbohydrate and membrane proteins of human erythrocytes induced by the binding of three lectins, Phaseolus vulgaris phytohaemagglutinin (PHA), wheat germ agglutinin (WGA), and Concanavalin-A (Con-A). PHA and WGA, both of which are known to bind at different sites on the principal sialoglycoprotein of human erythrocytes, glycophorin, had markedly different effects: compared to control values, PHA decreased the apparent correlation time of the sialic acid specific spin probe by 10% while this parameter was decreased by 33% by WGA. The protein specific spin label also monitored differential effects of these lectins: the relevant electron spin resonance parameter (the W/S ratio) was reduced 33% by PHA and increased by WGA over 17% from that of control values. Con-A, which is known to bind to the principal transmembrane protein, Band 3, had no effect on sialic acid or membrane proteins as assessed by the two spin labels employed. These results suggest that (1) the effects of binding of these different lectins, two of which bind to the same cell surface receptor, can be discriminated by use of spin labeling methods; (2) binding events occuring at the cell surface have distinct and pronounced effects on the physical state of proteins within the membrane; (3) the different results with PHA and WGA both of which bind to glycophorin are indicative of multiple and complex interactions of this glycoprotein with the membrane proteins in the erythrocyte; and (4) that the spin labelling technique has the potential to investigate the relationships between cell-surface binding events to membrane structural-functional interactions.
AB - Parallel experiments employing sialic acid- and protein specific spin labels have been performed to monitor the effects on the physical state of this carbohydrate and membrane proteins of human erythrocytes induced by the binding of three lectins, Phaseolus vulgaris phytohaemagglutinin (PHA), wheat germ agglutinin (WGA), and Concanavalin-A (Con-A). PHA and WGA, both of which are known to bind at different sites on the principal sialoglycoprotein of human erythrocytes, glycophorin, had markedly different effects: compared to control values, PHA decreased the apparent correlation time of the sialic acid specific spin probe by 10% while this parameter was decreased by 33% by WGA. The protein specific spin label also monitored differential effects of these lectins: the relevant electron spin resonance parameter (the W/S ratio) was reduced 33% by PHA and increased by WGA over 17% from that of control values. Con-A, which is known to bind to the principal transmembrane protein, Band 3, had no effect on sialic acid or membrane proteins as assessed by the two spin labels employed. These results suggest that (1) the effects of binding of these different lectins, two of which bind to the same cell surface receptor, can be discriminated by use of spin labeling methods; (2) binding events occuring at the cell surface have distinct and pronounced effects on the physical state of proteins within the membrane; (3) the different results with PHA and WGA both of which bind to glycophorin are indicative of multiple and complex interactions of this glycoprotein with the membrane proteins in the erythrocyte; and (4) that the spin labelling technique has the potential to investigate the relationships between cell-surface binding events to membrane structural-functional interactions.
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U2 - 10.1016/0024-3205(82)90172-2
DO - 10.1016/0024-3205(82)90172-2
M3 - Article
C2 - 6290810
AN - SCOPUS:0020374306
SN - 0024-3205
VL - 31
SP - 1001
EP - 1009
JO - Life Sciences
JF - Life Sciences
IS - 10
ER -