We describe a new procedure for isolation of glycoproteins IIb (GPIIb) and IIIa (GPIIIa) from human platelet plasma membrane with high yields (2.7 mg of GPIIb and 3.3 mg of GPIIIa per 100 mg of starting platelet membrane proteins), equivalent to a recovery of 35% and 55% respectively of the total GPIIb and GPIIIa of the membrane. The procedure involves Triton X-100 differential extraction of platelet membranes, SDS solubilization of the 4%-Triton X-100 supernatant, zonal centrifugation in a sucrose density gradient, and preparative high-performance size-exclusion chromatography. The weight percentage of sugar is 15.7% for GPIIb and 12.5% for GPIIIa. Neuraminic acid is present in both glycoproteins, representing 30% and 15% respectively of the total sugar weight of GPIIb and GPIIIa. Mannose, galactose and glucosamine account for 45%, 13% and 28% respectively of the sugars of GPIIIa, whereas galactosamine was not detected. Mannose, galactose, glucosamine and galactosamine represent 17%, 21%, 24% and 10% respectively of the sugar content of GPIIb. The molar percentages of half-cystine and methionine are 4-fold and 2-fold higher respectively in GPIIIa than in GPIIb. From the amino acid and sugar compositions we confirmed the acidic nature of both glycoproteins. The Mr values obtained, 136,500 for GPIIb and 91,500 for GPIIIa, are in very good agreement with those obtained by physical methods. The apparent lack of free thiol groups in both glycoproteins indicates that the tertiary structure of GPIIIa is maintained by 21 intrachain disulphide bonds, and that there are eight intrachain and interchain disulphide groups in GPIIb.
The single interchain disulphide bond in platelet glycoprotein IIb (GPIIb) is accessible to extracellular reductants, and selective cleavage does not liberate GPIIb alpha from platelet plasma membrane, confirming that non-covalent interactions contribute to maintaining attachment of this subunit to the membrane. Eosin-maleimide labelling of isolated GPIIb after selective cleavage of this interchain disulphide bond, followed by full reduction and alkylation, CNBr cleavage, and analysis of the cleavage products allowed us to establish that this interchain disulphide bridge is formed between GPIIb beta (GPIIb beta-subunit) Cys-9 and GPIIb alpha Cys-826, and this conclusion was confirmed by independent routes. The other two cysteines of GPIIb beta (Cys-14 and Cys-19) form the single intrachain disulphide bond in this subunit. Last, the intrachain disulphides in GPIIb alpha (GPIIb alpha-subunit) are distributed in four main peptide domains which are not disulphide-bonded among themselves. The linear epitope for monoclonal antibody M1 is localized between Pro-4 and Met-24 (or Met-31) of GPIIb beta. The linear epitope for M3 is situated between Cys-826 and the C-terminus of GPIIb alpha. The M4 epitope is also linear and localized somewhere between residues 115 and 285 of GPIIb alpha. Finally, the epitopes for M5 and M6 are somewhere between Cys-608 and Met-704, within a 35 kDa membrane-bound chymotryptic product of digestion of GPIIb in whole platelets. The N-terminal amino acid sequences determined for eight different cleavage products of GPIIb alpha and GPIIb beta agree with the corresponding amino acid sequences predicted by cDNA sequence for human-erythroleukaemic-cell GPIIb [Poncz, Eisman, Heindenreich, Silver, Vilaire, Surrey, Schwartz & Bennett (1987) J. Biol. Chem. 262, 8476-8482].
Sedimentation equilibrium and low-angle laser-light scattering were used to determine the molar mass of the glycoprotein moieties in the complexes of sodium dodecyl sulphate with the human platelet membrane glycoproteins IIb (GPIIb), IIIa (GPIIIa), and the alpha (GPIIb alpha) and beta (GPIIb beta) subunits of GPIIb. The values obtained by both procedures, except those for GPIIb, agree within experimental error with those calculated from their chemical composition: GPIIb alpha (114,000 g mol-1), GPIIb beta (22,200 g mol-1), and GPIIIa (91,500 g mol-1). The molar mass of GPIIb determined by light scattering (142,000 g mol-1 and sedimentation equilibrium at different solvent densities (134,000 g mol-1) also agree, within experimental error, with the values calculated either from its chemical composition (136,500 g mol-1) or from the sum of the molar masses of its subunits. However the molar mass determined by sedimentation equilibrium at constant solvent density, is consistently underestimated (116,000 g mol-1). High-performance size-exclusion chromatography in sodium dodecyl sulphate solutions overestimates the molar mass of these glycoproteins and their Stokes radii, and therefore the maximal frictional ratios derived from them.
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