Distinction between glycoprotein IIIa and the 100-kDa membrane protein (aggregin) mediating ADP-induced platelet activation |
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Authors: | R W Colman W R Figures Q X Wu S Y Chung T A Morinelli G P Tuszynski R F Colman S Niewiarowski |
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Institution: | Thrombosis Research Center, Temple University School of Medicine, Philadelphia, Pennsylvania 19140. |
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Abstract: | Previous studies from our laboratories showed that 5'-p-fluorosulfonylbenzoyl adenosine (FSBA) inhibits ADP-induced platelet shape change, aggregation, and exposure of fibrinogen sites while covalently binding to 100-kDa platelet membrane protein (aggregin) on the intact platelet. Chymotrypsin digests aggregin to a fragment of 70 kDa, abolishing the inhibition, and also cleaves platelet glycoprotein IIIa (GPIIIa) (100 kDa) to a 70-kDa fragment containing the P1A1 epitope. We questioned whether these platelet membrane proteins were distinct. Both 5'-p-3H]sulfonylbenzoyl adenosine (SBA)-labeled aggregin and 125I-GPIIIa were precipitated by polyclonal antibodies to a 100-kDa fraction of platelet membranes, but aggregin was not precipitated by a monospecific antibody to P1A1 which precipitates GPIIIa. Further a monospecific polyclonal antibody to immunopurified GPIIIa coupled to protein A-Sepharose adsorbed GPIIIa but not aggregin. Similarly, both aggregin and GPIIIa were precipitated by a polyclonal antibody to an isolated 70-kDa component of platelet membrane but only GPIIIa was precipitated by the monoclonal antibody to GPIIIa, (SSA6). Two patients with Glanzman's thrombasthenia whose platelet membranes contained less than 5% GPIIIa as assayed by monoclonal antibody binding (A2A6), incorporated 3H]SBA to the same extent as normal individuals. Furthermore, FSBA inhibited ADP-induced shape change with a similar concentration dependence for both thrombasthenic and normal platelets. Finally, mobility of GPIIIa on sodium dodecyl sulfate-polyacrylamide gel electrophoresis was decreased following reduction with dithiothreitol whereas that of 3H]SBA-labeled MP 100 was not altered. We conclude that GPIIIa and aggregin are distinct platelet membrane proteins. |
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