y and a chains of human fibrinogen possess sites reactive with human platelet receptors

Fibrinogen, a clottable plasma protein, aggluti- nates both prokaryotic cells (e.g., staphylococci) and eukaryotic cell fragments (e.g., platelets) through interaction with specific receptors. To identify the region of the fibrinogen molecule responsible for its interaction with human platelets, we prepared polypeptide chain subunits (a, .3, and y) of human fibrinogen by reduction and carboxymethylation. A mixture of the chains in- duced aggregation (clumping) of human platelets separated from plasma proteins and treated with ADP. When individual chains of fibrinogen were tested, y-chain multimers caused platelet aggregation at a molar concentration comparable with that of intact human fibrinogen. The 3 chain remained inactive, and the achain was 1/4th to 1/5th as reactive as the y chain. Monospecific an- tibody fragments against the y chain inhibited binding of 'SI-la-beled fibrinogen to the human platelet receptor and blocked ag- gregation of platelets induced by ADP in the presence of fibrinogen or v-chain multimers. These results indicate that the y chain of human fibrinogen bears the main site for interaction with the platelet receptor.