Identification of a site in fibrin(ogen) which is involved in the acceleration of plasminogen activation by tissue-type plasminogen activator.

The rate of activation of plasminogen by tissue-type plasminogen activator is greatly increased by fibrin, but not by fibrinogen. A possible explanation for this phenomenon could be that conformational changes take place during the transformation of fibrinogen to fibrin which lead to exposure of sites involved in the accelerated plasmin formation. This is also supported by our recent observation that some enzymatically prepared fragments of fibrinogen and fibrin (D EGTA, D-dimer, Y) and also CNBr fragment 2 from fibrinogen have this property. CNBr fragment 2 consists of amino acid residues A alpha (148-207), B beta (191-224) + (225-242) + (243-305) and gamma 95-265, kept together by disulphide bonds. In order to study the localization of a stimulating site within this structure we purified the chain remnants of CNBr fragment 2 after reduction and carboxymethylation, and found that only A alpha 148-207 was stimulating. This was further confirmed by digesting pure A alpha-chains with CNBr and purifying the resulting A alpha-chain fragments. CNBr digests of B beta- and gamma-chains were not stimulatory. The A alpha-chain remnant (residues 111-197) in D EGTA and D-dimer also comprise the major part (residues A alpha 148-197) of the CNBr A alpha-chain fragment. We conclude that a site capable of accelerating the plasminogen activation by tissue-type plasminogen activator preexists in fibrinogen, that this site becomes exposed upon fibrin formation or disruption of fibrinogen by plasmin or CNBr and that this site is within the stretch A alpha 148-197, which is retained in the A alpha-chain remnants of fibrinogen degradation products.