Antithrombin I. Inhibition of thrombin generation in plasma by fibrin formation.

Thrombin substrate binding is mediated through fibrinogen recognition "exosite 1" in thrombin, resulting in fibrinopeptide cleavage to form fibrin. In addition, thrombin exhibits "non-substrate" binding to fibrin, an activity termed "Antithrombin I". Antithrombin I (AT-I) is characterized by two classes of thrombin binding sites, the first of "low affinity" in the fibrin E domain, and the other of high affinity, that is situated between C-terminal residues 414 and 427 of a variant gamma chain termed gamma'(1-427L), Plasma fibrinogen molecules containing gamma' chains ("fibrinogen 2") are virtually all heterodimers containing one gamma(A) chain (platelet-binding) and one gamma' chain. The remaining fibrinogen (approximately 85%) is homodimeric, lacks high affinity thrombin-binding potential, and is termed " fibrinogen 1" (gamma(A)/gamma(A)). Thrombin generation in recalcified fibrinogen-depleted or congenital afibrinogenemic plasma is increased. Repletion with fibrinogen 1 has a modest effect in normalizing thrombin generation, whereas repletion with fibrinogen 2 (gamma(A)/gamma') has a more marked effect. A post-translational gamma' chain derivative, gamma'(1-423P), accounts for 3%-34% of the gamma' chain population, lacks thrombin binding potential, and arises by proteolytic processing at the expense of gamma' (1-427L) chains. Little is known about its effect on plasma AT-I activity under normal or pathological circumstances. In summary, fibrin formation (Antithrombin I) inhibits thrombin generation in clotting blood by sequestering thrombin, and "high-affinity" thrombin-binding (i.e., via gamma' chains) plays a dominant role in this process. AT-1 should be considered when assessing the pathogenesis of thromboembolic disease.