Human Neutrophil Elastase Alters Human α-Thrombin Function: Limited Proteolysis Near the γ-Cleavage Site Results in Decreased Fibrinogen Clotting and Platelet-Stimulatory Activity

Abstract

During blood coagulation, polymorphonuclear leukocytes release elastase in amounts that can exceed 100 nmol/L. We therefore studied the interaction between human leukocyte elastase and human alpha-thrombin. Elastase cleaved the thrombin B chain (Ala 150-Asn 151) near the gamma-cleavage site, resulting in two fragments held together by noncovalent interactions. The NH2-terminal fragment (FI), mol wt approximately 18,000, was disulfide-linked to the thrombin A chain. The COOH-terminal fragment (FII), mol wt approximately 13,000, contained the active-site serine and formed a covalent bond with antithrombin III. Heparin accelerated proteolysis of alpha-thrombin by elastase. Proteolyzed alpha-thrombin (T theta) retained full amidolytic activity; however, the concentration of T theta causing 50% maximal platelet aggregation and adenosine triphosphate (ATP) release was 7.9 nmol/L (1.1 nmol/L for alpha-thrombin and 220 nmol/L for gamma-thrombin). Fibrinogen clotting activity of T theta and gamma-thrombin was 32% and 1% that of alpha-thrombin, respectively. Elastase released during the coagulation process may modulate thrombin activity. In addition, elastase-modified thrombin may be a useful probe of the structure and function of the gamma-cleavage region.