Abstract 155: Plasma Kallikrein Is A Key Driver Of Basal Activation Of Coagulation Under Conditions Of C1 Inhibitor Deficiency

C1 inhibitor (C1INH) functions as a key endogenous inhibitor of contact pathway coagulation factors XII, XI and plasma kallikrein (PKa). Patients with a congenital deficiency in C1INH suffer from a rare swelling disorder called hereditary angioedema (HAE) caused by excess bradykinin generation. Patients with HAE also have elevated circulating levels of markers of activation of coagulation and an increased risk of venous thromboembolism, phenotypes recapitulated in C1INH-deficient mice. We sought to evaluate the molecular mechanism by which C1INH deficiency leads to increased basal activation of coagulation and venous thrombosis. We hypothesized that PKa serves as a key driver of activation of coagulation in humans and mice with congenital C1INH deficiency. Patients with C1INH deficiency-associated HAE were treated with the PKa inhibitor lanadelumab with plasma samples collected before and after treatment. Plasma levels of coagulation markers and contact pathway-initiated thrombin generation were determined. C1INH-deficient mice were treated with the PKa inhibitor avoralstat, the FXIIa inhibitor garadacimab, FXII small interfering RNAs, FXI antisense oligonucleotides, the anti-tissue factor antibody 1H1 or appropriate controls and plasma coagulation markers were measured. Treatment of HAE patients with the PKa inhibitor lanadelumab significantly reduced plasma levels of prothrombin fragment 1.2, thrombin antithrombin (TAT) complexes and D-dimer at 6 months after treatment initiation (P<0.05). Interestingly, landalumab had no significant effect on contact pathway-initiated thrombin generation. In experiments with C1INH deficient mice, TAT complexes were significantly reduced by PKa inhibition (P<0.01) but not by inhibition of FXIIa or FXIa. Interestingly, tissue factor inhibition also significantly reduced plasma TAT complexes (P<0.01). This data suggests that under conditions of C1INH deficiency PKa potentiates activation of coagulation through a non-canonical pathway involving tissue factor. These findings demonstrate that C1INH is a physiologically relevant anticoagulant with C1INH deficiency resulting in enhanced kallikrein-mediated activation of basal coagulation.