The appended tail region of heparin cofactor II and additional reactive centre loop mutations combine to increase the reactivity and specificity of α1-proteinase inhibitor M358R for thrombin

Abstract

SummaryNatural inhibitors of coagulation or inflammation such as the serpins antithrombin (AT), heparin cofactor II (HCII), and 1-proteinase inhibitor (α1-PI) can be overwhelmed in thrombosis and/or sepsis. The reactive centre (P1-P1) variant α1-PI M358R inhibits not only procoagulant thrombin but also anticoagulant activated protein C (APC). We previously described HAPI M358R, comprising a fusion of HCII residues 1–75 to the N-terminus of a1-PI M358R that yielded increased anti-thrombin, but not anti-APC activity. We hypothesized that further alterations to the HAPI M358R reactive centre loop would yield additional refinements in specificity. The reactions with thrombin or APC of recombinant α1-PI M358R variants with or without the HCII extension were characterized electrophoretically and kinetically. Their extension of clotting times and inhibition of fibrin-bound thrombin were measured, and the survival of HAPI M358R in mice was determined. Replacing the P7-P3 and P2’ residues of HAPI M358R with AT residues reduced APC inhibition rates by 140-fold, but those of thrombin less than two-fold;substituting the P16-P2 and P2’-P3’ residues of HAPI M358R with HCII residues reduced APC inhibition rates by 180-fold, but those of thrombin 10.5-fold. Fused variants extended thrombin clotting times more effectively than unfused inhibitors, were at least as effective at inhibiting clot-bound thrombin, and remained intact in the murine circulation. The combination of modifications inside and outside the RCL resulted in a 1,360-fold increase in selectivity of HAPI M358R (AT P7-P3/P2’) for thrombin versus APC relative to α1-PI M358R. Our results predict that this protein may be effective in limiting thrombosis in vivo.