Development and characterization of single-domain antibodies neutralizing protease nexin-1 as tools to increase thrombin generation.

By using a llama-derived library, 2 PN-1 specific VHHs were obtained (KB-PN1-01 and KB-PN1-02). Despite their specificity, none displayed inhibitory activity toward hPN-1 or mPN-1. From the synthetic library, 4 VHHs (H12, B11, F06, A08) could be isolated that combined efficient binding to both hPN-1 and mPN-1 with negligible binding to PAI-1. Of these, B11, F06, and A08 were able to fully restore thrombin activity by blocking PN-1. As monovalent VHH, half-maximal inhibitory concentration values for hPN-1 were 50 ± 10, 290 ± 30, and 960 ± 390 nmol/L, for B11, F06, and A08, respectively, and 1580 ± 240, 560 ± 130, and 2880 ± 770 nmol/L for mPN-1. The inhibitory potential was improved 4- to 7-fold when bivalent VHHs were engineered. Importantly, all VHHs could block PN-1 activity in plasma as well as PN-1 released from activated platelets, one of the main sources of PN-1 during hemostasis. In conclusion, we report the generation of inhibitory anti-PN-1 antibodies using a specific approach to avoid cross-reactivity with the homologous Serpin PAI-1.