Abstract

Thrombin generated during cardiopulmonary bypass activates the high-affinity thrombin receptor, protease-activated receptor 1 (PAR1), causing platelet dysfunction and excessive bleeding. The serine protease inhibitor aprotinin protects platelets against thrombin-mediated PAR1 activation in vitro and in vivo. Here we have investigated three novel recombinant aprotinin variants with specific modifications to the active site lysine at amino acid position 15 (arginine-15, arginine-15-alanine-17, and valine-15-leucine-17) for their effect on PAR1-mediated platelet aggregation in vitro. Aggregation studies were carried out using washed human platelets (n = 9) or platelet rich plasma (n = 7) from healthy volunteers activated with 1 or 5 nM thrombin. Recombinant aprotinin variants were used at the molar equivalent to 50 KIU/mL of the parent compound. The PAR1-specific antagonist peptide, FLLRN, was used at 500 microM. Platelet aggregation at low concentrations of thrombin (1 nM) was mediated exclusively through PAR1, as shown by inhibition of aggregation in the presence of FLLRN. At 1 nM thrombin, the mean percentage +/- SD aggregation of washed platelets was 68.6% +/- 12.3%. This was suppressed by each aprotinin variant at the 50 KIU/mL equivalent dose: arginine-15 (23.0% +/- 17.5%, p < 0.001); arginine-15-alanine-17 (33.3% +/- 22.9%, p < 0.01); aprotinin (37.5% +/- 19.4%, p < 0.05); valine-15-leucine-17 (50.0% +/- 16.1%, not significant)). At 5 nM thrombin, which activates both high (PAR1) and low-affinity (PAR4) thrombin receptors on platelets, FLLRN and aprotinin failed to block aggregation: this finding indicates that aprotinin selectively targeted PAR1. In platelet-rich plasma, aggregation at 1 nM thrombin was 77.1% +/- 10.0%, and this was inhibited in the following order: arginine-15 (30.1% +/- 9.6%, p < 0.001); arginine-15-alanine-17 (52.3% +/- 9.7%, p > 0.001); aprotinin (55.9% +/- 6.2%, p > 0.001); valine-15-leucine-17 (73.7% +/- 7.1%, not significant). Aprotinin variants differentially inhibit PAR1-mediated platelet aggregation. With more understanding of the mechanisms of action of aprotinin and its derivatives, safer and more efficacious aprotinin variants may become available for clinical use.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.