Abstract
The influence of genetically engineered recombinant hirudin (r-hirudin) on platelet functions was studied. Depending on the concentration, r-hirudin inhibits the thrombin-induced aggregation and 14C-serotonin secretion to the same extent as native hirudin. Comparative studies in blood anticoagulated by r-hirudin, heparin or citrate show a significantly lower spontaneous platelet aggregation in r-hirudinized blood. The extent of the ADP-induced aggregation is nearly the same in r-hirudinized, heparinized or citrated plasma. In r-hirudinized plasma, however, aggregation is reversible. In contrast to heparinized or citrated plasma, adrenaline causes only a very slight aggregation in r-hirudinized plasma. ADP- or adrenaline-induced secretion of 14C-serotonin do not occur in r-hirudinized plasma. The collagen- as well as the PAF-induced aggregation and 14C-serotonin release in hirudinized plasma do not differ significantly from those in heparinized or citrated plasma. r-Hirudin is a suitable anticoagulant for studying platelet functions because it does not produce any alterations in platelet reactions and does not provoke any changes in the ionized calcium concentration in blood.