ABSTRACT
Human platelets are differentially activated by varying concentrations of alpha-thrombin or by beta- and gamma-thrombin via three thrombin receptors, PAR-1, PAR-4 and GPIbalpha.It is likely that the development of a normal or abnormal hemostatic event in humans is dictated, in part, by the selective activation of these receptors. The ability to differentially inhibit these thrombin receptors could, therefore, have clinical significance. We have previously demonstrated that histone H1 selectively inhibits the PAR-4 receptor. In the current study we investigated whether five subtypes of the H1 molecule or fragments of the H1.3 subtype differentially inhibited the PAR-4 receptor. PAR-4 inhibition by all H1 subtypes was saturated at 1 uM with no statistical difference observed with the five H1 subtypes tested. Of the five fragments generated from the H1.3 molecule only one had significant inhibitory activity against PAR-4. The C-terminal fragment, N.1, generated by the proteolysis of the parent molecule by Asp-N endoproteinase (Aeromonas proteolytica) at the single aspartate residue, showed the same level of PAR-4 inhibition as the intact H1.3 at 1 uM concentrations. Removal of two N-terminal amino acids (Asp-Val as determined by MALDI analysis) from the N.1 fragment further enhanced its inhibitory activity. These studies may help to develop specific drugs to differentially inhibit the platelet thrombin receptors.
