The fibrinogen-derived peptide (RGDS) prevents proteolytic degradation of protein kinase C in platelets by inhibiting platelet aggregation

Abstract

The effects of the fibrinogen-derived tetrapeptide, Arg-Gly-Asp-Ser (RGDS), on platelet activation processes was studied. At concentrations of 100-300 microM, RGDS completely prevented platelet aggregation induced by all the common platelet agonists, 'weak' and 'strong'. In agreement with earlier views on the aggregation-dependency of weak agonist-induced thromboxane synthesis and 5-hydroxytryptamine (5HT) secretion, RGDS (100-300 microM) inhibited these events induced by ADP, adrenaline and low concentrations of thrombin and collagen but not that induced by high concentrations of thrombin and collagen. 5HT secretion induced by the protein kinase C (PKC) activator, phorbol 12-myristate 13-acetate (PMA), was also not affected by RGDS, but proteolytic degradation of the translocated membrane-bound enzyme in PMA-treated platelets, due to the actions of the Ca2+-dependent protease (Ca-DP), was completely prevented such that in the presence of RGDS, sustained increases in membrane-bound PKC activity were observed. PMA alone caused only transient increases in membrane-bound PKC. This effect of RGDS was similar to the effect of E64-d, a recently described inhibitor of Ca-DP in platelets, or the effects seen with PMA in unstirred non-aggregating platelets. It is concluded that RGDS inhibits the actions of Ca-DP in platelets via inhibition of aggregation.