Prostaglandin E1 and dibutyryl cyclic AMP enhance platelet resistance to deformation

The effect of prostaglandin E₁ (PGE₁) on platelets is mediated through the PGE₁ receptor and the consequent maintenance of the platelet's discoid shape. The effects of PGE₁ and dibutyryl cAMP (dbcAMP) on the deformability of human platelets were studied. Deformability tests based upon the micropipette aspiration on the platelets were performed by using pipettes with radii (Rp) of 0.26-0.36 gm. The time course of the extension length (Dp, in μg) of the platelets in response to aspiration with a negative pressure (ΔP) of 5 cm H₂ O (ΔP × Rp = 0.15 dynes/cm) was analyzed. PGE₁ treatment (0.1 μM) resulted in a decrease of platelet deformability as compared with results obtained for apparently non-activated, control platelets. The deformation index, i.e., Dp/Rp (PGE₁ -treated) / Dp/Rp (control), was significantly reduced to 0.90 ± 0.04. DbcAMP treatment also significantly decreased the deformability of platelets and this decrease was dbcAMP dose dependent. In contrast, colchicine- or cytochalasin D-treated platelets increased deformability. PGE₁ -treated platelets had a higher [cAMP]_i than controls. Platelets treated with PGE₁ or dbcAMP showed a reduced [Ca²⁺]i increment induced by thrombin as compared to non-treated controls. These results indicate that PGE₁ and dbcAMP treatment of platelets is accompanied by an enhancement of platelet resistance to deformation. The increased [cAMP]_i and low [Ca²⁺]_i after PGE₁ treatment may limit the rearrangement of cytoskeleton and thus enhance platelet resistance to deformation.