Abstract
Human platelets express protease-activated receptor 1 (PAR1) and PAR4 but limited data indicate for differences in signal transduction. We studied the involvement of PAR1 and PAR4 in the cross-talk between thrombin and epinephrine. The results show that epinephrine acted via alpha(2A)-adrenergic receptors to provoke aggregation, secretion, and Ca(2+) mobilization in aspirin-treated platelets pre-stimulated with subthreshold concentrations of thrombin. Incubating platelets with antibodies against PAR4 or the PAR4-specific inhibitor pepducin P4pal-i1 abolished the aggregation. Furthermore, platelets pre-exposed to the PAR4-activating peptide AYPGKF, but not to the PAR1-activating peptide SFLLRN, were aggregated by epinephrine, whereas both AYPGKF and SFLLRN synergized with epinephrine in the absence of aspirin. The roles of released ATP and ADP were elucidated by using antagonists of the purinergic receptors P2X(1), P2Y(1), and P2Y(12) (i.e. NF449, MRS2159, MRS2179, and cangrelor). Intriguingly, ATP, but not ADP, was required for the epinephrine/thrombin-induced aggregation. In Western blot analysis, a low concentration of AYPGKF, but not SFLLRN, stimulated phosphorylation of Akt on serine 473. Moreover, the phosphatidyl inositide 3-kinase inhibitor LY294002 antagonized the effect of epinephrine combined with thrombin or AYPGKF. Thus, in aspirin-treated platelets, PAR4, but not PAR1, interacts synergistically with alpha(2A)-adrenergic receptors, and the PI3-kinase/Akt pathway is involved in this cross-talk. Furthermore, in PAR4-pretreated platelets, epinephrine caused dense granule secretion, and subsequent signaling from the ATP-gated P2X(1)-receptor and the alpha(2A)-adrenergic receptor induced aggregation. These results suggest a new mechanism that has ATP as a key element and circumvents the action of aspirin on epinephrine-facilitated PAR4-mediated platelet activation.
Highlights
JULY 4, 2008 VOLUME 283 NUMBER 27 activates platelets directly, whereas tissue factor initiates the coagulation cascade and thereby induces formation of thrombin, which is considered to be the most powerful platelet activator
It is assumed that protease-activated receptors 1 (PAR1) is the high affinity thrombin receptor, whereas PAR4 may contribute to platelet activation only at higher thrombin concentrations [6]
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Summary
JULY 4, 2008 VOLUME 283 NUMBER 27 activates platelets directly, whereas tissue factor initiates the coagulation cascade and thereby induces formation of thrombin, which is considered to be the most powerful platelet activator. Two G-protein-coupled thrombin receptor subtypes designated protease-activated receptors 1 (PAR1) and PAR4 are expressed on the surface of human platelets. The biphasic Ca2ϩ response induced by thrombin can be separated into two discrete components, a rapid spike response, caused mainly by PAR1 activation, followed by a slower and prolonged response of PAR4, possibly caused by slower uncoupling from G-protein signaling [1, 2]. Both PAR1 and PAR4 activate the G␣q and G␣12/13 proteins [3], but recent publications have indicated differences in the signal transduction pathways [4, 5]. This suggests both a vital role for PAR4 and an unexpectedly strong effect of ATP in the process of platelet activation
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