Literature DB >> 26619766

Dextran sulfate triggers platelet aggregation via direct activation of PEAR1.

Christophe Vandenbriele1, Yi Sun2, Maarten Criel1, Katrien Cludts1, Soetkin Van Kerckhoven1, Benedetta Izzi1, Thomas Vanassche1, Peter Verhamme1, Marc F Hoylaerts1.   

Abstract

UNLABELLED: Dextran sulfate (DxS; Mr 500 kD) induces fibrinogen receptor (αIIbβ3) activation via CLEC-2/Syk signaling and via a Syk-independent SFK/PI3K/Akt-dependent tyrosine kinase pathway in human and murine platelets. The platelet surface receptor, responsible for the DxS-induced Syk-independent Akt-activation, has hitherto not been identified. We found that DxS elicited a concentration-dependent aggregation of human platelets resulting from direct PEAR1 activation by DxS. Blocking the PEAR1 receptor, in combination with a selective Syk-inhibitor, completely abrogated the DxS-driven platelet aggregation. The DxS-induced Syk-phosphorylation was not affected in Pear1(-/-) platelets, but Akt-phosphorylation was largely abolished. As a result, the aggregation of Pear1(-/-) platelets was reduced and reversible, i.e. aggregates were less stable compared to wild-type platelet aggregates. Moreover, DxS-induced Pear1(-/-) platelet aggregation was fully abrogated by Syk inhibition, indicating that the remaining platelet aggregation of Pear1(-/-) platelets was Syk dependent. Hence, the Pear1/c-Src/PI3K/Akt- and CLEC-2/Syk-signaling pathways are independently and additively activated during platelet aggregation by DxS.
CONCLUSION: The DxS-induced aggregation of human and murine platelets is the result of activation of PI3K/Akt through direct PEAR1 phosphorylation and parallel Syk-signaling through CLEC-2.

Entities:  

Keywords:  Basic research—platelet signaling; PEAR1; Pear1−/− platelets; Syk; dextran sulfate; platelets; signaling

Mesh:

Substances:

Year:  2015        PMID: 26619766     DOI: 10.3109/09537104.2015.1111321

Source DB:  PubMed          Journal:  Platelets        ISSN: 0953-7104            Impact factor:   3.862


  11 in total

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