Epac1-deficient mice have bleeding phenotype and thrombocytes with decreased GPIbβ expression

Epac1 (Exchange protein directly activated by cAMP 1) limits fluid loss from the circulation by tightening the endothelial barrier. We show here that Epac1 −/− mice, but not Epac2 −/− mice, have prolonged bleeding time, suggesting that Epac1 may limit fluid loss also by restraining bleeding. The Epa...

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Bibliographic Details
Published in:Scientific reports 2017-08, Vol.7 (1), p.8725-15, Article 8725
Main Authors: Nygaard, Gyrid, Herfindal, Lars, Asrud, Kathrine S., Bjørnstad, Ronja, Kopperud, Reidun K., Oveland, Eystein, Berven, Frode S., Myhren, Lene, Hoivik, Erling A., Lunde, Turid Helen Felli, Bakke, Marit, Døskeland, Stein O., Selheim, Frode
Format: Article
Language:English
Subjects:
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Adenosine Diphosphate - pharmacology
Animals
Bleeding
Blood coagulation
Blood Coagulation Factors - metabolism
Blood platelets
Blood Platelets - metabolism
Blood Platelets - ultrastructure
Bone marrow
Cell Size
Clotting
Coagulation
Coagulation factors
Collagen - pharmacology
Cytomegalovirus
Exocytosis
Fetus - metabolism
Fibrinogen
Genotype & phenotype
Guanine Nucleotide Exchange Factors - deficiency
Guanine Nucleotide Exchange Factors - metabolism
Hemoglobin
Hemorrhage - blood
Hemorrhage - metabolism
Hemostasis
Humanities and Social Sciences
Kinases
Liver - embryology
Megakaryocytes
Megakaryocytes - drug effects
Megakaryocytes - metabolism
Mice, Inbred C57BL
multidisciplinary
P-Selectin - metabolism
Phenotype
Plasma
Plasma levels
Platelet Glycoprotein GPIb-IX Complex - metabolism
Platelets
Proteins
Proteomics
Science
Science (multidisciplinary)
Thrombin - pharmacology
Thrombopoiesis
Viscoelasticity
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Summary:Epac1 (Exchange protein directly activated by cAMP 1) limits fluid loss from the circulation by tightening the endothelial barrier. We show here that Epac1 −/− mice, but not Epac2 −/− mice, have prolonged bleeding time, suggesting that Epac1 may limit fluid loss also by restraining bleeding. The Epac1 −/− mice had deficient in vitro secondary hemostasis. Quantitative comprehensive proteomics analysis revealed that Epac1 −/− mouse platelets (thrombocytes) had unbalanced expression of key components of the glycoprotein Ib-IX-V (GPIb-IX-V) complex, with decrease of GP1bβ and no change of GP1bα. This complex is critical for platelet adhesion under arterial shear conditions. Furthermore, Epac1 −/− mice have reduced levels of plasma coagulation factors and fibrinogen, increased size of circulating platelets, increased megakaryocytes (the GP1bβ level was decreased also in Epac1 −/− bone marrow) and higher abundance of reticulated platelets. Viscoelastic measurement of clotting function revealed Epac1 −/− mice with a dysfunction in the clotting process, which corresponds to reduced plasma levels of coagulation factors like factor XIII and fibrinogen. We propose that the observed platelet phenotype is due to deficient Epac1 activity during megakaryopoiesis and thrombopoiesis, and that the defects in blood clotting for Epac1 −/− is connected to secondary hemostasis.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-017-08975-y