Cellular Physiology and Biochemistry (Apr 2017)

Defective Platelet Activation and Bleeding Complications upon Cholestasis in Mice

  • Nina Sarah Gowert,
  • Meike Klier,
  • Maria Reich,
  • Friedrich Reusswig,
  • Lili Donner,
  • Verena Keitel,
  • Dieter Häussinger,
  • Margitta Elvers

DOI
https://doi.org/10.1159/000475566
Journal volume & issue
Vol. 41, no. 6
pp. 2133 – 2149

Abstract

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Background/Aims: Platelets are essential mediators of hemostasis to avoid excessive blood loss. Cirrhosis and chronic liver diseases are characterized by alterations in hemostasis. Alterations in the secondary hemostasis have been well studied, while defects in primary hemostasis, especially the consequences of cholestatic liver disease on platelet function are not well defined. Methods: After bile duct ligation (BDL) platelet activation and thrombus formation were analyzed in mice. Results: BDL in mice had a moderate effect on platelet counts; however, intrinsic platelet activation was strongly reduced upon activation of the collagen receptor GPVI at early time points. 7 days after bile duct ligation, platelets displayed an almost complete loss of activation with reduced agonist-triggered release of alpha and dense granules and expression of integrin αIIbβ3 on the platelet surface. This activation defects resulted in strongly reduced thrombus formation under flow, reduced platelet adhesion to fibrinogen and bleeding complications in BDL mice as measured by tail bleeding experiments. Mechanistically, elevated nitric oxide and prostacyclin levels induced phosphorylation of Vasodilator-stimulated phosphoprotein (VASP), an established inhibitor of platelet activation. Furthermore increased tissue plasminogen activator in plasma of BDL mice led to enhanced plasmin levels that might be responsible for reduced glycoprotein expression of BDL platelets. Besides, high amounts of bile acids contribute to defective signal transduction as shown in platelets from mice fed with a cholic acid diet. Conclusions: Cholestatic liver disease induces multiple platelet activation defects and impairs thrombus formation responsible for bleeding complications at least in mice.

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