The protein C anticoagulant pathway plays a crucial role in the control of
thrombus formation. Protein C circulates in plasma as an inactive zymogen that is
converted to the active enzyme, activated protein C (APC) on the surface of endothelial
cells by the thrombin-thrombomodulin complex. Another receptor, the endothelial
protein C receptor (EPCR) binds protein C on the endothelial cell surface and further
enhances the rate of protein C activation. APC is then released from the complex, binds
protein S and inhibits thrombin formation by inactivating coagulation factors Va and
VIIIa.
The protein C pathway also plays a significant role in inflammatory processes,
and displays anti-apoptotic and neuroprotective activities.
Therefore, alterations in the expression or in the assembly of these four proteins
could lead to a reduction in APC levels and to an increase in the thrombotic risk.
We have developed a sensitive, rapid and reproducible assay for the
determination of circulating APC levels. Using this assay, we have observed that
reduced APC levels constitute an independent prevalent risk for venous thrombosis,
which seems to be hereditary.
We have identified several mutations in the proteins that form the protein C
activation complex.
The C1418T (Ala455Val) polymorphism in the thrombomodulin gene is
associated with increased APC levels and decreased risk of venous thromboembolism.
The A4600G (Ser219Gly) polymorphism in the EPCR gene determines the
levels of soluble EPCR.
And the G4678C polymorphism located in the 3´ untranslated region of EPCR is
associated with increased levels of circulating APC and decreased risk of venous
thrombosis, as we also observed in carriers of the factor V Leiden mutation, the most
common genetic risk factor for familial venous thrombosis.