Synergistic Anticoagulant Effect of Activated Protein C and Tissue Factor Pathway Inhibitor As a Mechanism for Acute Traumatic Coagulopathy

Introduction Severe trauma with tissue damage and shock can rapidly ( aPC inactivates factor Va (FVa) as part of normal hemostasis, but our previous results indicate that aPC at trauma levels is not sufficient to prevent coagulation, particularly when platelets are present, as platelet fVa is resistant to aPC [Campbell JE, PLoS ONE 9:e99181 (2014); Camire RM, Blood 91:2818 (1998)]. Tissue Factor Pathway Inhibitor (TFPI) is an endothelial-bound protein which inhibits coagulation through effects on factor Xa and the factor VIIa-tissue factor complex. It is released in the plasma (normal level 2.5nM, pathophysiologic states including trauma up to 10nM) and is typically cleared by the liver or kidneys. TFPIα accounts for 20% of circulating TFPI and binds FV and FVa [Ndonwi M, J Thromb Haemost 10:1944 (2012)]. Recently, a truncated FV (termed FV-short) produced by an autosomal dominant mutation was found to form complexes with TFPIα, resulting in retention of TFPIα in a 10-fold increase over normal levels in affected individuals [Vincent LM, J Clin Invest 123:3777 (2013)]. FV-short has significantly reduced thrombogenic potential and, by concomitantly raising TFPIα, causes a bleeding disorder. We hypothesize that the activation of PC in acute trauma may result in the production of FV-degradation products which could stabilize TFPIα similarly to the effect of FV-short. The combination of reduced FVa and increased TFPIα may contribute to ATC. Methods Whole blood from healthy volunteers was drawn by phlebotomy into ACD-containing tubes. Platelet-rich plasma (PRP) and platelet-poor plasma (PPP) were collected by centrifugation (200g for 10 min and 1000g for 15 min, respectively). Calibrated automated thrombogram (CAT) assays and thromboelastography (TEG) were conducted using PRP and PPP with exogenously delivered aPC (0, 100pM, or 1nM) and TFPI (0, 2.5nM, or 10nM). An immunodepleted FV-deficient ( Results CAT assays verified that aPC and TFPI each delay and suppress thrombin generation in PPP in a dose-dependent manner, but the combination of aPC and TFPI had a synergistic effect at the highest doses tested. The endogenous thrombin potential (ETP) was eliminated in PPP (control: 1663 nM-min; 1nM aPC + 10nM TFPI: 0 nM-min; P60 min; P60 min, P Conclusions In vitro studies suggest that PC activation is not the sole cause of ATC; the concentrations of aPC measured in trauma patient blood have little effect on the coagulation potential of plasma with or without platelets when aPC is delivered exogenously. The results here demonstrate that there is a synergistic effect between aPC and TFPI. When TFPI is added to FV deficient plasma, the thrombin generation is delayed and suppressed; however, in normal plasma digested with aPC (containing fragmented FVa), the addition of TFPI is sufficient to suppress the generation of thrombin beyond the window of measurement (>60 min). The addition of platelets to the milieu eliminated the effects of aPC, TFPI, and the combination on thrombin generation, highlighting the central role of platelets in maintaining hemostatic function. Disclosures No relevant conflicts of interest to declare.