Thioredoxin-related transmembrane protein 1 negatively regulates coagulation and phosphatidylserine exposure

Abstract

BackgroundFive secreted platelet protein disulfide isomerases (PDIs) and 1 transmembrane PDI regulate platelet function and thrombosis. Thioredoxin-related transmembrane protein 1 (TMX1) was the first member of the PDI family found to negatively regulate platelet aggregation and platelet accumulation in vivo. The effect of TMX1 on coagulation is unknown. ObjectivesTo determine the effect of TMX1 on coagulation. MethodsTMX1-/- mice were used to study platelet accumulation and fibrin deposition in vivo in the laser-induced thrombosis injury model. Annexin V deposition at the site of vascular injury was studied using conditional TMX1 knockout mice. Annexin V binding to platelets was studied using human platelets, anti-TMX1 antibodies, and TMX1-deficient platelets. ResultsTMX1-/- mice had increased fibrin deposition that was reversed with infusion of recombinant TMX1. Infusion of recombinant TMX1 inhibited platelet accumulation and fibrin deposition in wild-type mice and inhibited fibrin deposition in β3-null mice. Platelet accumulation is absent in β3-null mice, suggesting that TMX1 inhibits coagulation independently of platelets. Annexin V binding was increased in activated human platelets incubated with an anti-TMX1 antibody and mouse platelets lacking TMX1. Addition of recombinant TMX1 decreased annexin V binding to platelets. Annexin V binding was increased at the site of vascular injury in Tie2-Cre/TMX1fl/fl mice deficient in endothelial cell TMX1. ConclusionTMX1 decreases coagulation at the site of vascular injury and negatively regulates phosphatidylserine exposure on endothelial cells and platelets.