Protein disulfide isomerase acts as an injury response signal that enhances fibrin generation via tissue factor activation
Christoph Reinhardt, … , Steffen Massberg, Bernd Engelmann
Christoph Reinhardt, … , Steffen Massberg, Bernd Engelmann
Published February 14, 2008
Citation Information: J Clin Invest. 2008;118(3):1110-1122. https://doi.org/10.1172/JCI32376.
View: Text | PDF
Research Article

Protein disulfide isomerase acts as an injury response signal that enhances fibrin generation via tissue factor activation

Abstract

The activation of initiator protein tissue factor (TF) is likely to be a crucial step in the blood coagulation process, which leads to fibrin formation. The stimuli responsible for inducing TF activation are largely undefined. Here we show that the oxidoreductase protein disulfide isomerase (PDI) directly promotes TF-dependent fibrin production during thrombus formation in vivo. After endothelial denudation of mouse carotid arteries, PDI was released at the injury site from adherent platelets and disrupted vessel wall cells. Inhibition of PDI decreased TF-triggered fibrin formation in different in vivo murine models of thrombus formation, as determined by intravital fluorescence microscopy. PDI infusion increased — and, under conditions of decreased platelet adhesion, PDI inhibition reduced — fibrin generation at the injury site, indicating that PDI can directly initiate blood coagulation. In vitro, human platelet–secreted PDI contributed to the activation of cryptic TF on microvesicles (microparticles). Mass spectrometry analyses indicated that part of the extracellular cysteine 209 of TF was constitutively glutathionylated. Mixed disulfide formation contributed to maintaining TF in a state of low functionality. We propose that reduced PDI activates TF by isomerization of a mixed disulfide and a free thiol to an intramolecular disulfide. Our findings suggest that disulfide isomerases can act as injury response signals that trigger the activation of fibrin formation following vessel injury.

Authors

Christoph Reinhardt, Marie-Luise von Brühl, Davit Manukyan, Lenka Grahl, Michael Lorenz, Berid Altmann, Silke Dlugai, Sonja Hess, Ildiko Konrad, Lena Orschiedt, Nigel Mackman, Lloyd Ruddock, Steffen Massberg, Bernd Engelmann

×

Figure 8

TF activation requires reduced PDI.

Options: View larger image (or click on image) Download as PowerPoint
Constitutive glutathionylation of TF. (A) Basal glutathionylation of cel...
(A) TF activation by PDI. TF-expressing monocytes were incubated with native PDI (1.8 μM), TRX (10 μM), or GRX (4 μM; in the presence of 1 mM GSH) for 15 minutes at room temperature. Then, the procoagulant activity was determined by 2-stage assay. Apart from anti-TF antibody (10 μg/ml), pretreatment of monocytes with the free thiol–selective reagent DTNB also inhibited stimulation of TF activity by PDI (data not shown). *P < 0.05 (versus control); n = 4. (B) Relevance of redox-active cysteines for TF activation by PDI. Bottom: TF-expressing monocytes were incubated with native PDI and a PDI mutant in which the redox-active cysteines were substituted by serine (PDIΔCys1,2). Additionally, the cells were incubated with PDIred and PDIox (all at 1.8 μM). Then, the procoagulant activity was determined (2-stage assay). n = 4. Top: In contrast to native PDI, PDIΔCys1,2 did not deglutathionylate sTF. *P < 0.05 versus control; #P < 0.05 versus native PDI.