Maximal PAI-1 inhibition in vivo requires neutralizing antibodies that recognize and inhibit glycosylated PAI-1

Plasminogen activator inhibitor-1 (PAI-1) regulates the activity of t-PA and u-PA and is an important inhibitor of the plasminogen activator system. Elevated PAI-1 levels have been implicated in the pathogenesis of several diseases. Prior to the evaluation of PAI-1 inhibitors in humans, there is a strong need to study the effect of PAI-1 inhibition in mouse models.In the current study, four monoclonal antibodies previously reported to inhibit recombinant PAI-1 in vitro, were evaluated in an LPS-induced endotoxemia model in mice. Both MA-33H1F7 and MA-MP2D2 exerted a strong PAI-1 inhibitory effect, whereas for MA-H4B3 and MA-124K1 no reduced PAI-1 activity was observed in vivo. Importantly, the lack of PAI-1 inhibition observed for MA-124K1 and MA-H4B3 in vivo corresponded with the absence of inhibition toward glycosylated mouse PAI-1 in vitro.Three potential N-glycosylation sites were predicted for mouse PAI-1 (i.e. N209, N265 and N329). Electrophoretic mobility analysis of glycosylation knock-out mutants before and after deglycosylation indicates the presence of glycan chains at position N265.These data demonstrate that an inhibitory effect toward glycosylated PAI-1 is a prerequisite for efficient PAI-1 inhibition in mice. Our data also suggest that PAI-1 inhibitors for use in humans must preferably be screened on glycosylated PAI-1 and not on recombinant non-glycosylated PAI-1.     

Characterization of a small molecule PAI-1 inhibitor, ZK4044

Plasminogen activator inhibitor-1 (PAI-1) is a key negative regulator of the fibrinolytic system. In animal studies, inhibition of PAI-1 activity prevents arterial and venous thrombosis, indicating that PAI-1 inhibitors may be used as a new class of antithrombotics. In this study, we characterize a small molecule PAI-1 inhibitor, ZK4044, which was identified by high throughput screening and chemically optimized. In a chromogenic substrate-based urokinse (uPA)/PAI-1 assay and a tissue-type plasminogen activator (tPA)-mediated clot lysis assay, ZK4044 inhibited human PAI-1 activity with IC50 values of 644+/-255 and 100+/-90 nM, respectively. ZK4044 had no detectable inhibitory activity toward other serpins such as antithrombin III, alpha1-antitrypsin and alpha2-antiplasmin, indicating that ZK4044 is a specific PAI-1 inhibitor. ZK4044 was shown to bind directly to PAI-1 and prevent the binding of PAI-1 to tPA in a dose-dependent manner in surface plasmon resonance Biacore-based experiments. ZK4044 also prevented PAI-1/tPA complex formation, as analyzed by SDS/PAGE. ZK4044 had little effect on elastase-mediated cleavage of active PAI-1, indicating that the primary mode of action of ZK4044 is most likely to directly block the PAI-1/tPA interaction rather than to convert active PAI-1 to latent PAI-1. In the chromogenic substrate-based uPA/PAI-1 assay, ZK4044 was approximately 2-fold less potent against a mutant PAI-1 (14B-1), which contains four mutations at N150H, K154T, Q319L and M354I, compared with wild-type PAI-1, suggesting that the ZK4044 binding site on the surface of PAI-1 is close to these mutant residues. Together, our data show that ZK4044 represents a new class of small molecule PAI-1 inhibitors with anti-thrombotic potential.     

The role of thrombin-activatable fibrinolysis inhibitor in diabetic wound healing

Introduction

One of the major complications in patients with diabetes mellitus is impaired wound healing. The fibrinolytic system is involved in parts of the wound healing process and deficiency of thrombin-activatable fibrinolysis inhibitor (TAFI) results in delayed wound closure. Moreover, levels of TAFI are affected by diabetes mellitus. The aim of this study was to elucidate the effect of hyperglycaemia on TAFI and to determine the effect of deficiency of TAFI on wound healing under hyperglycaemic conditions.

Materials and methods

Hyperglycaemia was induced with streptozotocin (STZ) and used as a model for diabetes mellitus. TAFI plasma levels and TAFI gene expression in the liver were determined. Incisional and excisional wound healing were studied in non-treated and STZ-treated wild-type and TAFI-deficient mice. Wound closure was scored daily as open or closed.

Results

Mice treated with STZ showed hyperglycaemia, and TAFI plasma levels and TAFI gene expression were increased in diabetic mice. TAFI-deficient mice and diabetic wild-type and diabetic TAFI-deficient mice showed delayed wound healing of incisional wounds. No differences were observed between diabetic and non-diabetic TAFI-deficient mice and between diabetic wild-type and diabetic TAFI-deficient mice.

Conclusions

This study illustrated that TAFI was affected by hyperglycaemia and confirmed that TAFI is involved in wound healing. No additional effect was observed under hyperglycaemic conditions, indicating that deficiency of TAFI did not have an additive or synergistic effect in diabetic wound healing. Further research has to elucidate if TAFI and hyperglycemia affect wound healing via similar mechanisms.     

Compartment-specific expression of plasminogen activator inhibitor-1 correlates with severity/outcome of murine polymicrobial sepsis

Introduction

Plasminogen activator inhibitor type 1 (PAI-1) co-induces septic coagulopathy. We aimed to characterize spatiotemporal PAI-1 gene/protein changes occurring in acute sepsis and tested whether PAI-1 fluctuations correlate with sepsis severity and early outcome.

Materials and Methods

Female mice underwent cecal ligation and puncture (CLP) in three experiments. I: mild (23G needle) CLP to compare circulating PAI-1 to its organ gene expression within 0-24 h. II: mild or severe (17G) CLP to asses differences in PAI-1 organ-specific expression and in coagulation/fibrinolysis. III: moderate (18G) CLP to characterize circulating PAI-1 in survivors (SUR), and to retrospectively compare it to dying (DIE) mice.

Results

In mild sepsis, the trajectory of circulating PAI-1 (1089 ng/ml peak at 24 h) was identical to PAI-1 gene expression in the left cranial vena cava (LCVC; 39-fold peak at 24 h). PAI-1 expression rise was immediate (60-fold at 6 h) and sustained in the liver, but marginal in the kidney, lungs and heart. Body temperature decrease correlated with the PAI-1 expression increase in the liver (rho = − 0.79), and blood (protein, rho = − 0.53). Regardless of severity, PAI-1 gene expression remained unaltered except the LCVC where it was > 3-fold higher in 17G (vs. 23G). Severe sepsis extended activated partial thromboplastin/pro-thrombin time and increased circulating PAI-1, while antithrombin and fibrinogen decreased at 6 and/or 24 h (vs. 23G). Within 24 h of death, circulating PAI-1 in DIE was > 3-fold higher versus SUR.

Conclusions

Polymicrobial sepsis caused a gradual circulating PAI-1 release and highly variable gene expression response pattern in organs. Only circulating PAI-1 and PAI-1 expression in the LCVC correlated with response severity and/or outcome.     

TAFI and PAI-1 levels in human sepsis

BACKGROUND: Plasminogen activator inhibitor type-1 (PAI-1) is considered to be the main inhibitor of fibrinolysis in sepsis. However, the contribution of TAFI to the inhibition of fibrinolysis in sepsis is currently unknown. METHODS: TAFI antigen and PAI-1 levels were measured in severe sepsis (n = 32) and septic shock (n = 8) patients. In addition, TAFI antigen levels had been determined in 151 controls. RESULTS: Septic patients had significantly (p < 0.0001) decreased TAFI levels (median: 78.9% [range: 32.4-172.6]) as compared to controls (108.1% [35.9-255.4]). TAFI levels were equal in septic shock and severe sepsis (68.9% [32.4-172.6] vs. 82.5% [32.7-144.9], p = 0.987) as well as in survivors and non-survivors (87.1% [32.7-172.6] vs. 65.8% [32.4-129.5], p = 0.166). PAI-1 levels were significantly (705.5 ng/ml [131-5788]) higher in septic shock as in severe sepsis patients (316.5 ng/ml [53-1311], p = 0.016) and were equal in survivors and non-survivors (342 ng/ml [53-1311] vs. 413 ng/ml [55-5788], p = 0.231). TAT/PAP ratio (R((TAT/PAP))) reflecting the dysbalance between coagulation and fibrinolysis was calculated. R((TAT/PAP)) significantly increased with fatality and was significantly dependent on PAI-1, but not on TAFI. PAI-1 levels (570.5 ng/ml [135-5788]) and R((TAT/PAP)) (1.6 [0.3-6.1]) were significantly (p = 0.008 and p = 0.047) higher in patients with overt DIC as compared to patients without overt DIC (310 ng/ml [53-1128] and 0.6 [0.1-4.3]), whereas no difference was found for TAFI levels (68.9% [32.7-133.2] vs. 86.4% [32.4-172.6], p = 0.325). CONCLUSIONS: Although inhibition in sepsis is mediated by both, PAI-1 might be involved early in the sepsis process, whereas TAFI might be responsible for ongoing fibrinolysis inhibition in later stages of sepsis.     

Residual vein thrombosis and onset of post-thrombotic syndrome: Influence of the 4G/5G polymorphism of plasminogen activator inhibitor-1 gene

Background

Plasminogen activator inhibitor-1 (PAI-1) is the most important inhibitor of plasminogen activator. The functional 4G/5G polymorphism of the gene coding for PAI-1 may affect PAI-1 plasmatic activity, influencing the imbalance between coagulation and fibrinolysis cascades.In this prospective cohort analytic study, we investigated the role of this single nucleotide polymorphism in the persistence of thrombotic lesion and the occurrence of post-thrombotic syndrome.

Patients/Methods

In a group of 168 patients with post-surgical deep vein thrombosis of the legs, we analyzed the 4G/5G polymorphism in the promoter of PAI-1 gene and plasmatic PAI-1 activity.Enrolled patients were divided in two groups: patients with 4G/5G polymorphism and increased PAI-1 activity (n = 85) and patients without 4G/5G polymorphism and normal PAI-1 activity (n = 83). All patients were treated according to current protocols and re-examined after 3, 12 and 36 months in order to evaluate the persistence of thrombotic lesion and the occurrence of post-thrombotic syndrome.

Results

We found a significantly increased PAI activity in carrier of the 4G allele, who experienced much more frequently a persistence of thrombosis after 3, 12 and 36 months and/or the development of post-thrombosis syndrome, in spite of the anticoagulant treatment.

Conclusions

These data not only confirm the role played by PAI-1 activity and by the 4G/5G SNP of the PAI-1 gene, but also suggest that current therapeutic protocols, recommending the administration of low weight molecular heparin and oral anticoagulant for the treatment of deep vein thrombosis, could be non sufficient for patients genetically predisposed to a less efficient clot lysis.     

Effects of carvedilol or metoprolol on PAI-1, tPA-mass concentration or Von Willebrand factor in chronic heart failure - a COMET substudy

Introduction

In COMET (Carvedilol or Metoprolol European Trial), carvedilol reduced mortality compared with metoprolol in patients with chronic heart failure. We hypothesized that carvedilol might have greater effects on endothelial derived haemostatic factors than metoprolol. We aimed to study the effects of carvedilol or metoprolol on tissue plasminogen activator (tPA), its inhibitor PAI-1 and Von Willebrand factor (VWF) in patients with heart failure.

Material and Methods

We recruited 260 patients (134 on carvedilol, 126 on metoprolol), mean age 66 years and 84% of them men. Plasma mass concentrations of tPA and PAI-1and percent of VWF were measured at baseline and after one and two years of treatment.

Results

Plasma tPA, PAI-1 and VWF were similar between treatment groups at baseline and no significant differences between groups emerged after one or two years of treatment. In paired analyses in patients assigned to carvedilol, median PAI-1 level decreased from 37.2 to 32.1 µg/l at two years (p = 0.034) and of VWF decreased from baseline to one year (240 vs. 218%, p = 0.023) in patients assigned to carvedilol but were not reduced at any time in patients assigned to metoprolol. Plasma tPA increased over time in both treatment groups (p = 0.013 and 0.027 respectively).

Conclusion

We found no significant difference in the effects of carvedilol or metoprolol on tPA, PAI-1 and VWF. Comparison over time within treatment groups suggested that PAI-1 and VWF might have declined on carvedilol but not on metoprolol. Our hypothesis is not proved but this may reflect an inadequate sample size rather than lack of an effect.     

Redirection of the reaction between activated protein C and a serpin to the substrate pathway

BACKGROUND: Activated protein C (APC) reduces mortality in severe sepsis. Protecting APC in the circulatory system from inactivation by serine protease inhibitors (serpins) could improve its therapeutic efficiency. Significantly elevated levels of a serpin plasminogen activator inhibitor 1 (PAI-1) correlate with a lethal outcome in severe sepsis and disseminated intravascular coagulation. Intermolecular mechanisms were employed to redirect the reaction between APC and PAI-1 from the inhibitory to the substrate pathway, which results in the catalytic neutralization of the serpin. METHODS: The effects of anti-PAI-1 monoclonal antibodies (mAbs) and vitronectin, as well as their fragments, on the kinetics and stoichiometry of the reaction between PAI-1 and APC were studied using SDS PAGE and fluorescence spectroscopy. RESULTS: MAbs with epitopes at alpha-helix F redirected 70-80% of the reaction between PAI-1 and APC, to the substrate pathway. Vitronectin and its SMB domain did not affect the stoichiometry of acyl-enzyme formation, but enhanced the effect of mAbs. While vitronectin induced a more than two-fold increase in the rate of the reaction between PAI-1 and APC, neither mAbs (mAb fragments), nor SMB domain of vitronectin affected it. CONCLUSIONS: Ligands interacting with alpha-helix F of PAI-1 demonstrated a potential for the protection of APC from inactivation by PAI-1. Since the mechanism of proteinase/serpin interaction is universal, a similar design and approach could be employed for enhancing the inactivation of other serpins in order to preserve APC activity in the circulation. Rational pharmacological targeting of the inhibitors of APC could have therapeutic utility.     

Effects of TNF-alpha and curcumin on the expression of thrombomodulin and endothelial protein C receptor in human endothelial cells

The objective of this study was to elucidate the effects of tumor necrosis factor-alpha (TNF-alpha) on the expression of thrombomodulin (TM) and endothelial protein C receptor (EPCR) in human endothelial cells as well as the effect of curcumin, a spice and coloring food compound, as a potential therapeutic agent. Human umbilical vein endothelial cells (HUVECs) treated with TNF-alpha (2.0 ng/ml) showed reduced TM mRNA levels by 80%, 97%, 94%, and 97% at 3, 6, 12, and 24 h, respectively (P<0.05), by real-time PCR analysis. Dose-dependent study showed that TM mRNA levels of HUVECs were decreased by 86%, 89%, 91%, and 94% after treatment of TNF-alpha (0, 0.25, 0.5, 1, and 2 ng/ml) for 6 h, respectively (P<0.05). TM protein levels in HUVECs were significantly reduced by 69% in TNF-alpha-treated cells as compared to controls (P<0.05) by Western blot analysis. Secreted protein and activity of TM of HUVEC cultures were also significantly reduced in TNF-alpha-treated cells. In addition, EPCR mRNA levels of HUVECs were significantly reduced in TNF-alpha-treated group as compared to controls (P<0.05). Furthermore, these effects were observed in other types of endothelial cells from human coronary arteries, lung, and skin. Curcumin effectively blocked these effects of TNF-alpha on downregulation of TM and EPCR. These data demonstrate that TNF-alpha significantly decreases expression of TM and EPCR at both mRNA and protein levels in several human endothelial cells. Curcumin can effectively block TNF-alpha-induced endothelial dysfunction. This study suggests a new molecular mechanism of inflammation-induced thrombosis and a new therapeutic strategy to prevent this clinical problem.