In Vivo Analysis of the Role of O-Glycosylations of Von Willebrand Factor

The objective of this project was to study the function of O-glycosylations in von Willebrand factor (VWF) life cycle. In total, 14 different murine Vwf cDNAs mutated on one or several O-glycosylations sites were generated: 9 individual mutants, 2 doublets, 2 clusters and 1 mutant with all 9 murine glycosylation sites mutated (Del-O-Gly). We expressed each mutated cDNA in VWF deficient-mice by hydrodynamic injection. An immunosorbent assay with Peanut Agglutinin (PNA) was used to verify the O-glycosylation status. Wild-type (WT) VWF expressed by hepatocytes after hydrodynamic injection was able to bind PNA with slightly higher affinity than endothelial-derived VWF. In contrast, the Del-O-Gly VWF mutant did not bind PNA, demonstrating removal of O-linked glycans. All mutants displayed a normal multimeric pattern. Two mutants, Del-O-Gly and T1255A/T1256A, led to expression levels 50% lower than those induced by WT VWF and their half-life in vivo was significantly reduced. When testing the capacity of each mutant to correct the bleeding time of VWF-deficient mice, we found that S1486A, T1255A, T1256A and the doublet T1255A/T1256A were unable to do so. In conclusion we have shown that O-glycosylations are dispensable for normal VWF multimerization and biosynthesis. It also appears that some O-glycosylation sites, particularly the T1255 and T1256 residues, are involved in the maintenance of VWF plasma levels and are essential for normal haemostasis. As for the S1486 residue, it seems to be important for platelet binding as demonstrated in vitro using perfusion experiments

A Novel Single-Domain Antibody Against von Willebrand Factor A1 Domain Resolves Leukocyte Recruitment and Vascular Leakage During Inflammation—Brief Report

International audienceObjective—von Willebrand factor (VWF) is crucial to hemostasis, but also plays a role in inflammatory processes. Unfortunately, no proper monoclonal antibodies to study VWF function in mice are currently available. We therefore aimed to generate single-domain antibodies (sdAbs) recognizing murine VWF and blocking its function in vivo.Approach and Results—Llama-derived sdAbs recognizing both human and murine VWF were isolated via phage display technology. One of them (designated KB-VWF-006) recognized the VWF A1 domain with picomolar affinity. This sdAb avidity was strongly enhanced via dimerization using a triple Ala linker (KB-VWF-006bi). When administered in vivo to wild-type mice, KB-VWF-006bi dose dependently induced bleeding in a tail clip model. In 2 distinct models of inflammation, KB-VWF-006bi efficiently interfered with leukocyte recruitment and vascular leakage.Conclusions—KB-VWF-006bi is an sdAb recognizing the A1 domain of human VWF and murine VWF that interferes with VWF–platelet interactions in vivo. By using this sdAb, we now also show that the A1 domain is pertinent to the participation of VWF in the inflammatory response

A thrombopoietin receptor agonist to rescue an unusual platelet transfusion-induced reaction in a p.V1316M-associated von Willebrand disease type 2B patient

International audienceThis report describes the first case of splenic injury in a patient with p.V1316M-associated von Willebrand disease type 2B (VWD2B) with chronic thrombocytopenia, successfully treated with nonoperative management including von Willebrand factor (VWF) replacement therapy, and platelet transfusions relayed by a thrombopoietin receptor agonist (TPO-RA, Eltrombopag). Eltrombopag was initially introduced to rescue an unusual post-platelet-transfusion reaction exacerbating the thrombocytopenia. In-depth analysis of the dramatic platelet count drop and VWF measurements timeline ruled out an allo-immune reaction and supported an alternative hypothesis of a sudden platelet clearance as a consequence of stress-induced release of abnormal VWF. One year later, a second life-threatening bleeding episode required urgent surgery successfully managed with VWF replacement therapy and platelet transfusions. Eltrombopag was further introduced in the post-surgery period to allow bleeding-free and platelet-transfusion-free successful recovery. Treatment decisions are particularly challenging in patients with VWD2B, and this case highlights how such decisions can benefit from understanding the molecular origin of platelet count fluctuations observed in these patients. Here, we successfully used a new therapeutic approach combining VWF-replacement therapy and initial platelet-transfusion relayed by TPO-RA to optimize patient management. Plain language summary A combination of von Willebrand factor replacement and thrombopoietin receptor agonist in thrombocytopenic patients with von Willebrand disease type 2B: a new therapy approach to optimize patient management? Therapeutic management of patients with von Willebrand disease type 2B are particularly challenging in case of severe thrombocytopenia. Treatment includes von Willebrands factor replacement therapy and iterative platelet transfusions. We describe the first case of splenic injury in a patient with p.V1316M-associated von Willebrand disease type 2B successfully treated with nonoperative management including von Willebrand factor replacement therapy and platelet transfusions relayed by a thrombopoietin receptor agonist. We showed that the unusual post-platelet-transfusion reaction associated with a dramatic platelet count drop was a consequence of stress-induced release of abnormal von Willebrand factor. The combination of von Willebrand factor replacement therapy and thrombopoietin receptor agonist may offer a new therapeutic approach to optimize patient management

Macrophage scavenger receptor SR-AI contributes to the clearance of von Willebrand factor

International audiencePreviously, we found that LDL-receptor related protein-1 on macrophages mediated shear stress-dependent clearance of von Willebrand factor. In control experiments, however, we observed that von Willebrand factor also binds to macrophages independently of this receptor under static conditions, suggesting the existence of additional clearance-receptors. In search for such receptors, we focused on the macrophage-specific scavenger-receptor SR-AI. von Willebrand factor displays efficient binding to SR-AI (half-maximum binding 14±5 nM). Binding is calcium-dependent and is inhibited by 72±4% in the combined presence of antibodies against the A1- and D4-domains. Association with SR-AI was confirmed in cell-binding experiments. In addition, binding to bone marrow-derived murine SR-AI-deficient macrophages was strongly reduced compared to binding to wild-type murine macrophages. Following expression via hydrodynamic gene transfer, we determined ratios for von Willebrand factor-propeptide over von Willebrand factor-antigen, a marker of von Willebrand factor clearance. Propeptide/antigen ratios were significantly reduced in SR-AI-deficient mice compared to wild-type mice (0.6±0.2 versus 1.3±0.3; P<0.0001), compatible with a slower clearance of von Willebrand factor in SR-AI-deficient mice. Interestingly, mutants associated with increased clearance (von Willebrand factor/p.R1205H and von Willebrand factor/p.S2179F) had significantly increased binding to purified SR-AI and SR-AI expressed on macrophages. Accordingly, propeptide/antigen ratios for these mutants were reduced in SR-AI-deficient mice. In conclusion, we have identified SR-AI as a novel macrophage-specific receptor for von Willebrand factor. Enhanced binding of von Willebrand factor mutants to SR-AI may contribute to the increased clearance of these mutants

A factor VIII–nanobody fusion protein forming an ultrastable complex with VWF: effect on clearance and antibody formation

International audienceVon Willebrand factor (VWF) modulates factor VIII (FVIII) clearance and the anti-FVIII immune response. Despite the high affinity that defines the FVIII/VWF interaction, association/dissociation kinetics dictates 2% to 5% FVIII being present as free protein. To avoid free FVIII when studying the FVIII-VWF complex in vivo, we designed a FVIII-nanobody fusion protein, with the nanobody part being directed against VWF. This fusion protein, designated FVIII-KB013bv, had a 25-fold higher affinity compared with B-domainless FVIII (BDD-FVIII) for VWF. In vitro analysis revealed full cofactor activity in 1-stage clotting and chromogenic assays (activity/antigen ratio 1.0 ± 0.3 and 1.1 ± 0.3, respectively). In vivo, FVIII-013bv displayed a twofold increased mean residence time compared with BDD-FVIII (3.0 hours vs 1.6 hours). In a tail clip–bleeding assay performed 24 hours after FVIII infusion, blood loss was significantly reduced in mice receiving FVIII-KB013bv vs BDD-FVIII (15 ± 7 μL vs 194 ± 146 μL; P = .0043). Unexpectedly, when examining anti-FVIII antibody formation in FVIII-deficient mice, the immune-response toward FVIII-KB013bv was significantly reduced compared with BDD-FVIII (1/8 vs 14/16 mice produced anti-FVIII antibodies after treatment with FVIII-KB013bv and BDD-FVIII, respectively). Our data show that a stabilized interaction between FVIII and VWF is associated with a prolonged survival of FVIII and a reduced immune response against FVIII

In vivo modulation of a dominant‐negative variant in mouse models of von Willebrand disease type 2A

International audienceBackground: Treatment options for patients suffering from von Willebrand disease (VWD) are limited. Willebrand factor (VWF) is a polymeric protein that undergoes regulated dimerization and subsequent multimerization during its biosynthesis. Numerous heterozygous variants within the VWF-gene display a dominant-negative effect and result in severe von Willebrand disease (VWD). Previous studies have suggested that preventing the assembly of wild-type and mutant heteropolymers using siRNAs may have beneficial effects on VWF phenotypes in vitro.Objectives: To study heterozygous dominant-negative variants in vivo, we developed a mouse model of VWD-type 2A and tested two independent strategies to modulate its detrimental effect.Methods: The p.P1127_C1948delinsR deletion/variant, causing defective VWF multimerization was expressed in mice as a model of VWD-type 2A variant. Two corrective strategies were applied. For the first time in a mouse model of VWD, we applied siRNAs selectively inhibiting translation of the mutant transcripts and we combined the VWD-type 2A deletion with the Cys to Arg substitution at position 2773, which is known to prevent dimerization.Results: The RNA silencing approach induced a modest but consistent improvement of the VWF multimer profile. However, due to incomplete efficiency, the dominant-negative effect of the original variant could not be completely prevented. In contrast, the DNA-approach resulted in increased antigen levels and restoration of a normal multimer profile.Conclusions: Our data showed that preventing the detrimental impact of dominant-negative VWF variants by independent molecular mechanisms has beneficial consequences in vivo, in mouse models of dominant VWD

Decreased ADAMTS-13 (A disintegrin-like and metalloprotease with thrombospondin type 1 repeats) is associated with a poor prognosis in sepsis-induced organ failure

OBJECTIVE: The inability to regulate the inflammatory response initiated upon infection leads to severe sepsis, characterized by widespread microvascular injury and thrombosis, organ ischemia, and dysfunction. A disintegrin-like and metalloprotease with thrombospondin type 1 repeats (ADAMTS)-13 regulates primary hemostasis by proteolyzing von Willebrand factor (VWF). Decreased ADAMTS-13 has been reported in disseminated intravascular coagulation due to severe sepsis. The present study investigates whether the sepsis-related dysregulation of endothelial activation leads to specific changes of ADAMTS-13. DESIGN: Case-control study. SETTING: Adult intensive care unit in a university hospital. PATIENTS/SUBJECTS: Three groups were studied: a case group of 30 patients with severe sepsis, a control group of 29 patients with comparable organ failure unrelated to sepsis, and 30 age- and gender-matched healthy subjects. INTERVENTIONS: None. MEASUREMENTS AND MAIN RESULTS: Significantly lower ADAMTS-13 activity was observed in patients with severe sepsis (43.2%; interquartile range, 32.7, 67.0) than in patients with organ failure unrelated to sepsis (67.8%; 57.4, 87.9; p < .05) and healthy subjects (105.6%; 87.2, 125.6; p < .001). Accordingly, ADAMTS-13 antigen was more decreased in patients with severe sepsis than in patients with organ failure unrelated to sepsis and healthy subjects. VWF antigen was higher in patients with severe sepsis than in patients with organ failure unrelated to sepsis and healthy subjects. We found strong negative correlations in severe sepsis but not in organ failure unrelated to sepsis, between ADAMTS-13 activity and 1) VWF antigen; 2) thrombomodulin; 3) interleukin-6; 4) Acute Physiology and Chronic Health Evaluation II score; 5) shock; 6) acute renal injury. Moreover, patients above the median of ADAMTS-13 activity presented a higher survival compared with those below the median in the patients with severe sepsis but not in the patients with organ failure unrelated to sepsis. In contrast, there was no significant association between VWF antigen and survival in either the severe sepsis group or the group with organ failure unrelated to sepsis. CONCLUSIONS: We observed low ADAMTS-13 activity and antigen in severe sepsis and in other conditions associated with organ dysfunction. ADAMTS-13 levels were significantly associated with differences in morbidity, mortality, and variables of inflammation and endothelial dysregulation only in severe sepsis patients. This suggests that ADAMTS-13 deficiency may have a pathophysiological relevance specific to severe sepsis.status: publishe

Decreased ADAMTS-13 (A disintegrin-like and metalloprotease with thrombospondin type 1 repeats) is associated with a poor prognosis in sepsis-induced organ failure

Objective: The inability to regulate the inflammatory response initiated upon infection leads to severe sepsis, characterized by widespread microvascular injury and thrombosis, organ ischemia, and dysfunction. A disintegrin-like and metalloprotease with thrombospondin type 1 repeats (ADAMTS)-13 regulates primary hemostasis by proteolyzing von Willebrand factor (VWF). Decreased ADAMTS-13 has been reported in disseminated intravascular coagulation due to severe sepsis. The present study investigates whether the sepsis-related dysregulation of endothelial activation leads to specific changes of ADAMTS-13. Design: Case-control study. Setting: Adult intensive care unit in a university hospital. Patients/Subjects. Three groups were studied: a case group of 30 patients with severe sepsis, a control group of 29 patients with comparable organ failure unrelated to sepsis, and 30 age- and gender-matched healthy subjects. Interventions: None. Measurements and Main Results: Significantly lower ADAMTS-1 3 activity was observed in patients with severe sepsis (43.2%; interquartile range, 32.7, 67.0) than in patients with organ failure unrelated to sepsis (67.8%; 57.4, 87.9; p < .05) and healthy subjects (105.6%; 87.2,125.6; p < .001). Accordingly, ADAMTS-13 antigen was more decreased in patients with severe sepsis than in patients with organ failure unrelated to sepsis and healthy subjects. VWF antigen was higher in patients with severe sepsis than in patients with organ failure unrelated to sepsis and healthy subjects. We found strong negative correlations in severe sepsis but not in organ failure unrelated to sepsis, between ADAMTS-13 activity and 1) VWF antigen; 2) thrombomodulin; 3) interleukin-6; 4) Acute Physiology and Chronic Health Evaluation 11 score; 5) shock; 6) acute renal injury. Moreover, patients above the median of ADAMTS-13 activity presented a higher survival compared with those below the median in the patients with severe sepsis but not in the patients with organ failure unrelated to sepsis. In contrast, there was no significant association between VWF antigen and survival in either the severe sepsis group or the group with organ failure unrelated to sepsis. Conclusions: We observed low ADAMTS-13 activity and antigen in severe sepsis and in other conditions associated with organ dysfunction. ADAMTS-13 levels were significantly associated with differences in morbidity, mortality, and variables of inflammation and endothelial dysregulation only in severe sepsis patients. This suggests that ADAMTS-13 deficiency may have a pathophysiological relevance specific to severe sepsis