Elevated procalcitonin and C‐reactive protein as potential biomarkers of sepsis in a subpopulation of thrombotic microangiopathy patients

Thrombotic microangiopathy (TMA) comprises a group of microvascular thrombosis syndromes associated with multiple pathogenic factors. Deficient activity of ADAMTS13 is a pathogenic factor in a subset of TMA patients that provides a strong rationale for plasma exchange treatment. However, the subset of TMA patients with normal ADAMTS13 activity remains a heterogeneous group of patients in which the appropriate treatment is not well understood. In addition to the common forms of TMA thrombotic thrombocytopenic purpura and the hemolytic uremic syndrome, the differential diagnosis of TMA may include sepsis, autoimmune disorders, and disseminated intravascular coagulation. Optimal treatment of TMA depends on timely recognition of treatable pathogenic factors. We hypothesized that sepsis is a rapidly identifiable pathogenic factor in a subset of TMA patients. To test this hypothesis, we retrospectively measured the rapid biomarkers of sepsis C‐reactive protein (CRP) and procalcitonin (PCT), in a repository of pretreatment plasma samples from 61 TMA patients treated with plasma exchange. Levels were analyzed in 31 severely ADAMTS13‐deficient and 30 ADAMTS13‐normal patients. None of the 31 patients with severe deficiency of ADAMTS13 had elevated PCT. However, 11 of 30 (37%) non‐ADAMTS13‐deficient patient samples were strongly positive for PCT. These patient samples also had a >10‐fold higher median CRP level than patients with normal PCT. We conclude that rapid assays may help identify sepsis in a subset of TMA patients. J. Clin. Apheresis, 2009. © 2009 Wiley‐Liss, Inc.     

Multi‐step binding of ADAMTS‐13 to von Willebrand factor

Summary. Background: ADAMTS‐13 proteolytic activity is controlled by the conformation of its substrate, von Willebrand factor (VWF), and changes in the secondary structure of VWF are essential for efficient cleavage. Substrate recognition is mediated through several non‐catalytic domains in ADAMTS‐13 distant from the active site. Objectives: We hypothesized that not all binding sites for ADAMTS‐13 in VWF are cryptic and analyzed binding of native VWF to ADAMTS‐13. Methods: Immunoprecipiation of VWF–ADAMTS‐13 complexes using anti‐VWF antibodies and magnetic beads was used. Binding was assessed by Western blotting and immunosorbent assays. Results: Co‐immunoprecipitation demonstrated that ADAMTS‐13 binds to native multimeric VWF (K_d of 79 ± 11 nmol L^?1) with no measurable proteolysis. Upon shear‐induced unfolding of VWF, binding increased 3‐fold and VWF was cleaved. Binding to native VWF was saturable, time dependent, reversible and did not vary with ionic strength (I of 50–200). Moreover, results with ADAMTS‐13 deletion mutants indicated that binding to native VWF is mediated through domains distal to the ADAMTS‐13 spacer, probably thrombospondin‐1 repeats. Interestingly, this interaction occurs in normal human plasma with an ADAMTS‐13 to VWF stoichiometry of 0.0040 ± 0.0004 (mean ± SEM, n = 10). Conclusions: ADAMTS‐13 binds to circulating VWF and may therefore be incorporated into a platelet‐rich thrombus, where it can immediately cleave VWF that is unfolded by fluid shear stress.     

An open conformation of ADAMTS‐13 is a hallmark of acute acquired thrombotic thrombocytopenic purpura

Essentials

• Conformational changes in ADAMTS‐13 are part of its mode‐of‐action.
• The murine anti‐ADAMTS‐13 antibody 1C4 discriminates between folded and open ADAMTS‐13.
• ADAMTS‐13 conformation is open in acute acquired thrombotic thrombocytopenic purpura (TTP).
• Our study forms an important basis to fully elucidate the pathophysiology of TTP.

Summary

Background

Acquired thrombotic thrombocytopenic purpura (aTTP) is an autoimmune disorder characterized by absent ADAMTS‐13 activity and the presence of anti‐ADAMTS‐13 autoantibodies. Recently, it was shown that ADAMTS‐13 adopts a folded or an open conformation.

Objectives

As conformational changes in self‐antigens play a role in the pathophysiology of different autoimmune diseases, we hypothesized that the conformation of ADAMTS‐13 changes during acute aTTP.

Methods

Antibodies recognizing cryptic epitopes in the spacer domain were generated. Next, the conformation of ADAMTS‐13 in 40 healthy donors (HDs), 99 aTTP patients (63 in the acute phase versus 36 in remission), 12 hemolytic–uremic syndrome (HUS) patients and 63 sepsis patients was determined with ELISA.

Results

The antibody 1C4 recognizes a cryptic epitope in ADAMTS‐13. Therefore, we were able to discriminate between a folded and an open ADAMTS‐13 conformation. We showed that ADAMTS‐13 in HDs does not bind to 1C4, indicating that ADAMTS‐13 circulates in a folded conformation. Similar results were obtained for HUS and sepsis patients. In contrast, ADAMTS‐13 of acute aTTP patients bound to 1C4 in 92% of the cases, whereas, in most cases, this binding was abolished during remission, showing that the conformation of ADAMTS‐13 is open during an acute aTTP episode.

Conclusions

Our study shows that, besides absent ADAMTS‐13 activity and the presence of anti‐ADAMTS‐13 autoantibodies, an open ADAMTS‐13 conformation is also a hallmark of acute aTTP. Demonstrating this altered ADAMTS‐13 conformation in acute aTTP will help to further unravel the pathophysiology of aTTP and lead to improved therapy and diagnosis.     

ADAMTS13 reduces VWF‐mediated acute inflammation following focal cerebral ischemia in mice

Summary. Background: ADAMTS13 cleaves hyperactive ultra‐large von Willebrand factor (ULVWF) multimers into smaller and less active forms. It remains unknown whether VWF‐mediated inflammatory processes play a role in the enhanced brain injury due to ADAMTS13 deficiency. Objective: We tested the hypothesis that the deleterious effect of ADAMTS13 deficiency on ischemic brain injury is mediated through VWF‐dependent enhanced vascular inflammation. Methods: Transient focal cerebral ischemia was induced by 60 min of occlusion of the right middle cerebral artery. Myeloperoxidase (MPO) activity and inflammatory cytokines in the infarcted region were evaluated 23 h after reperfusion injury. Neutrophil infiltration within the infarct and surrounding areas was quantitated by immunohistochemistry. Results: We report that ADAMTS13‐deficient mice exhibited significantly enlarged infarct size, concordant with increased myeloperoxidase (MPO) activity, neutrophil infiltration and expression of the pro‐inflammatory cytokines interleukin‐6 (IL‐6) and tumor necrosis factor‐α (TNF‐α). In contrast, VWF‐deficient mice exhibited significantly reduced MPO activity, neutrophil infiltration and inflammatory cytokine induction, demonstrating a role of VWF in these inflammatory processes. Mice deficient for both ADAMTS13 and VWF exhibited an identical reduction of the same inflammatory parameters, demonstrating that the increased inflammation observed in ADAMTS13‐deficient mice is VWF dependent. Finally, the increased infarct size observed in ADAMTS13‐deficient mice was completely abrogated by prior immunodepletion of neutrophils, demonstrating a causal role for acute inflammation in the enhanced brain injury that occurs in the setting of ADAMTS13 deficiency. Conclusion: These findings provide new evidence for ADAMTS13 in reducing VWF‐mediated acute cerebral inflammation following ischemic stroke.     

A phenotype–genotype correlation of ADAMTS13 mutations in congenital thrombotic thrombocytopenic purpura patients treated in the United Kingdom

Summary. Background: ADAMTS13 mutations play a role in thrombotic thrombocytopenic purpura (TTP) pathogenesis. Objectives: To establish a phenotype–genotype correlation in a cohort of congenital TTP patients. Patients/Methods: Clinical history and ADAMTS13 activity, antigen and anti‐ADAMTS13 antibody assays were used to diagnose congenital TTP, and DNA sequencing and in vitro expression were performed to identify the functional effects of the ADAMTS13 mutations responsible. Results: Seventeen (11 novel) ADAMTS13 mutations were identified in 17 congenital TTP patients. All had severely reduced ADAMTS13 activity and antigen levels at presentation. Six patients with pregnancy‐associated TTP and six patients with childhood TTP were homozygous or compound heterozygous for ADAMTS13 mutations located in the metalloprotease (MP), cysteine‐rich, spacer and/or distal thrombospondin type 1 domains. The adults had TTP precipitated by pregnancy, and had overall higher antigen levels (median, 30 ng mL^?1; range, < 10–57 ng mL^?1) than the children (median, 14 ng mL^?1; range, < 10–40 ng mL^?1). Presentation in the neonatal period was associated with more intensive treatment requirements. The two neonates with the most severe phenotype had mutations in the first thrombospondin type 1 motif of ADAMTS13 (p.R398C, p.R409W, and p.Q436H). Using transfected HEK293T cells, we have shown that p.R398C and p.R409W block ADAMTS13 secretion, whereas p.Q436H allows secretion at reduced levels. Conclusions: This study confirms the heterogeneity of ADAMTS13 defects and an association between ADAMTS13 genotypes and TTP phenotype.     

ADAMTS‐13 activity and autoantibodies classes and subclasses as prognostic predictors in acquired thrombotic thrombocytopenic purpura

Summary. Background: Thrombotic thrombocytopenic purpura (TTP) is a rare life‐threatening disease. Of surviving patients, 45% develops an exacerbation or a late recurrence. Severe ADAMTS‐13 deficiency, both during the acute episode and remission, is a well‐established predictor of recurrence. The predictive value of anti‐ADAMTS‐13 antibodies, their inhibitory activity and Ig class subtype for disease recurrence is still to be established. Objectives: To analyze ADAMTS‐13‐related biomarkers (ADAMTS‐13 and anti‐ADAMTS‐13 immunoglobulins, classes and subclasses) and their potential relationship with prognosis. Patients/Methods: In 115 patients with TTP, we assessed the association between levels of these biomarkers and the severity of acute episodes; we analysed also the hazard ratio (HR) and 95% confidence interval (CI) of recurrence in association with biomarkers levels retrieved at the previous acute episode or during remission, using Cox regression models. Results: During the acute phase, higher IgA, IgG1 and IgG3 titers showed the strongest association with acute episode severity. In the survival analyzes, the only biomarker significantly associated with a high hazard of recurrence after an acute episode was the presence of IgG. Conversly, low ADAMTS‐13 activity or antigen levels (< 10%), the presence of ADAMTS‐13 inhibitor or IgG during remission were all significantly associated with a higher hazard of recurrence. Conclusions: Both the Ig class and subclass are of predictive value for acute episode severity in patients with TTP. Although markers that could predict the risk of recurrence in the acute phase are limited, a thorough assessment of ADAMTS‐13‐related parameters during remission is warranted.     

Inactivation of ADAMTS13 by plasmin as a potential cause of thrombotic thrombocytopenic purpura

Summary. Background: ADAMTS13 deficiency causes accumulation of unusually large von Willebrand factor molecules, which cross‐link platelets in the circulation or on the endothelial surface. This process of intravascular agglutination leads to the microangiopathy thrombotic thrombocytopenic purpura (TTP). Most TTP patients have acquired anti‐ADAMTS13 autoantibodies that inhibit enzyme function and/or clear it from the circulation. However, the reason for ADAMTS13 deficiency is not always easily identified in a subset of patients. Objectives: To determine the origin of ADAMTS13 deficiency in a case of acquired TTP. Methods: Western blotting of ADAMTS13 in plasmas from acute and remission phases was used. Results: The ADAMTS13 deficiency was not caused by mutations or (detectable) autoantibodies; however, an abnormal ADAMTS13 truncated fragment (100 kDa) was found in acute‐phase but not remission‐phase plasma. This fragment resulted from enzymatic proteolysis, as recombinant ADAMTS13 was also cleaved when in the presence of acute‐phase but not remission‐phase plasma. Inhibitor screening showed that ADAMTS13 was cleaved by a serine protease that could be dose‐dependently inhibited by addition of exogenous α₂‐antiplasmin. Examination of the endogenous α₂‐antiplasmin antigen and activity confirmed deficiency of α₂‐antiplasmin function in acute‐phase but not remission‐phase plasma. To investigate the possibility of ADAMTS13 cleavage by plasmin in plasma, urokinase‐type plasminogen activator was added to an (unrelated) congenital α₂‐antiplasmin‐deficient plasma sample to activate plasminogen. This experiment confirmed cleavage of endogenous ADAMTS13 similar to that observed in our TTP patient. Conclusion: We report the first acquired TTP patient with cleaved ADAMTS13 and show that plasmin is involved.     

Novel ADAMTS13 mutations in an obstetric patient with Upshaw‐Schulman syndrome

Upshaw‐Schulman syndrome (USS) is a rarely reported congenital form of thrombotic thrombocytopenic purpura (TTP) that results from mutations in the ADAMTS13 gene. Many USS patients are diagnosed during the second or third trimester of their first pregnancy. We present a patient diagnosed with USS following retinal detachments and intrauterine fetal demise at 34 weeks of gestation. The patient's plasma was tested for ADAMTS13 activity, inhibitor, and antibody. Subsequently, she and her first‐degree relatives had ADAMTS13 gene sequencing. Initially, the patient was found to have an ADAMTS13 activity of <5% in the absence of an ADAMTS13 inhibitor (FRETS assay) or antibody (immunoassay). Repeat studies in the months following hospital discharge showed persistent, undetectable ADAMTS13 activity and she was given a clinical diagnosis of USS. Molecular sequencing demonstrated two novel missense mutations in the ADAMTS13 gene: one in the maternal exon 17 (p.Ala690Thr due to nucleotide substitution c.2068 G>A) and another in the paternal exon 22 (p.Arg915Cys due to nucleotide substitution c.2746 C>T). In addition to being compound heterozygous for two ADAMTS13 mutations, the patient also had two maternally inherited single nucleotide polymorphisms: p.P618A (exon 16) and p.A732V (exon 18). Her parents and only sister had normal or near‐normal ADAMTS13 activity. Each was heterozygous for one of the novel missense mutations. This case highlights the importance of molecular analysis of the ADAMTS13 gene in patients and family members when the severe ADAMTS13 deficiency does not appear to be autoimmune in nature. J. Clin. Apheresis 28:311–316, 2013. © 2013 Wiley Periodicals, Inc.     

External validation of the PLASMIC score: a clinical prediction tool for thrombotic thrombocytopenic purpura diagnosis and treatment

Essentials

• Severe ADAMTS‐13 deficiency is key to thrombotic thrombocytopenic purpura (TTP) diagnosis.
• PLASMIC score predicts ADAMTS‐13 deficiency in suspected TTP with high discrimination.
• PLASMIC score is more generalizable with fewer missing data than alternative clinical scores.
• PLASMIC score identifies a subgroup of patients lacking significant response to plasma exchange.

Summary

Background

The PLASMIC score was recently published to distinguish patients with severe ADAMTS‐13 deficiency from those without for early identification of thrombotic thrombocytopenia purpura (TTP).

Objective

We performed an independent external validation of the PLASMIC score for clinical prediction of severe ADAMTS‐13 deficiency.

Patients/Methods

We studied an independent cohort of 112 consecutive hospitalized patients with suspected thrombotic microangiopathy and appropriate ADAMTS‐13 testing (including 21 patients with TTP diagnosis).

Results

The PLASMIC score model predicted severe ADAMTS‐13 deficiency with a c statistic of 0.94 (0.88–0.98). When dichotomized at high (score 6–7) vs. low‐intermediate risk (score 0–5), the model predicted severe ADAMTS‐13 deficiency with positive predictive value of 72%, negative predictive value of 98%, sensitivity of 90% and specificity of 92%. In the low‐intermediate risk group (score 0–5) there was no significant improvement in overall survival associated with plasma exchange.

Conclusions

The PLASMIC score model had excellent applicability, discrimination and calibration for predicting severe ADAMTS‐13 deficiency. The clinical algorithm allowed identification of a subgroup of patients who lacked a significant response to empiric treatment.     

The distal carboxyterminal domains of murine ADAMTS13 influence proteolysis of platelet‐decorated VWF strings in vivo

Summary. Background: The multidomain metalloprotease ADAMTS13 regulates the size of von Willebrand factor (VWF) multimers upon their release from endothelial cells. How the different domains in ADAMTS13 control VWF proteolysis in vivo remains largely unidentified. Methods: Seven C‐terminally truncated murine ADAMTS13 (mADAMTS13) mutants were constructed and characterized in vitro. Their ability to cleave VWF strings in vivo was studied in the ADAMTS13^?/? mouse. Results: Murine MDTCS (devoid of T2‐8 and CUB domains) retained full enzyme activity in vitro towards FRETS‐VWF73 and the C‐terminal T6‐8 (del(T6‐CUB)) and CUB domains (delCUB) are dispensable under these assay conditions. In addition, mADAMTS13 fragments without the spacer domain (MDT and M) had reduced catalytic efficiencies. Our results hence indicate that similar domains in murine and human ADAMTS13 are required for activity in vitro, supporting the use of mouse models to study ADAMTS13 function in vivo. Interestingly, using intravital microscopy we show that removal of the CUB domains abolishes proteolysis of platelet‐decorated VWF strings in vivo. In addition, whereas MDTCS is fully active in vivo, partial (del(T6‐CUB)) or complete (delCUB) addition of the T2‐8 domains gradually attenuates its activity. Conclusions: Our data demonstrate that the ADAMTS13 CUB and T2‐8 domains influence proteolysis of platelet‐decorated VWF strings in vivo.     

Is it quinine TTP/HUS or quinine TMA? ADAMTS13 levels and implications for therapy

Thrombocytopenia with or without microangiopathy following quinine is often referred to as quinine “hypersensitivity.” When schistocytes are present it is frequently termed “quinine‐associated TTP/HUS.” A severe deficiency of the vWF‐cleaving protease, ADAMTS13, is associated with idiopathic TTP. A previous study of patients with “quinine‐associated TTP/HUS” found that ADAMTS13 activities were not abnormal in 12/12 patients. A retrospective review of TTP patients with quinine‐associated thrombotic microangiopathy (TMA) for whom ADAMTS13 was measured before plasma exchange was performed. Six patients were identified. All were females (age range: 43 to 73, mean = 61.7 years) and had taken quinine for leg cramps. Four of the six experienced renal failure requiring dialysis. Five of the patients had D‐Dimers levels measured, all were elevated. In four patients the levels were ≥18 times the upper limit of normal. ADAMTS13 was normal in four patients and mildly decreased in two patients. We conclude that while thrombocytopenia and schistocytosis can be seen in quinine‐associated TTP/HUS, the pathophysiology seems to be distinct from that seen in most cases of idiopathic TTP (i.e., severely decreased ADAMTS13 with an inhibitor). We recommend that a TMA in association with quinine be consistently referred to as quinine‐associated thrombotic microangiopathy (quinine‐TMA) to better distinguish this entity from idiopathic TTP. The use of plasma exchange in quinine‐TMA is called into question. J. Clin. Apheresis, 2009. © 2009 Wiley‐Liss, Inc.     

Blood group O and black race are independent risk factors for thrombotic thrombocytopenic purpura associated with severe ADAMTS13 deficiency

BACKGROUND: It has been postulated that blood group O subjects may be partially protected against thrombotic thrombocytopenic purpura (TTP) because they have lower plasma levels of von Willebrand factor. STUDY DESIGN AND METHODS: The Oklahoma TTP Registry enrolled 301 consecutive patients from November 13, 1995 (when systematic ADAMTS13 measurements began), through 2009; 281 (93%) patients had ADAMTS13 measurements. Patients were designated as having severe ADAMTS13 deficiency when the activity measurement by either method was less than 10%. ABO blood group was determined in all 281 patients. The observed frequency of blood group O was compared to the expected frequency. The association between severe ADAMTS13 deficiency and blood group, race, sex, and age were analyzed by logistic regression. RESULTS: The frequency of blood group O was unexpectedly and significantly greater than the race‐ethnicity–adjusted expected frequency in 65 patients with severe ADAMTS13 deficiency (60.0% vs. 47.4%, p = 0.042) but not in 216 patients without severe ADAMTS13 deficiency (44.9% vs. 46.5%, p = 0.639). Blood group O and race‐ethnicity were independently associated with severe ADAMTS13 deficiency among patients with TTP. The probability for severe ADAMTS13 deficiency was 45.8% with O and 32.1% with non‐O blood groups for black patients and 24.1% with O and 15.1% with non‐O blood groups for white patients. CONCLUSION: Among patients with TTP and severe ADAMTS13 deficiency the relative frequency of patients with blood group O was greater than expected, suggesting that blood group O may be a risk factor for TTP associated with severe ADAMTS13 deficiency.     

ADAMTS13: origins,applications, and prospects

ADAMTS13 is an enzyme that acts by cleaving prothrombotic von Willebrand factor (VWF) multimers from the vasculature in a highly regulated manner. In pathologic states such as thrombotic thrombocytopenic purpura (TTP) and other thrombotic microangiopathies (TMAs), VWF can bind to the endothelium and form large multimers. As the anchored VWF chains grow, they provide a greater surface area to bind circulating platelets (PLTs), generating unique thrombi that characterize TTP. This results in microvasculature thrombosis, obstruction of blood flow, and ultimately end‐organ damage. Initial presentations of TTP usually occur in an acute manner, typically developing due to an autoimmune response toward, or less commonly a congenital deficiency of, ADAMTS13. Triggers for TMAs that can be associated with ADAMTS13 deficiency, including TTP, have been linked to events that place a burden on hemostatic regulation, such as major trauma and pregnancy. The treatment plan for cases of suspected TTP consists of emergent therapeutic plasma exchange that is continued on a daily basis until normalization of PLT counts. However, a subset of these patients does not respond favorably to standard therapies. These patients necessitate a better understanding of their diseases for the advancement of future therapeutic options. Given ADAMTS13’s key role in the cleavage of VWF and the prevention of PLT‐rich thrombi within the microvasculature, future treatments may include anti‐VWF therapeutics, recombinant ADAMTS13 infusions, and ADAMTS13 expression via gene therapy.     

A shear-based assay for assessing plasma ADAMTS13 activity and inhibitors in patients with thrombotic thrombocytopenic purpura

BACKGROUND: Severe deficiency of plasma ADAMTS13 activity is a frequent finding in patients with hereditary and acquired thrombotic thrombocytopenic purpura (TTP). To date, plasma ADAMTS13 activity is determined by cleavage of either predenatured von Willebrand factor (VWF) or small peptides derived from the VWF‐A2 domain. The physiologic relevance of the assay results is uncertain. STUDY DESIGN AND METHODS: We sought to develop a novel shear‐based assay to assess plasma ADAMTS13 activity and inhibitors. We also compared this assay with a fluorogenic peptide assay. RESULTS: We found that an incubation of purified plasma VWF with 0.5 to 1.0 µL of citrated plasma under constant vortexing at 2500 rpm for 60 minutes in the presence of 5 mmol/L CaCl₂ and 1.7 µmol/L ZnCl₂ and low concentration of NaCl resulted in the maximal cleavage of VWF. The cleavage product could be separated by a 2.5% agarose gel and detected by Western blotting. The assay revealed that plasma and recombinant ADAMTS13 are highly sensitive to inhibition by zinc and chloride ions. Under the optimal conditions, the shear‐based assay appeared to be more sensitive than the guanidine‐denaturization assay for determining plasma ADAMTS13 activity. CONCLUSIONS: Our fluid shear‐based assay may be useful for investigating basic biologic function and regulation of ADAMTS13 metalloprotease. It may also be applicable for assessing plasma ADAMTS13 activity and inhibitors in TTP patients.     

The role of ADAMTS‐13 in the coagulopathy of sepsis

Summary

The interaction between platelets and the vessel wall is mediated by various receptors and adhesive proteins, of which von Willebrand factor (VWF) is the most prominent. The multimeric size of VWF is an important determinant of a more intense platelet–vessel wall interaction, and is regulated by the VWF‐cleaving protease ADAMTS‐13. A deficiency in ADAMTS‐13 leads to higher concentrations of ultralarge VWF multimers and pathological platelet–vessel wall interactions, in its most typical and extreme form leading to thrombocytopenic thrombotic purpura, a thrombotic microangiopathy characterized by thrombocytopenia, non‐immune hemolysis, and organ dysfunction. Thrombotic microangiopathy associated with low levels of ADAMTS‐13 may be a component of the coagulopathy observed in patients with sepsis. Here, we review the potential role of ADAMTS‐13 deficiency and ultralarge VWF multimers in sepsis, and their relationship with sepsis severity and prognosis. In addition, we discuss the possible benefit of restoring ADAMTS‐13 levels or reducing the effect of ultralarge VWF as an adjunctive treatment in patients with sepsis.

     

Congenital and acquired ADAMTS13 deficiency: Two mechanisms,one patient

Thrombotic thrombocytopenic purpura (TTP) is a life‐threatening microangiopathy with a heterogeneous and largely unpredictable course. It is caused by ADAMTS13 deficiency, that can be either congenital or due to anti‐ADAMTS13 autoantibodies development. ADAMTS13 deficiency is necessary but not always sufficient to cause acute clinical manifestations and trigger factors may be needed. We report the case of a woman diagnosed with congenital TTP in her adulthood, presenting with anti‐ADAMTS13 autoantibodies in acute phase during ticlopidine consumption. Noteworthy, the two ADAMTS13 mutations identified in this patient are novel: one is a splice‐site mutation located in intron 11 (c.1308+2_5delTAGG) and the other is a point missense mutation in exon 29 (c.4184T>C leading to p.Leu1395Pro substitution). Since congenital TTP is an extremely rare disease and drug‐induced TTP is an uncommon side effect of treatment with ticlopidine, the simultaneous occurrence of both mechanisms of disease in one patient is exceptional. This case represents TTP as a multifactorial disease, with ADAMTS13 genetic abnormality and environmental exposures acting together in determining individual clinical phenotype. J. Clin. Apheresis 30:252–256, 2015. © 2014 Wiley Periodicals, Inc.     

Disulfide bond reduction of von Willebrand factor by ADAMTS‐13

See also Lenting PJ, Rastegarlari G. ADAMTS‐13: double trouble for von Willebrand factor. This issue, pp 2775–7. Summary. Background: von Willebrand factor (VWF) released from endothelial cells is rich in ultra‐large (UL) multimers that are intrinsically active in binding platelets, whereas plasma‐type VWF multimers require shear stress to be activated. This functional difference may be attributed to thiols exposed on the surface of plasma‐type VWF multimers, but not on ULVWF multimers. Shear stress induces the exposed thiols to form disulfide bonds between laterally apposed plasma‐type VWF multimers, leading to enhanced VWF binding to platelets. Objectives: We tested a hypothesis that ADAMTS‐13 has a disulfide bond reducing activity that regulates shear‐induced thiol‐disulfide exchange of VWF. Methods: Thiol blocking agents and active thiol bead capturing were used to identify and locate this activity, along with truncated ADAMTS‐13 mutants. Results: ADAMTS‐13 contains a disulfide bond reducing activity that primarily targets disulfide bonds in plasma‐type VWF multimers induced by high shear stress or formed with thiol beads, but not disulfide bonds in native multimeric structures. Cysteine thiols targeted by this activity are in the VWF C‐domain and are known to participate in shear‐induced thiol‐disulfide exchange. ADAMTS‐13 contains cysteine thiols that remain exposed after being subjected to hydrodynamic forces. Blocking these active thiols eliminates this reducing activity and moderately decreases ADAMTS‐13 activity in cleaving ULVWF strings anchored to endothelial cells under flow conditions, but not under static conditions. This activity is located in this C‐terminal region of ADAMTS‐13. Conclusions: This novel disulfide‐bond‐reducing activity of ADAMTS‐13 may prevent covalent lateral association and increased platelet adherence of plasma‐type VWF multimers induced by high fluid shear stress.     

Use of a mouse model to elucidate the phenotypic effects of the von Willebrand factor cleavage mutants,Y1605A/M1606A and R1597W

Background:  von Willebrand Factor (VWF) is tightly regulated by the metalloproteinase ADAMTS13, which cleaves VWF to reduce VWF multimer size and binding affinity for collagen and platelets. Objective:  This study examines two VWF mutations, R1597W (enhanced cleavage) and Y1605A‐M1606A (decreased cleavage), to determine their impact on VWF, in addition to ADAMTS13‐mediated cleavage. Methods:  In vitro mouse ADAMTS13 digestions were performed on recombinant proteins. VWF knockout mice received hydrodynamic injections of mouse Vwf cDNA, following which VWF antigen, multimer profile and VWF propeptide levels were determined. A ferric chloride injury model of thrombosis was also evaluated. Results:  In vitro ADAMTS13 digestion of full‐length mouse VWF required > 97‐fold higher ADAMTS13 levels for Y1605A/M1606A, and 68% lower ADAMTS13 levels for R1597W compared with wild type. In vivo, R1597W had reduced VWF:Ag and both mutations exhibited increased VWF propeptide/VWF:Ag ratios. R1597W multimers show a lower molecular weight profile compared with wild type and Y1605A/M1606A mice. When co‐injected with Adamts13 cDNA, Y1605A/M1606A multimers were larger compared with wild type, and R1597W showed only a single multimer band and decreased clearance via VWFpp/VWF:Ag ratio. R1597W was associated with reduced thrombus formation but normal platelet accumulation in a ferric chloride injury model while Y1605A/M1606A had a loss of occlusive thrombi but increased platelet accumulation compared with wild type. Conclusions:  This study demonstrates that mutations that alter ADAMTS13 cleavage also can affect VWF clearance, VWF antigen level, multimer structure and thrombotic potential in the VWF knockout hydrodynamic injection model.     

Humoral immune response to ADAMTS13 in acquired thrombotic thrombocytopenic purpura

Summary. The apparently spontaneous development of autoantibodies to ADAMTS13 in previously healthy individuals is a major cause of thrombotic thrombocytopenic purpura (TTP). Epitope mapping studies have shown that in most patients antibodies directed towards the spacer domain of ADAMTS13 are present. A single antigenic surface comprising Arg⁶⁶⁰, Tyr⁶⁶¹ and Tyr⁶⁶⁵ that contributes to the productive binding of ADAMTS13 to unfolded von Willebrand factor is targeted by anti‐spacer domain antibodies. Antibodies directed to the carboxyl‐terminal CUB1–2 and TSP2–8 domains have also been observed in the plasma of patients with acquired TTP. As yet it has not been established whether this class of antibodies modulates ADAMTS13 activity. Inspection of the primary sequence of human monoclonal anti‐ADAMTS13 antibodies suggests that the variable heavy chain germline gene segment VH1–69 is frequently incorporated. We suggest a model in which ‘shape complementarity’ between the spacer domain and residues encoded by the VH1–69 gene segment explain the preferential use of this variable heavy chain gene segment. Finally, a model is presented for the development of anti‐ADAMTS13 antibodies in previously healthy individuals that incorporates the recent identification of HLA DRB1*11 as a risk factor for acquired TTP.     

The utility of patient characteristics in predicting severe ADAMTS13 deficiency and response to plasma exchange

BACKGROUND: Idiopathic thrombotic thrombocytopenic purpura (TTP) is a rare form of thrombotic microangiopathy (TMA) characterized by extreme deficiency of ADAMTS13, an enzyme responsible for cleavage of von Willebrand factor. Plasma exchange therapy is the cornerstone of current treatment and is ineffective for most other forms of TMA. The availability of ADAMTS13 testing has improved diagnostic accuracy and appropriate selection of patients who are most likely to respond to plasma exchange. STUDY DESIGN AND METHODS: We performed a retrospective chart review of 110 cases of clinically suspected TTP with ADAMTS13 test results from 2005 to the present. The primary goal was to identify presenting clinical and/or laboratory features of patients with ADAMTS13 deficiency that would prove useful in increasing the likelihood of, or excluding the possibility of, TTP. In addition, patient outcomes including alternative diagnoses and response to plasma exchange were reviewed. RESULTS: Significant correlations for severe ADAMTS13 deficiency were seen for four of the observed variables: indirect bilirubin, reticulocyte percentage, creatinine, and platelet count; a fifth variable, D‐dimer, just missed significance but performed well in subsequent analysis. Receiver operator characteristics curves for individual variables had area under the curve (AUC) values ranging from 0.75 to 0.85; a combined model had an AUC of 0.98. In addition, we constructed tree models both for clinical use as a diagnostic algorithm and for recursive partitioning to help establish cutoff points for categorical variables in developing an easy‐to‐use clinical prediction score. CONCLUSION: These results may enable the rapid exclusion and accurate diagnosis of TTP using readily available laboratory data.