Crosstalk between coagulation and complement activation promotes cardiac dysfunction in arrhythmogenic right ventricular cardiomyopathy.

Aims: We previously found that complement components are upregulated in the myocardium of patients with arrhythmogenic right ventricular cardiomyopathy (ARVC), and inhibiting the complement receptor C5aR reduces disease severity in desmin knockout (Des-/- ) mice, a model for ARVC. Here, we examined the mechanism underlying complement activation in ARVC, revealing a potential new therapeutic target. Methods: First, immunostaining, RT-PCR and western blot were used to detect the expression levels of complement and coagulation factors. Second, we knocked out the central complement component C3 in Des-/- mice (ARVC model) by crossing Des-/- mice with C3-/- mice to explore whether complement system activation occurs independently of the conventional pathway. Then, we evaluated whether a targeted intervention to coagulation system is effective to reduce myocardium injury. Finally, the plasma sC5b9 level was assessed to investigate the role in predicting adverse cardiac events in the ARVC cohort. Results: The complement system is activated in the myocardium in ARVC. Autoantibodies against myocardial proteins provided a possible mechanism underlying. Moreover, we found increased levels of myocardial C5 and the serum C5a in Des-/-C3-/- mice compared to wild-type mice, indicating that C5 is activated independently from the conventional pathway, presumably via the coagulation system. Crosstalk between the complement and coagulation systems exacerbated the myocardial injury in ARVC mice, and this injury was reduced by using the thrombin inhibitor lepirudin. In addition, we found significantly elevated plasma levels of sC5b9 and thrombin in patients, and this increase was correlated with all-cause mortality. Conclusions: These results suggest that crosstalk between the coagulation and complement systems plays a pathogenic role in cardiac dysfunction in ARVC. Thus, understanding this crosstalk may have important clinical implications with respect to diagnosing and treating ARVC.

Therapeutic protein deimmunization by T-cell epitope removal: antigen-specific immune responses in vitro and in vivo.

Hirudin III is an effective anti-coagulant; however, in 40% of treated patients, a high-titer of anti-Hirudin III IgG antibodies is observed. Development of antibody responses requires the activation of helper T lymphocyte (HTL), which is dependent on peptide epitopes binding to HLA class II molecules. Based on computational prediction softwares, four new mutants of Hirudin III, T4K, S9G, V21G, and V21K, had been designed with the aim of reducing the binding affinity of these HTL epitopes. The constructed mutants have been purified and assayed for bioactivity. Finally in vitro and in vivo cell-mediated responses were assessed and humoral immune assays were performed. All modified forms of Hirudin III were active, and showed significantly reduced human T-cell responses. All mutants indicated lower human IFN-γ level compared to native Hirudin, and V21K indicated lowest IFN-γ level. Mice immunized with T4K and V21K showed a significant reduction in total antibody responses and mouse IFN-γ levels. Mice immunized with V21K after 3rd immunization had lower T-cell proliferation compared to native Hirudin and other mutants. Based on these results, V21K is proposed as the best alternate Hirudin III candidate with lowest antigenicity. These findings validate our rational design strategy aimed at providing new active analogs of therapeutic proteins with reduced immunogenicity.

Rational design of stable and functional hirudin III mutants with lower antigenicity.

Hirudin is an inhibitor of thrombin and used as an effective anticoagulant, but has a potential to develop unacceptable immune responses. In this study, two computational tools were used to predict T-cell epitopes within Hirudin variant III (HVIII) sequence, and design mutations that would lessen its antigenicity. Homology models of native and mutant HVIII proteins (T4K, S9G, V21G, and V21K) were generated, and further used to assess their interactions with thrombin. The docking experiment showed that all mutants had a suitable pattern of interactions, with similar or lower interaction energies compared with the native protein. These complexes were subsequently subjected to molecular dynamics simulation. All mutants complexes had overall stable structures over simulation time, with RMSD, gyration radius, hydrogen bonds numbers, and accessible surface areas patterns that were comparable with the native HVIII over time. Interestingly, in all mutants, a shorter length was observed for the two salt bridges Arg73-Asp55 and Arg77-Glu57, which are suggested to be important in Hirudin-thrombin complex formation. Best selected mutants expressed in Escherichia coli BL21(DE3), subsequently SDS-PAGE and Western blot analysis confirmed the successful same expression of Hirudin and mutants. In conclusion, we believe that this computational approach could identify potentially safer proteins with preserved or even improved functionality.

Enhanced effect of inhibition of thrombin on endothelium in murine endotoxaemia: specific inhibition of thrombocytopenia.

INTRODUCTION: In systemic endotoxaemia, bacterial lipopolysaccharide causes the rapid expression of tissue factor (TF) and disseminated intravascular coagulation and in animal models, anticoagulants limit pathology and promote survival. Recent studies have emphasised the importance of TF expressed by mononuclear cells for initiating thrombin generation during endotoxaemia and suggested that endothelial cell TF is of little relevance. However, the precise importance of endothelium for intravascular thrombin generation has not been established. In this study, we compared the effect of equivalent levels of hirudin tethered to either endothelium or platelets and monocytes. MATERIALS AND METHODS: CD31-Hir-Tg mice express a vesicle-targeted, membrane-tethered hirudin fusion protein on endothelium, platelets and monocytes. Bone marrow chimeras between these mice and C57BL/6 were generated The level of intravascular hirudin expressed during endotoxaemia was quantified by inhibition studies using an anti-hirudin antibody and reference to the circulating thrombin anti-thrombin complexes generated in control mice given soluble hirudin. RESULTS AND CONCLUSIONS: Antibody inhibition studies indicated that individual chimeras expressed similar levels of hirudin fusion protein on endothelium alone as on platelets and leukocytes combined and accordingly, the levels of thrombin anti-thrombin complexes and fibrinogen in each chimera were similar, indicating equivalent inhibition of thrombin generation. However, mice with hirudin on endothelium alone developed significantly less thrombocytopenia. These results suggest a hitherto unrecognized role of endothelium in thrombin-dependent platelet sequestration during endotoxaemia. The data have implications for the development of therapeutic strategies based on targeted anticoagulation to limit disseminated intravascular coagulation.

Interference of thrombin in immunological assays for hirudin specific antibodies.

Recombinant hirudins (desirudin, lepirudin) are direct thrombin inhibitors administered as anticoagulants for heparin-induced thrombocytopenia (HIT) and venous thromboembolism (VTE) prophylaxis. Although these small polypeptides are widely used, concern exists over reports of antigenicity. In the largest study of r-hirudin immunogenicity to-date, we evaluated the prevalence, quantity and specificity of IgG immune responses to desirudin (15 mg SC q12h for as long as clinically required) in 245 surgical and medically-ill subjects enrolled in DESIRABLE, a multicenter, open-label, clinical trial of hospitalized patients requiring VTE prophylaxis. Sera obtained before and 30 days after desirudin administration were analyzed for IgG anti-desirudin by immunoenzymetric assay using immobilized desirudin to bind desirudin-reactive antibody and peroxidase conjugated monoclonal-anti-human IgG Fc to detect bound IgG antibody. Of 245 study subjects, 19 (7.7%) were antibody "responders" (>2-fold increase in IgG antibody levels with >50% inhibition by desirudin 30 days post-treatment). There were no differences between responders and non-responders in incidence of clinical outcomes or bleeding-related adverse events. Forty-six patients had detectable desirudin-reactive IgG antibody prior to treatment, with no significant increase in antibody levels after exposure and no increase in clinical events. The origin of pre-existing hirudin-reactive IgG antibody requires further investigation involving suspected anti-thrombin-thrombin interactions. These results indicate a low potential for immunogenicity, with <8% of patients developing IgG antibodies after desirudin administration for VTE prophylaxis. In contrast to reports on lepirudin, production of anti-hirudin antibodies to desirudin has no apparent effect on clinical events.

The occurrence of antibodies to heparin-platelet factor 4 in cardiac and thoracic surgical patients receiving desirudin or heparin for postoperative venous thrombosis prophylaxis.

INTRODUCTION: This randomized, exploratory study compared the incidence of heparin-dependent antibodies associated with subcutaneous (SC) desirudin or heparin given for deep-vein thrombosis prophylaxis following cardiac and thoracic surgery. MATERIALS AND METHODS: Adult patients scheduled for elective cardiac or thoracic surgery received desirudin 15 mg SC twice daily or unfractionated heparin 5000 units SC thrice daily. Duration of thrombosis prophylaxis was determined by the treating physician. Primary outcome measure was the incidence of new antibody formation directed against platelet factor 4 (PF4)/heparin complex. Secondary outcomes included bleeding and thrombotic complications. Blood was tested for anti-PF4/heparin antibodies at baseline, after surgery prior to study drug administration, postdrug day (PDD) 2, PDD 7, and at 1 month. Doppler studies were done before discharge. RESULTS: Of 120 patients, 61 received desirudin, 59 received heparin. New PF4/heparin antibodies occurred in 10.2% and 13.6% of desirudin- and heparin-treated patients, respectively. Among desirudin patients with no heparin exposure, none (0/36) developed PF4/heparin antibodies versus 17.1% with heparin exposure. Incidence of deep venous thrombosis was 4.9% and 3.4% in the desirudin and heparin groups, respectively. Two heparin-group patients developed pulmonary embolism. Two patients per group had bleeding events; no patients required re-exploration for bleeding complications. Median chest tube output was similar with desirudin (900 mL) and heparin (692 mL) as was blood transfusion requirements of more than 2 units (5/61, desirudin; 2/59 heparin). CONCLUSIONS: The incidence of thrombotic events was low in both groups. There were no safety concerns, and desirudin was not associated with anti-PF4/heparin antibodies.

Alteration of pharmacokinetics of lepirudin caused by anti-lepirudin antibodies occurring after long-term subcutaneous treatment in a patient with recurrent VTE due to Behcets disease.

The direct thrombin inhibitor lepirudin is mainly applied in heparin-induced thrombocytopenia. We report here the case of a 37-year-old kurdish woman in whom Behcets disease was diagnosed in 1998 when she presented with a Budd Chiari syndrome (BCS) complicated by pulmonary embolism. Recurrent venous thromboembolism (VTE) occurred despite anticoagulant therapy with UFH, LMWH or phenprocoumon and various immunosuppressive therapy regimens. In 2001, when BCS recurred ultimately i.v. lepirudin was administered. When the patient improved and remained clinically stable lepirudin was applied subcutaneously. During long-term treatment with twice-daily 50 mg no further VTE was observed over the following years. Additionally, no bleeding complications occurred. In May 2005 anticoagulant therapy was switched to phenprocoumon. BCS reoccurred when INR values were suboptimal in February 2007, and lepirudin treatment was immediately restarted. After admission the patient received 50 mg b.i.d. lepirudin s.c. with plasma levels in the therapeutic range (0.5-1.0 mg / l). Over the following months, lepirudin levels repeatedly exceeded the upper limit of this range and the dosage was stepwise reduced. Finally, 20 mg b.i.d. were sufficient to obtain therapeutic levels. Renal function was normal, but lepirudin antibodies were present in high titer, as assessed by ELISA. We suppose that these antibodies reduce renal filtration of lepirudin thus leading to increased plasma levels. This case is an example for successful long-term therapeutic-dose anticoagulation with s.c. lepirudin in a patient with Behcets disease and recurrent VTE despite therapeutic anticoagulant therapy with LMWH or vitamin K antagonists. However, frequent measurement of lepirudin plasma levels is needed. If stepwise dose lowering is required over time, the presence of lepirudin antibodies should be considered.

Microscale characterization of the binding specificity and affinity of a monoclonal antisulfotyrosyl IgG antibody.

Sulfation is a potentially important post-translational modification of proteins and has been demonstrated in a number of polypeptides, notably in gastrointestinal hormones. In contrast to phosphorylation, however, the investigation of sulfation patterns in tissues and on purified proteins has been complicated by the absence of specific immunoreagents (antibodies) for this modification as well as the chemical lability of the sulfate group. Here, we investigate the properties of a novel mAb against sulfated tyrosyl groups (anti-Tyr(SO(3)H) antibody) using CE and a panel of sulfated and nonsulfated peptides and proteins. The data show that the anti-Tyr(SO(3)H) antibody is completely specific for compounds containing sulfated tyrosyls. Affinity electrophoresis experiments allowed us to estimate dissociation constants for sulfated hirudin fragment (56-65), gastrin-17, and cholecystokinin octapeptide (CCK8) in the 1-3 microM range. The affinity of the antibody toward complement 4 protein that contains three sulfotyrosines was analyzed by surface plasmon resonance technology and modeled according to a bivalent-binding model which yielded a K(d1) of 20.1 microM for the monovalent complex. The same binding was studied by CE and found to be in the micromolar scale albeit with some uncertainty due to complex separation patterns. The work illustrates the amount of information on antibody-antigen interactions that may be obtained with microelectrophoretic methods consuming minute quantities of material. Furthermore the specificity of this antibody could be confirmed in one operation using an array of sulfated and nonsulfated compounds.

The direct thrombin inhibitor hirudin.

This review discusses the pharmacology and clinical applications of hirudin, a bivalent direct thrombin inhibitor (DTI). Besides the current major indication for hirudin--anticoagulation of patients with heparin-induced thrombocytopenia (HIT)--the experience with hirudin in other indications, especially acute coronary syndromes, are briefly presented. Hirudins have been formally studied prior to their regulatory approval; however, important information on their side effects and relevant preventative measures only became available later. Therefore, current recommendations and dosing schedules for hirudin differ considerably from the information given in the package inserts. Drawbacks of hirudin and important precautions for avoiding potential adverse effects are discussed in detail in the third part of this review.

Bivalirudin.

Bivalirudin is a direct thrombin inhibitor (DTI) frequently used for anticoagulation in the setting of invasive cardiology, particularly percutaneous coronary intervention (PCI). Bivalirudin has a unique pharmacologic profile: unlike other marketed DTIs, it undergoes predominant non-organ elimination (proteolysis), and has the shortest half-life (approximately 25 min). Its affinity for thrombin is intermediate between that of lepirudin (highest) and argatroban (lowest)--this helps explain why it interferes with functional clotting assays to an extent intermediate between that achieved by these two other DTIs. This effect is best known for the PT (INR)--higher affinity for thrombin corresponds to lower molar DTI requirements to prolong the APTT; in turn, lower concentrations required for APTT prolongation (and, presumably, in-vivo effect) result in reduced PT (INR) prolongation. Bivalirudin is primarily used for its first FDA-approved indication, namely anticoagulation during percutaneous transluminal coronary angioplasty ("balloon angioplasty"), the most frequent type of PCI. Bivalirudin is also indicated for PCI with provisional use of glycoprotein IIb/IIIa antagonist therapy, and for patients with, or at risk of, heparin-induced thrombocytopenia (HIT), or HIT with thrombosis syndrome (HITTS), undergoing PCI. The bivalirudin development program has used a "quadruple" endpoint comprising a "triple" efficacy endpoint plus major bleeding - this approach anticipated the subsequent emphasis on strategies to improve clinical outcomes through bleeding reduction. Besides summarizing the key trials evaluating bivalirudin use for acute coronary syndrome (especially employing PCI), we review also the studies of bivalirudin as anticoagulant for "on-" and "off-pump" cardiac surgery, including both HIT and non-HIT situations.

[Rapid determination of contents of hirudin's hydrolysates in processed leech by dot blotting].

OBJECTIVE: To determine the contents of hirudin's hydrolysates in processed leeches, set up a new evaluating method of dot blotting to evaluate the qualities of those processed Chinese medicines as leeches. METHOD: Contents of hirudin's hydrolysates in processed leeches were determined by dot blotting with rat antibody of anti-hirudin as the first antibody. Blotting signal was analyzed by software of Quantity One. RESULT: Contents of hirudin's hydrolysates in four batches of processed leeches were 296.51, 165.47, 95.58, and 298.05 microg g(-1), respectively. CONCLUSION: Difference among four batches of processed leeches was significant in the content of hirudin's hydrolysates. Dot blotting, as a convenient and accurate method can be broadly used for evaluating processed products of Chinese crude drugs similar to leeches.

Severe anaphylactic reaction after repeated intermittent exposure to lepirudin.

Lepirudin, a recombinant DNA derivative of hirudin, is used to prevent thromboembolic complications caused by heparin-induced thrombocytopenia type II. Anaphylactic and anaphylactoid reactions have been reported with its use in patients both with and without known previous exposure to lepirudin. We describe the case of a 57-year-old woman who received five uneventful courses of lepirudin therapy before having a severe anaphylactic reaction during administration of the intravenous bolus dose that began her sixth course. The patient experienced cardiorespiratory arrest but recovered from the reaction. The decision to administer lepirudin to a patient who has previously received it should be reached with due consideration of the risk:benefit ratio and strategies to manage risk resulting from readministration. Risk factors for an anaphylactic reaction to lepirudin may include use of an initial bolus dose, intravenous rather than subcutaneous administration, length of any single course of therapy beyond 3 days, and repeat administration of lepirudin within 100 days.

Allergy to heparins and anticoagulants with a similar pharmacological profile: an update.

Heparins are widely used as anticoagulants. Immunologically-mediated side effects raise the question as to whether other substances with heparin-like pharmacological effects can be safely applied. Hypersensitivity reactions to heparin consist of heparin-induced immune thrombocytopenia, allergic vasculitis, hypereosinophilia, immediate hypersensitivity as well as delayed-type skin reactions. Hypersensitivity to unfractionated and low-molecular-weight heparins and semisynthetic heparinoids is increasingly common, and the pathogenesis, however, is still not fully understood. Clinically, this phenomenon is of relevance because of its increasing incidence and the resulting therapeutic difficulties that arise because several cross-reactions between unfractionated and low-molecular-weight heparins as well as between various heparins and heparinoids have been observed. In some patients with cross-reactivity between various heparins and semisynthetic heparinoids, recombinant hirudins, may be safe and effective. Combined allergy to recombinant hirudins and heparins, however, has been reported. Therefore, there is an urgent need for therapeutic alternatives.

Bivalirudin anticoagulation for a patient with hypercoagulable immune syndromes undergoing mitral valve surgery.

Unfractionated heparin has been a near universal anticoagulant for cardiac surgery; however it is contraindicated in heparin-induced thrombocytopenia type II. Alternative anticoagulants such as bivalirudin (a direct thrombin inhibitor) are being utilized. Bivalirudin was successfully used in an immunologically complex patient (diagnoses of heparin-induced thrombocytopenia type II, systemic lupus erythematosus, antiphospholipid syndrome, and dialysis-dependent renal failure) requiring cardiopulmonary bypass. Thrombotic events are common in antiphospholipid syndrome patients undergoing cardiac surgery utilizing high-dose heparin. This may represent unrecognized heparin-induced thrombocytopenia type II. Our patient did not experience perioperative thrombotic or bleeding complications. The possible cross-reactivity between heparin induced thrombocytopenia type II and antiphospholipid syndrome has not been investigated.

Lepirudin in patients with heparin-induced thrombocytopenia - results of the third prospective study (HAT-3) and a combined analysis of HAT-1, HAT-2, and HAT-3.

OBJECTIVES: To assess efficacy and safety of lepirudin in patients with heparin-induced thrombocytopenia (HIT) in a prospective study (HAT-3) as well as in a combined analysis of all HAT study data. PATIENTS/METHODS: Patients with laboratory-confirmed HIT were treated with lepirudin in three different aPTT-adjusted dose regimen and during cardiopulmonary bypass (CPB). Endpoints were new thromboembolic complications (TEC), limb amputations, and death and major bleeding. A historical control group (n = 120) was used for comparison. RESULTS: After start of lepirudin in 205 patients treated in HAT-3, the combined endpoint occurred in 43 (21.0%). Thirty (14.6%) patients died, 10 (4.9%) underwent limb amputation, and 11 (5.4%) new TECs occurred. Major bleeding occurred in 40 patients (19.5%) (seven during CPB surgery). Combining all prospective HAT trials (n = 403), after start of lepirudin treatment, the combined endpoint occurred in 82 patients (20.3%), with 47 deaths (11.7%), 22 limb amputations (5.5%), 30 new TECs (7.4%), and 71 (17.6%) major bleedings. Compared with the historical control group (log-rank test), the combined endpoint after start of treatment was reduced (29.7% vs. 52.1%, P = 0.0473), primarily because of reduction in new thromboses (11.9% vs. 32.1%, P = 0.0008). Mean lepirudin maintenance doses ranged from 0.07 to 0.11 mg kg(-1) h(-1). Major bleeding was more frequent in the lepirudin-treated patients (29.4% vs. 9.1%, P = 0.0148). CONCLUSIONS: The rate of new TECs in HIT patients is low after start of lepirudin treatment. The rate of major bleeding of 17.6% might be reduced by reducing the starting dose to 0.1 mg kg(-1) h(-1).

Treatment of patients with a history of heparin-induced thrombocytopenia and anti-lepirudin antibodies with argatroban.

Patients with heparin-induced thrombocytopenia (HIT) type II require anticoagulation with non-heparin immediate acting anticoagulants. Danaparoid may cross react with HIT-antibodies and lepirudin may generate anti-lepirudin antibodies influencing anticoagulation. We hypothesised, that the synthetic small molecular thrombin inhibitor argatroban does not induce immunoglobulins reacting towards lepirudin in patients with anti-lepirudin antibodies in the history and that titration of the anticoagulation may be easier with argatroban. We report on the treatment of four patients of a study, which was terminated prematurely due to official warnings for a repeated use of lepirudin. Two patients each received argatroban and lepirudin intravenously. A blinded assessor adjusted the doses of the anticoagulants to 1.5-3.0 fold prolongation of the aPTT. Ecarin clotting time (ECT), concentrations of lepirudin (ELISA) and of argatroban (gas-chromatography with mass spectrometry), and the generation of lepirudin antibodies (ELISA) were measured. APTT-adjusted dosages for argatroban was 2.0-2.6 microg/kg.min and for lepirudin 48-149 microg/kg.h. ECT was prolonged 2.1 to 4.5-fold with lepirudin and 4 to 7-fold with argatroban. The concentration of lepirudin ranged between 750 and 1500 ng/ml and of argatroban between 400 and 1100 ng/ml. Patients on argatroban did not generate immunoglobulin IgG reacting towards lepirudin in contrast to both patients on lepirudin who developed anti-lepirudin antibodies. Both treatments were well tolerated. Despite the low number of patients argatroban seems to lead to a more stable anticoagulant response than lepirudin resulting in a lower variability of the dosage for prophylaxis or treatment of thromboembolism of patients with a history of HIT and lepirudin antibodies.

Excessive anticoagulation and anaphylactic reaction after rechallenge with lepirudin in a patient with heparin-induced thrombocytopenia.

Approximately 40% of patients who receive lepirudin for 5-10 days develop antihirudin antibodies. These antibodies lead to decreased renal elimination of lepirudin, ultimately resulting in elevated activated partial thromboplastin times (aPTTs). A small percentage of patients with antihirudin antibodies develop hypersensitivity reactions to lepirudin with reexposure. Thus, patients who are reexposed to lepirudin must be monitored closely for hypersensitivity. A 45-year-old African-American woman received lepirudin for anticoagulation after being diagnosed with heparin-induced thrombocytopenia type II. She developed supratherapeutic aPTTs after 10 days of lepirudin therapy. Lepirudin was then withheld for 6 days, during which her aPTT remained supratherapeutic. After lepirudin infusion was restarted, the patient developed an anaphylactic reaction. She was treated appropriately with an antihistamine, a corticosteroid, and an anxiolytic agent. After the reaction resolved, the patient was rechallenged with lepirudin, and the anaphylactic reaction recurred.

Bivalent direct thrombin inhibitors: hirudin and bivalirudin.

Hirudin derivatives (e.g. lepirudin, desirudin) and hirudin analogues (e.g. bivalirudin) are bivalent direct thrombin inhibitors; that is, they bind to two distinct sites on thrombin-its active (catalytic) site and its fibrinogen-binding site (exosite 1). These bivalent binding properties contribute to their high affinity and high specificity for thrombin. This review compares the pharmacological properties of these agents, and describes studies of their efficacy and safety in diverse clinical settings such as immune heparin-induced thrombocytopenia, postoperative antithrombotic prophylaxis, and treatment of acute coronary syndrome. Certain disadvantages of hirudin, such as its predominant renal excretion and immunogenicity, have been overcome through development of the hirudin analogue, bivalirudin. Compared with hirudin derivatives, bivalirudin exhibits a shorter half-life (25 vs 80 minutes), predominant non-renal (enzymic) metabolism, and low immunogenicity. Further work is required to define the scope of clinical thrombosis problems that could benefit from these novel agents.