Antibodies to factor VIII in hemophilia A patients

Inhibitor development represents the main complication in the treatment of haemophilia A. The risk of inhibitor formation is in part genetically determined by the type of the underlying factor VIII gene lesion but environmental factors may also play an important role. Due to the lack of efficiency of factor VIII in these patients other therapeutic agents must be used for the treatment of bleedings, however, none is as effective as factor VIII in a non-inhibitor patient. Therefore, the eridication of the inhibitor through immune tolerance therapy is the treatment of choice. Centralized national and international immune tolerance registries have collected the results and show cost effectiveness of this treatment.     

Noncoagulation inhibitory factor VIII antibodies after induction of tolerance to factor VIII in hemophilia A patients

We recently described tolerance induction with factor VIII/IX, cyclophosphamide, and high-dose intravenous IgG in hemophilia A or B patients with coagulation inhibitory antibodies. Circulating noninhibitory antibodies complexed with factor IX have been demonstrated in tolerant hemophilia B patients. Similar findings are now described in six tolerant hemophilia A patients. Complexes between factor VIII and the 'tolerant' antibody were demonstrated by subjecting plasma to gel filtration chromatography, void fractions containing factor VIII/vWF complexes being collected and adsorbed to protein A. Using 125I-labeled F(ab')2 fragments against IgG subclass and factor VIII antigen, complexes between an IgG4 antibody and factor VIII were found to adsorb to protein A. After infusion of factor VIII to tolerant patients, all factor VIII circulated in complex with IgG4 antibody. In three of the patients, the 'tolerant' antibodies inhibited an ELISA specific for factor VIII light chain but, unlike the pretolerant antibodies, did not bind radiolabeled factor VIII heavy chain. Although after induction of tolerance the patients still have circulating IgG4 antibodies against factor VIII, the antibodies differ in specificity, lack coagulation inhibitory activity, and do not enhance the rate of elimination of factor VIII.     

Assaying the circulating factor VIII activity in hemophilia A patients treated with recombinant factor VIII products

Large discrepancies between factor VIII assay methods have been reported from pharmacokinetic studies of recombinant factor VIII concentrates. In the assay of postinfusion patient plasma samples, traditional activated partial thromboplastin time (aPTT)-based one-stage clotting methods usually give results that are 20 to 50% lower than those obtained by chromogenic substrate assays. Investigations into the cause of these discrepancies have shown that the choice of phospholipid in the one-stage assay is crucial. The use of platelets or liposomes resembling platelet factor 3 instead of traditional aPTT reagents results in an increase in the apparent one-stage activity and a fairly good correlation with the chromogenic results. These and other functional test results, antigen measurements as well as clinical data, support the view that the chromogenic assay most accurately reflects the therapeutic effect. In addition to the differences among assay methods, there is also a discrepancy between the World Health Organization (WHO) standards for concentrates and plasma. The use of product-specific standards, prepared by diluting the factor VIII concentrate into hemophilic plasma, when assaying postinfusion plasma samples seems to be a feasible approach to overcome the problems encountered in pharmacokinetic studies.     

Mutation analysis of factor VIII in Korean patients with severe hemophilia A

Hemophilia A is an X-linked recessive disorder caused by mutations of the factor VIII gene. The mutation spectrum has been reported in various populations, but not in Koreans. Mutation analysis of the factor VIII gene was performed in 22 unrelated Korean patients with severe hemophilia A. We extracted genomic DNA from their blood, and assessed intron inversions, deletions, and point mutations by direct DNA sequencing. A multiplex ligation-dependent probe amplification gene dosage assay was also performed to identify exon deletions. Disease-causing mutations were identified in all patients, of which four cases were previously unreported. Seven intron 22 inversions, nine point mutations (6 nonsense mutations and 3 missense mutations), and four small rearrangements were identified. One multi-exon deletion and one 5′-donor splicing site mutation were also observed. Four novel mutations (one small deletion, one multiple exon deletion, one missense, and one splice site mutation) were detected, and point mutations were predominant (40.9%), followed by intron 22 inversions (31.8%). Further studies are required in order to establish a solid conclusion regarding the prevalence of various mutations in the Korean population.     

Mutations of factor VIII cleavage sites in hemophilia A

Hemophilia A is caused by a defect in coagulation factor VIII, a protein that undergoes extensive proteolysis during its activation and inactivation. To determine whether some cases of hemophilia are caused by mutations in important cleavage sites, we screened patient DNA samples for mutations in these sites by a two-step process. Regions of interest were amplified from genomic DNA by repeated rounds of primer- directed DNA synthesis. The amplified DNAs were then screened for mutations by discriminant hybridization using oligonucleotide probes. Two cleavage site mutations were found in a survey of 215 patients. A nonsense mutation in the activated protein C cleavage site at amino acid 336 was discovered in a patient with severe hemophilia. In another severely affected patient, a mis-sense mutation results in a substitution of cysteine for arginine in the thrombin activation site at amino acid 1689. This defect is associated with no detectable factor VIII activity, but with normal levels of factor VIII antigen. The severe hemophilia in this patient was sporadic; analysis of the mother suggested that the mutation originated in her gametes or during her embryogenesis. The results demonstrate that this approach can be used to identify factor VIII gene mutations in regions of the molecule known to be important for function.     

Antifactor VIII antibody inhibiting allogeneic but not autologous factor VIII in patients with mild hemophilia A

Two unrelated patients with the same Arg2150His mutation in the factor VIII (FVIII) C1 domain, a residual FVIII activity of 0.09 IU/mL, and inhibitor titres of 300 and 6 Bethesda Units, respectively, were studied. Further analysis of patient LE, with the highest inhibitor titer, showed that (1) plasma or polyclonal IgG antibodies prepared from LE plasma inhibited the activity of allogeneic (wild-type) but not of self FVIII; (2) the presence of von Willebrand factor (vWF) increased by over 10-fold the inhibitory activity on wild-type FVIII; (3) the kinetics of FVIII inhibition followed a type II pattern, but in contrast to previously described type II inhibitors, LE IgG was potentiated by the presence of vWF instead of being in competition with it; (4) polyclonal LE IgG recognized the FVIII light chain in enzyme-linked immunosorbent assay and the recombinant A3-C1 domains in an immunoprecipitation assay, indicating that at least part of LE antibodies reacted with the FVIII domain encompassing the mutation site; and (5) LE IgG inhibited FVIII activity by decreasing the rate of FVIIIa release from vWF, but LE IgG recognized an epitope distinct from ESH8, a murine monoclonal antibody exhibiting the same property. We conclude that the present inhibitors are unique in that they clearly distinguish wild-type from self, mutated FVIII. The inhibition of wild-type FVIII by LE antibody is enhanced by vWF and is associated with an antibody-dependent reduced rate of FVIIIa release from vWF.     

High-dose factor VIII inhibits factor VIII-specific memory B cells in hemophilia A with factor VIII inhibitors

Hemophilia A in its severe form is a life-threatening hemorrhagic disease that is caused by mutations in the factor VIII (FVIII) gene (symbol F8). About 25% of patients who receive replacement therapy develop neutralizing antibodies that inhibit the function of substituted FVIII. Long-term application of high doses of FVIII has evolved as an effective therapy to eradicate the antibodies and to induce long-lasting immune tolerance. Little is known, however, about the immunologic mechanisms that cause the down-modulation of anti-FVIII antibodies by high doses of FVIII. We report that high doses of FVIII inhibit the restimulation of FVIII-specific memory B cells and their differentiation into antibody-secreting plasma cells in vitro and in vivo in a murine model of hemophilia A. The inhibition of memory B-cell responses is irreversible and not mediated by FVIII-specific T cells. Furthermore, it seems to involve the activation of caspases. We conclude that the inhibition of FVIII-specific memory B cells might be an early event in the down-modulation of anti-FVIII antibodies in patients with hemophilia A who receive high doses of FVIII.     

Eleven novel mutations in the factor VIII gene from Brazilian hemophilia A patients

The molecular characterization of the mutations in hemophilia A patients is hampered by the large size of the factor VIII gene and the great heterogeneity of mutations. In this study, we have performed a protocol involving multiplex polymerase chain reaction in which 19 exons were amplified in four different combinations followed by nonradioactive single-strand conformational polymorphism (SSCP) to screen for mutations. Southern blotting was used to detect inversion of the factor VIII gene resulting from recombination between copies of the gene A (F8A) located in intron 22 of the factor VIII gene and two copies close telomeric region of X chromosome. Forty-two hemophilia A patients (21 with severe and 21 with mild-to-moderate disease) were studied. The inversion of factor VIII occurred in 13 of 21 patients affected by severe hemophilia A. One patient showed a large extra band in addition to the three bands observed after Southern blotting with the F8A probe. An abnormal electrophoretic pattern of SSCP was detected in 85% and 50% of the patients affected by mild-to-moderate and severe disease, respectively. Sixteen different mutations were identified. Eleven mutations were novel and comprised 9 point mutations and 2 small deletions. This study shows that the methodology used is safe and rapid and has potential for detecting almost all of the genetic defects of the studied hemophilia A patients.     

Antibodies to factor VIII in plasma of patients with hemophilia A and normal subjects

 Non-neutralizing factor VIII (FVIII) antibodies (FVIII-Ab) in hemophilia A may be associated with an abnormal clinical response to FVIII concentrates. Patients with FVIII inhibitors may develop noncoagulation FVIII-Ab after the induction of immunotolerance. Natural FVIII-Ab may be detected in the plasma of some healthy subjects. The aim of this study was to analyze the presence of FVIII-Ab in the plasma of 53 normal blood donors and 124 patients with hemophilia A (18 patients had a previous history of FVIII inhibitor, but only 12 had inhibitor at the moment this study was performed). FVIIII inhibitor was measured using the Bethesda method. FVIII-Ab were analyzed by a specific ELISA assay using purified FVIII from a monoclonal concentrate and a standard plasma containing 26 Bethesda units (BU) of FVIII inhibitor. Purified FVIII was used to coat wells of a microtiter plate and was incubated with dilutions of plasma to be tested. Bound human IgG FVIII-Ab were detected by incubation with polyclonal sheep anti.human IgG alkaline phosphatase conjugate, and the OD₄₀₅ was quantitated. A linear fit was obtained (by plotting FVIII-Ab positivity [OD 405nm] versus BU titer) when serial dilutions of this standard inhibitor plasma, containing titers of 0.5 BU or higher, were used. Four different levels of FVIII-Ab positivity [OD 405nm] were distinguished in this assay: Negative levels (–) were obtained with dilutions of the standard inhibitor containing <0.5 BU. Mild levels (+) were obtained with dilutions of 0.5–5 BU. Moderate levels (++) were obtained for dilutions ranging from 5–25 BU. Maximum positivity (+++) was obtained for dilutions of titers > 25 BU. FVIII-Ab positivity was detected in eight of the normal subjects (15%): three were found to be moderately positive (++) and five mildly positive (+). No inhibitory activity was detectable when whole plasma was used. All the hemophilic patients with a presence of FVIII inhibitor at the time of the study were found to be positive for FVIII-Ab. In addition, the level of positivity correlated with the corresponding BU. Four of the six patients who had a history of inhibitor were negative and two positive. Twenty additional patients (16.12%) in whom no inhibitory activity was detected were found to be positive for FVIII-Ab: 16 + and four ++. The mean age of patients with FVIII-Ab positivity was significantly higher than that of patients of the FVIII-Ab negative group (p<0.005). In conclusion, FVIII-Ab positivity in patients with hemophilia A was 17.7% higher than the level of positivity detected by an inhibitory assay. We propose that this method for FVIII-Ab analysis could be used for patients with hemophilia A, at least to complement the functional inhibitor assay. FVIII recovery or half-life should be assessed in patients who test positive for FVIII-Ab and who show no evidence of inhibitor. Received: 31 July 1995 / Accepted: 25 January 1996     

Influence of the type of factor VIII concentrate on the incidence of factor VIII inhibitors in previously untreated patients with severe hemophilia A

Inhibitor development is the major treatment complication in children with severe hemophilia A. It is not clear whether the risk of inhibitors is higher with recombinant factor VIII or with plasma-derived factor VIII. We used multivariate analysis to compare 2 cohorts of previously untreated patients (PUPs) with severe hemophilia A: 62 patients treated with the same brand of high-purity plasma-derived FVIII (pFVIII) containing von Willebrand factor (VWF) and 86 patients treated with full-length recombinant FVIII (rFVIII). In addition to the usual end points (all inhibitors, high inhibitors), we also examined a third end point (high inhibitors and/or immune tolerance induction). The risk of inhibitor development was higher in patients treated with rFVIII than in patients treated with pFVIII, regardless of other risk factors (F8 genotype; nonwhite origin; history of inhibitors in patients with a family history of hemophilia; age at first FVIII infusion). The adjusted relative risk (RRa) for inhibitor development with rFVIII versus pFVIII was 2.4 (all inhibitors), 2.6 (high inhibitors), and 3.2 (high inhibitors and/or immune tolerance induction), respectively, depending on the end point (above). The pathophysiology of this large effect must be understood in order to improve the characteristics of recombinant products and to reduce the incidence of inhibitors to FVIII.     

Acquired hemophilia. A natural history study of 16 patients with factor VIII inhibitors receiving little or no therapy

Rarely, a patient develops an antibody against factor VIII coagulant activity. The resultant hemorrhagic diathesis is clinically distinct from inherited hemophilia, being characterized by few hemarthroses but frequent skin and other soft-tissue hematomas. Hematuria may be troublesome. These patients represent therapeutic challenges. This study is one institution's results with 16 such patients followed up over an average of 31 months (range, four to 120 months; median, 19 months). It describes the largest group from a single institution receiving essentially no immunosuppressive agents, yet has one of the better overall results. Two patients experienced fatal hemorrhage and five patients underwent spontaneous remission. Long-term survival is not incompatible with persistence of the inhibitor. We conclude that this hemorrhagic diathesis is clinically distinct, less fatal than usually perceived, and may undergo spontaneous remission. Clearly, there is no mandate for any particular therapeutic regimen, such as immunosuppression, in the attempt to rid the patient of the antibody.     

Prevention and treatment of factor VIII inhibitors in murine hemophilia A

Inhibitory antibody formation is a major complication of factor VIII replacement therapy in patients with hemophilia A. To better understand the pathogenesis of this immunologic reaction, we evaluated the role of T-cell costimulatory signals for antifactor VIII antibody formation in a murine model of hemophilia A. Repeated intravenous injections of factor VIII in these factor VIII-deficient mice induced an antifactor VIII inhibitor antibody response. This response was shown to be T-cell dependent by its absence in hemophilic mice also deficient for the T-cell costimulatory ligand B7-2. In separate experiments, injection of murine CTLA4-Ig completely blocked the primary response to factor VIII in hemophilic mice with intact B7 function. This reagent also prevented or diminished further increases in antifactor VIII when given to hemophilic mice with low antifactor VIII antibody titers. These studies suggest that strategies targeting the B7-CD28 pathway are potential therapies to prevent and treat inhibitory antifactor VIII antibodies. Moreover, because the development of antibodies to replaced proteins may limit the success of many human gene therapy approaches, our results may be broadly applicable. (Blood. 2000;95:1324-1329)     

Kinetics of factor VIII:C inhibitors and treatment response in severe hemophilia A patients

Severe hemophilia A (HA) patients develop inhibitory alloantibodies to factor VIII:C and therefore require bypass agents that are scarce, expensive and may provoke secondary effects. Twenty-three severe HA patients who were high-responders to FVIII inhibitors were studied. FVIII:C activity in plasma was measured by one-stage activated partial thromboplastin time method, and the quantification of FVIII:C inhibitors was carried out by the Nijmegen-Bethesda method. Inhibition kinetics was assessed through serial plasma dilutions. FVIII:C activity was <1% in all patients. Kinetics behavior of the inhibitors was classified as type I in 14 patients, type II in four and an intermediate pattern that we named type III in one case. We were unable to apply the regression model to the remaining four of 23 patients in the study because of their low inhibitory titer (<3 Nijmegen-Bethesda units per ml). Seventy-eight percent of the patients with inhibitor type I did not respond to high doses of FVIII therapy, whereas 50% of patients with type II kinetics did (P = 0.5323). Generally, patients belonging to the same family had similar kinetics behavior as well as concordant treatment response. Although nonsignificant, our results suggest an association between kinetics behavior and treatment response that may be a valuable prognostic parameter for the management of these patients.     

Safety and prolonged activity of recombinant factor VIII Fc fusion protein in hemophilia A patients

Current factor VIII (FVIII) products display a half-life (t(1/2)) of ～ 8-12 hours, requiring frequent intravenous injections for prophylaxis and treatment of patients with hemophilia A. rFVIIIFc is a recombinant fusion protein composed of a single molecule of FVIII covalently linked to the Fc domain of human IgG(1) to extend circulating rFVIII t(1/2). This first-in-human study in previously treated subjects with severe hemophilia A investigated safety and pharmacokinetics of rFVIIIFc. Sixteen subjects received a single dose of rFVIII at 25 or 65 IU/kg followed by an equal dose of rFVIIIFc. Most adverse events were unrelated to study drug. None of the study subjects developed anti-rFVIIIFc antibodies or inhibitors. Across dose levels, compared with rFVIII, rFVIIIFc showed 1.54- to 1.70-fold longer elimination t(1/2), 1.49- to 1.56-fold lower clearance, and 1.48- to 1.56-fold higher total systemic exposure. rFVIII and rFVIIIFc had comparable dose-dependent peak plasma concentrations and recoveries. Time to 1% FVIII activity above baseline was ～ 1.53- to 1.68-fold longer than rFVIII across dose levels. Each subject showed prolonged exposure to rFVIIIFc relative to rFVIII. Thus, rFVIIIFc may offer a viable therapeutic approach to achieve prolonged hemostatic protection and less frequent dosing in patients with hemophilia A. This trial was registered at www.clinicaltrials.gov as NCT01027377.     

Alloantibodies to therapeutic factor VIII in hemophilia A: the role of von Willebrand factor in regulating factor VIII immunogenicity

The rising incidence of neutralizing antibodies (inhibitors) against therapeutic factor VIII prompted the conduct of studies to answer the question as to whether this rise is related to the introduction of recombinant factor VIII products. The present article summarizes current opinions and results of non-clinical and clinical studies on the immunogenic potential of recombinant compared to plasma-derived factor VIII concentrates. Numerous studies provided circumstantial evidence that von Willebrand factor, the natural chaperone protein present in plasma-derived factor VIII products, plays an important role in protecting exogenous factor VIII from uptake by antigen presenting cells and from recognition by immune effectors. However, the definite contribution of von Willebrand factor in reducing the inhibitor risk and in the achievement of immune tolerance is still under debate.     

妇女超重与低体重对其体外受精治疗的影响

回顾性分析1 107名妇女体重对体外受精与胚胎移植(IVF-ET)治疗中超排卵和妊娠结局的影响.超重组与正常体重组相比,卵巢刺激所需的促性腺激素剂量更多[(36.87±11.18对33.57±10.96)支,P<0.01],注射绒毛膜促性腺激素日的血雌二醇浓度更低[(1 846.6±1 390.3对2 337.2±1490.6)pg/ml,P<0.01],由于卵巢反应不良取消周期率更高(6.5%对2.8%,P<0.05),以及自然流产率更高(10.5%对5.4%,P<0.05),胚胎实验室参数、种植率、妊娠率及活产率差异无统计学意义.低体重组与正常体重组相比,在卵巢刺激以及妊娠结局方面差异无统计学意义.