Evaluation of tissue factor bearing microparticles as biomarkers in allogeneic stem-cell transplantation.

BACKGROUND: There is compelling evidence that blood-borne tissue factor that is predominantly found on circulating microparticles (MPs) plays an important role in both, cancer biology and organ and stem-cell transplantation (SCT). Therefore, we hypothesized that numbers of tissue factor bearing MPs might be associated with complications and outcome in allogeneic SCT (allo-SCT). MATERIALS AND METHODS: In a prospective study, we enumerated total, platelet, endothelial, and tissue factor bearing MPs in plasma samples obtained from up to 60 patients with hematologic diseases at different time-points during the course of allo-SCT by flow cytometry. Patient- and transplant-related risk factors were included in statistical analysis. RESULTS: Mean follow-up time was 968 days (0-1981 days). Thirty-four (56.7%) patients died, 17 due to transplant-related mortality (28.3%). High numbers of tissue factor positive MPs more than 500/µL before conditioning were predictive for shorter overall survival (P=0.017, hazard ratio=4.5) in multivariate analysis. This was mainly caused by an increase in transplant-related mortality (P=0.010, hazard ratio=11.0) with cumulative incidences at 1 year of 68.8% compared with patients with lower values (20.1%; P=0.002). CONCLUSIONS: Tissue factor bearing MPs might be useful biomarkers for risk stratification in allo-SCT patients and further studies should investigate their origin, functional properties, and optimal cut-off values.

Acquired haemophilia caused by non-haemophilic factor VIII gene variants.

The aetiology of anti-factor VIII (FVIII) autoantibody formation in acquired haemophilia remains unknown. We hypothesised that encounter of antigenically different, allogeneic FVIII may challenge inhibitor formation after presentation on MHC class II. Eighteen consecutive cases with acquired haemophilia were enrolled (nine females, nine males). A control group comprised 50 male and 50 female healthy blood donors. The coding region of the FVIII gene and the HLA-DRB1 genotype were studied. The presentation of foreign FVIII variants on the patient's MHC class II alleles was predicted using SYFPEITHI algorithm. A rare FVIII variant (E2004K) was found in one patient with acquired haemophilia after massive transfusion; the 2004 K allele was predicted to be presented on the patient's HLA-DRB1*0101. Moreover, distribution of a polymorphism (D1241E) was significantly skewed comparing patients and controls. Three of three patients with transfusion-associated disease carried 1241D in homozygous or hemizygous form and were predicted to present 1241E (foreign), but not 1241D (self), on their HLA-DRB1*0301. Therefore, encounter of 1241E may result in the presentation of a new T cell epitope in these patients. The same conditions were not found in any patient with acquired haemophilia of other causes. The expected frequency in the general Caucasoid population undergoing transfusion is 3% to 4%. In conclusion, encounter of variant allogeneic FVIII presented on a suitable MHC background could be a risk factor for inhibitor formation.

Recovery and composition of microparticles after snap-freezing depends on thawing temperature.

Consent regarding the correct processing and storage of blood microparticles is lacking and different protocols for the freeze-thaw cycle exist. Therefore, three different thawing procedures were evaluated regarding their influence on recovery and composition of microparticles. Microparticles were prepared by TRAP-6 or A23187 stimulation of platelet-rich plasma from smokers and nonsmokers (n = 8), from an endothelial cell line or directly obtained from platelet-free plasma of septic patients (n = 5). After snap-freezing in liquid nitrogen platelet-free samples were thawed at 37 degrees, at room temperature or on ice and staining of microparticles was carried out with Annexin V-Cy5 as well as fluorescein isothiocyanate (FITC) or phycoerythrin (PE) labelled antibodies or isotype controls. Microparticle concentrations were determined by means of Trucount tubes. Recovery of platelet microparticles was significantly reduced when samples were thawed on ice (P = 0.001 for all antigens) compared with the two other techniques (P = 0.6 for 37 degrees and P = 0.7 for room temperature, respectively) whereas microparticles of endothelial origin appeared to be less influenced. There was a strong trend towards altered microparticle composition as microparticle counts detected by CD41 staining showed a stronger decrease on ice than Annexin V enumeration (P = 0.07). For microparticle detection thawing of snap-frozen, platelet-free plasma samples should be carried out at room temperature or at 37 degrees C in a water bath but not on ice.

Isotype controls in phenotyping and quantification of microparticles: a major source of error and how to evade it.

BACKGROUND: The characterisation and quantification of cell-derived microparticles (MPs) using flow cytometry are often complicated by a low staining intensity and a non-discrete signal pattern of many cell surface antigens. Fluorescence-labelled isotype controls (ICs) are commonly used to set limits for the discrimination of antigen positive vs. negative events. OBJECTIVES: The influence of different ICs on the characterisation and quantification of MPs was studied. Antigen negative MPs stained with an antibody of interest were evaluated as an alternative control. METHODS: MPs were prepared from platelets, endothelial cell lines and leucemic cell lines and stained with fluorescein isothiocyanate (FITC) or phycoerythrin (PE) labelled antibodies or isotype controls. Results are given as the mean fluorescence intensity (MFI) or percentage of "false-positive" events above a fluorescence intensity > 1. RESULTS: Using identical instrument settings, seven different ICs (FITC-conjugates N = 3, PE-conjugates N = 4) resulted in a wide range of MFI and percentage of positive events with a mean coefficient of variation (CV) of 0.77. Instead, NMPs showed less variability with a mean CV of 0.50 and allowed a reliable and reproducible quantification of MPs when set as controls with < 2% false-positive events above an FI > 1. As a result, the expression of certain antigens (e.g. CD62P) was lower compared to previous reports in the literature. CONCLUSIONS: Diversity in the staining intensity of isotype controls is a potential source of error in the characterisation and quantification of MPs by flow cytometry. The use of antigen negative MPs to adjust instrument settings is suggested.

Spectrum of molecular defects and mutation detection rate in patients with mild and moderate hemophilia A.

The amount of residual F8 (FVIII:C) determines the clinical severity of hemophilia A. Recently, we showed that the mutation detection rate in severely affected male patients (FVIII:C<1% of normal) is virtually 100% when testing for the common intron 22-/intron 1- inversions and big deletions, followed by genomic sequencing of the F8 gene. Here we report on the spectrum of mutations and their distribution throughout the F8 gene sequence in 135 patients with moderate (n=23) or mild (n=112) hemophilia A. In contrast to the severe form of the disorder, analysis on the genomic level failed to detect the molecular defect in approximately 4% of the moderately and in approximately 12% of the mildly affected patients. A total of 36 of the mutations identified in this study are novel. The vast majority of the detected changes were missense. The newly detected amino acid substitutions were scored for potential distant or local conformational changes and influence on molecular stability for every single F8 domain with available structures, using homology modeling. Two molecular changes in the promoter region of the factor VIII gene (c.-112G>A and -219C>T), affecting the core segment (minimal promoter) were detected in two patients with mild hemophilia A. To our knowledge this is the first report on promoter mutations in the F8 gene.

Spectrum of molecular defects and mutation detection rate in patients with severe hemophilia A.

Hemophilia A is the most frequently occurring X-linked bleeding disorder, affecting one to two out of 10,000 males worldwide. Various types of mutations in the F8 gene are causative for this condition. It is well known that the most common mutation in severely affected patients is the intron 22 inversion, which accounts for about 45% of cases with F8 residual activity of less than 1%. Therefore, the aim of the present study was to determine the spectrum and distribution of mutations in the F8 gene in a large group of patients with severe hemophilia A who previously tested negative for the common intron 22 inversion. Here we report on a mutation analysis of 86 patients collected under the above-mentioned criterion. The pathogenic molecular defect was identified in all patients, and thus our detection rate was virtually 100%. Thirty-four of the identified mutations are described for the first time. The newly detected amino acid substitutions were scored for potential gross or local conformational changes and influence on molecular stability for every single F8 domain with available structures, using homology modeling.

Risk of bleeding complications with antiplatelet agents: meta-analysis of 338,191 patients enrolled in 50 randomized controlled trials.

Antiplatelet therapy has been the focus of extensive clinical investigations over the last two decades. A variety of agents and regimens have been advanced for the prevention and treatment of vascular disease. Despite the proven life-saving clinical benefits of inhibiting platelets, this therapy is associated with an increased risk of bleeding. The objective of this study was to determine the risk of hemorrhage in the major classes of antiplatelet agents. Data from clinical trials published 1988-2002 in English were retrieved from MEDLINE, OVID, and CARDIOSOURCE. Only those studies in which patients had clinical follow-up for at least 1 month and in which a full description of hemorrhagic complications was reported were included. Information on sample size, study design, duration, agent, patient characteristics, and bleeding severity was independently and blindly reviewed. Data from 51 clinical trials with a total of 338,191 patients were analyzed. The antiplatelet agents were divided into 6 groups: aspirin (ASA) < 100 mg; ASA > or = 100 mg; dipyridamole, thienopyridines; intravenous and oral GP IIb/IIIa inhibitors. The variance estimate and confidence intervals were calculated for each treatment assignment. Low-dose aspirin and dipyridamole therapy were associated with the lowest risk of bleeding (3.6% and 6.7%, respectively). The highest rate of bleeding complications (44.6%) was associated with the GP IIa/IIIb inhibitors. Despite substantial differences in the reporting patterns of bleeding complications, low-dose ASA and dipyridamole therapy were associated with the lowest risk. Surprisingly, doses of ASA >/= 100 mg caused a relatively high hemorrhagic event rate, which was comparable to that of ADP-receptor blockers. These findings should be considered when using combination antiplatelet and/or anticoagulant therapy with conventional doses of ASA.

The deletion polymorphism in the angiotensin-converting enzyme gene is a moderate risk factor for venous thromboembolism.

ACE displays potent vasoconstrictive effects, attenuation of fibrinolysis, and platelet activation and aggregation, thus possibly promoting venous thromboembolism (VTE). The ACE gene contains an insertion (I) or deletion (D) polymorphism accounting for 50% of the variation in serum ACE concentration. To evaluate the role of the I/D polymorphism in VTE, its prevalence was determined in 931 patients with VTE and 432 blood donors. The prevalence of the DD genotype was 27.6% in patients and 21.3% in controls (OR 1.4; p < 0.02). In multivariate analysis there was a trend of the DD genotype to be an independent risk factor (OR 1.4; p = 0.08). No differences in DD genotype prevalence according to exogenous risk factors were found. Coinheritance of FV G1691A, PT G20210A mutation, and PS deficiency with the DD genotype increased the relative risk of VTE. Thus, the ACE DD genotype is a moderate risk factor of hereditary thrombophilia. Exogenous risk factors did not alter the manifestation of VTE among carriers of the DD genotype, whereas coinheritance of the DD genotype with the aforementioned defects increased the risk for VTE considerably.

Prevalence of small rearrangements in the factor VIII gene F8C among patients with severe hemophilia A.

Hemophilia A is a common X-linked bleeding disorder caused by various types of mutations in the factor VIII gene F8C. The most common intron 22-inversion is responsible for about 40% of the severe hemophilia A cases while large deletions, point mutations and small (less than 100 bp) deletions or insertions are responsible for the disease in the rest of patients. We report on nine novel (6 deletions, two indels and one partial duplication) and five recurrent small rearrangements identified in 15 German patients with severe hemophilia A, negative for the intron 22-inversion. c.2208-2214delTTATTAC/c.2207-2215insCTCTT and c.4665-4678del/c.4664-4678insAAGGAA identified in the present study are the first small indels described in the factor VIII gene. Our analyses suggest that the prevalence of this type of mutations (predominantly located in exon 14) among patients with severe phenotype and negative for the common intron 22-inversion, is about 30%. The correlation between these molecular defects and formation of factor VIII inhibitors as well as the parental origin of the de novo mutations are evaluated. Finally we show that denaturing HPLC (DHPLC) and classic heteroduplex analysis (HA) are able to detect these sequence alterations on 100% and could be preferred as a screening approach when analysing for mutations in factor VIII in severely affected patients.