John Hogwood

Effect of standardization and normalization on imprecision of calibrated automated thrombography: an international multicentre study

Calibrated automated thrombography (CAT) enables continuous measurement of thrombin generation (TG). Initial clinical studies using the CAT method showed large variability of normal values, indicating the necessity for a standardized CAT protocol. This international study assessed the intra‐ and inter‐assay imprecision of CAT as well as the inter‐centre variability of results in five European centres using locally available reagents and conditions (study 1) and a standardized protocol in which results were normalized (study 2). Samples with and without corn trypsin inhibitor from six healthy volunteers, two haemophilia patients and one protein C deficient patient were assayed. Study 1 confirmed that the use of different sources and concentrations of tissue factor (TF) and different phospholipid (PL) mixtures produced large variability in results. The second study demonstrated that, using the same source and concentration of TF, PL and the same test procedure, this variability could be significantly reduced. Normalization of results improved the inter‐centre variability. The benefit of contact factor inhibition prior to TG measurement was confirmed. These results demonstrated that standardization of CAT reduces the variability of results to acceptable limits. Standardization and normalization should be considered in future clinical studies which apply TG testing to clinical decision making.

Fucosylated chondroitin sulfates from the body wall of the sea cucumber Holothuria forskali. Conformation, selectin binding and biological activity

Background: An acidic polysaccharide, fCS, from the sea cucumber Holothuria forskali has a range of biological activities. Results: The conformation of fCS was determined, and resulting oligosaccharides were shown to retain desirable biological properties. Conclusion: The conformation of the fCS repeating unit underpins binding to L- and P-selectins. Significance: Exploitation of the fCS-selectin interaction may open new avenues for therapeutic intervention using fCS fragments or their mimetics. Fucosylated chondroitin sulfate (fCS) extracted from the sea cucumber Holothuria forskali is composed of the following repeating trisaccharide unit: →3)GalNAcβ4,6S(1→4) [FucαX(1→3)]GlcAβ(1→, where X stands for different sulfation patterns of fucose (X = 3,4S (46%), 2,4S (39%), and 4S (15%)). As revealed by NMR and molecular dynamics simulations, the fCS repeating unit adopts a conformation similar to that of the Lex blood group determinant, bringing several sulfate groups into close proximity and creating large negative patches distributed along the helical skeleton of the CS backbone. This may explain the high affinity of fCS oligosaccharides for L- and P-selectins as determined by microarray binding of fCS oligosaccharides prepared by Cu2+-catalyzed Fenton-type and photochemical depolymerization. No binding to E-selectin was observed. fCS poly- and oligosaccharides display low cytotoxicity in vitro, inhibit human neutrophil elastase activity, and inhibit the migration of neutrophils through an endothelial cell layer in vitro. Although the polysaccharide showed some anti-coagulant activity, small oligosaccharide fCS fragments had much reduced anticoagulant properties, with activity mainly via heparin cofactor II. The fCS polysaccharides showed prekallikrein activation comparable with dextran sulfate, whereas the fCS oligosaccharides caused almost no effect. The H. forskali fCS oligosaccharides were also tested in a mouse peritoneal inflammation model, where they caused a reduction in neutrophil infiltration. Overall, the data presented support the action of fCS as an inhibitor of selectin interactions, which play vital roles in inflammation and metastasis progression. Future studies of fCS-selectin interaction using fCS fragments or their mimetics may open new avenues for therapeutic intervention.

The Anticoagulant and Antithrombotic Mechanisms of Heparin

The molecular basis for the anticoagulant action of heparin lies in its ability to bind to and enhance the inhibitory activity of the plasma protein antithrombin against several serine proteases of the coagulation system, most importantly factors IIa (thrombin), Xa and IXa. Two major mechanisms underlie heparins potentiation of antithrombin. The conformational changes induced by heparin binding cause both expulsion of the reactive loop and exposure of exosites of the surface of antithrombin, which bind directly to the enzyme target; and a template mechanism exists in which both inhibitor and enzyme bind to the same heparin molecule. The relative importance of these two modes of action varies between enzymes. In addition, heparin can act through other serine protease inhibitors such as heparin co-factor II, protein C inhibitor and tissue factor plasminogen inhibitor. The antithrombotic action of heparin in vivo, though dominated by anticoagulant mechanisms, is more complex, and interactions with other plasma proteins and cells play significant roles in the living vasculature.

Standardisation of thrombin generation test--which reference plasma for TGT? An international multicentre study.

We have previously shown that standardisation and normalization of results improve the intercentre variability of the calibrated automated thrombin generation test (TGT). We suspected that the source of reference plasma (RP) might be a contributing factor to variability and compared 5 commercial RP and a RP provided by the NIBSC, in an international, multicentre study. The detailed composition of the 6 tested plasma samples was determined in the Haemostasis Laboratory in Lyon. The lot to lot consistency, intra-assay, inter-assay variability were calculated for all tested plasmas. The RP and 3 plasma samples (a normal control, a hypocoagulable and a hypercoagulable plasmas) were tested over 6 days, in 5 European centres. Results were normalised against each of the tested RP and intercentre variability of results was compared. All laboratories used the same reagents. Before normalization, the inter-centre variability was 19.8 to 27.3%. After normalization, we observed a significantly improved inter-laboratory variation with all tested RP, despite differences between them. These results clearly demonstrate that the inter-centre variability of TGT can be significantly reduced by using a reference plasma normalization, and that certain RP have a better capacity to reduce this variability than others.

Pharmacology of Heparin and Related Drugs

Heparin has been recognized as a valuable anticoagulant and antithrombotic for several decades and is still widely used in clinical practice for a variety of indications. The anticoagulant activity of heparin is mainly attributable to the action of a specific pentasaccharide sequence that acts in concert with antithrombin, a plasma coagulation factor inhibitor. This observation has led to the development of synthetic heparin mimetics for clinical use. However, it is increasingly recognized that heparin has many other pharmacological properties, including but not limited to antiviral, anti-inflammatory, and antimetastatic actions. Many of these activities are independent of its anticoagulant activity, although the mechanisms of these other activities are currently less well defined. Nonetheless, heparin is being exploited for clinical uses beyond anticoagulation and developed for a wide range of clinical disorders. This article provides a “state of the art” review of our current understanding of the pharmacology of heparin and related drugs and an overview of the status of development of such drugs.

Assays and reference materials for current and future applications of heparins

Heparin is widely used in the prevention and treatment of thrombosis. However, this complex polysaccharide is biologically active in many systems other than coagulation, due to its structural similarity to the cell surface and matrix glycan heparan sulphate. These properties give rise to a number of potential therapeutic applications, such as those involving the anti-inflammatory activity of heparin. The anticoagulant activity of heparin is used to determine the potency of heparin preparations for use as antithrombotics. Several types of assay are used, and reference materials are available for their calibration. There is no equivalent measure of heparins activity in other applications. For new types of heparin preparation, physicochemical methods of ensuring consistency and stability will be important, and new in vitro assays will have to be developed, all of which will require reference materials.

Recombinant factor IX: discrepancies between one-stage clotting and chromogenic assays.

New and modified recombinant factor IX (rFIX) products are in development and accurate potency estimation is important to ensure the consistency of production and efficacy of these therapeutics. Collaborative study data obtained during the replacement of the 3rd International Standard (IS) for FIX concentrate suggested that there was a discrepancy between potency estimates for rFIX using clotting and chromogenic methods, when the rFIX candidate was measured against the plasma‐derived FIX (pdFIX) IS. This study explores potential chromogenic and one‐stage clotting method discrepancies in more detail. Five batches each of rFIX and pdFIX were assayed against the 4th IS FIX concentrate (a pdFIX) by activated partial thromboplastin time (APTT) one‐stage clotting assay and specific functional chromogenic assay. The potency of rFIX by chromogenic assay was consistently around 70% of the one‐stage clotting potency (average 78 and 108 IU mL−1 respectively). These differences were not observed with pdFIX, which had similar potencies (average 96 IU mL−1) by each assay method. In addition, different APTT reagents yielded different potency estimates for rFIX when assayed against the pdFIX IS, with a variation of up to 23%. In all cases, the differences were largely resolved when a rFIX reference was used as the standard. This study highlights some of the challenges associated with assay of rFIX products in the laboratory and that careful consideration needs to be given to the choice of reference material used. This is especially important with the imminent arrival of new and modified rFIX products.

Neutralisation of the anti-coagulant effects of heparin by histones in blood plasma and purified systems

Neutrophil extracellular traps (NETs) composed primarily of DNA and histones are a link between infection, inflammation and coagulation. NETs promote coagulation and approaches to destabilise NETs have been explored to reduce thrombosis and treat sepsis. Heparinoids bind histones and we report quantitative studies in plasma and purified systems to better understand physiological consequences. Unfractionated heparin (UFH) was investigated by activated partial thromboplastin time (APTT) and alongside low-molecular-weight heparins (LMWH) in purified systems with thrombin or factor Xa (FXa) and antithrombin (AT) to measure the sensitivity of UFH or LMWH to histones. A method was developed to assess the effectiveness of DNA and non-anticoagulant heparinoids as anti-histones. Histones effectively neutralised UFH, the IC50 value for neutralisation of 0.2 IU/ml UFH was 1.8 µg/ml histones in APTT and 4.6 µg/ml against 0.6 IU/ml UFH in a purified system. Histones also inhibited the activities of LMWHs with thrombin (IC50 6.1 and 11.0 µg/ml histones, for different LMWHs) or FXa (IC50 7.8 and 7.0 µg/ml histones). Direct interactions of UFH and LMWH with DNA and histones were explored by surface plasmon resonance, while rheology studies showed complex effects of histones, UFH and LMWH on clot resilience. A conclusion from these studies is that anticoagulation by UFH and LMWH will be compromised by high affinity binding to circulating histones even in the presence of DNA. A complete understanding of the effects of histones, DNA and heparins on the haemostatic system must include an appreciation of direct effects on fibrin and clot structure.

Chromatographic Molecular Weight Measurements for Heparin, Its Fragments and Fractions, and Other Glycosaminoglycans

Glycosaminoglycan samples are usually polydisperse, consisting of molecules with differing length and differing sequence. Methods for measuring the molecular weight of heparin have been developed to assure the quality and consistency of heparin products for medicinal use, and these methods can be applied in other laboratory contexts. In the method described here, high-performance gel permeation chromatography is calibrated using appropriate heparin molecular weight markers or a single broad standard calibrant, and used to characterize the molecular weight distribution of polydisperse samples or the peak molecular weight of monodisperse, or approximately monodisperse, heparin fractions. The same technology can be adapted for use with other glycosaminoglycans.

Precipitation and Neutralization of Heparin from Different Sources by Protamine Sulfate

Current therapeutic unfractionated heparin available in Europe and US is of porcine mucosal origin. There is now interest, specifically in the US, to use bovine mucosa as an additional source for the production of heparin. The anticoagulant action of heparin can be neutralized by protamine sulfate, and in this study the ability of protamine to bind and neutralize the anticoagulant activities of heparin from porcine mucosa, bovine mucosa and bovine lung were assessed. Protamine sulfate was able to bind and precipitate similar amounts of heparins from different sources on a mass basis. However, differential amounts of anticoagulant activities were neutralized by protamine sulfate, with neutralization of porcine mucosa more effective than for bovine lung and bovine mucosa. For all heparins, potentiation of thrombin inhibition by antithrombin and heparin cofactor II was preferentially neutralized over antithrombin-mediated inhibition of factor Xa or plasma clotting time. Whole blood thromboelastography showed that neutralization by protamine sulfate was more effective than the antithrombin dependent thrombin inhibition assays indicated. While there was no absolute correlation between average or peak molecular weight of heparin samples and neutralization of anticoagulant activity, correlation was observed between proportions of material with high affinity to antithrombin, specific activities and neutralization of activity.