A novel assay for factor XIII based on cross-linking of synthetic peptides: analysis of different substrates.

A novel assay for factor XIII is described that utilizes exclusively small synthetic peptides as substrates for the cross-linking reaction catalyzed by activated factor XIII (FXIIIa). The acyl donor substrate (selection peptide) is immobilized on a microplate via biotin while the acyl acceptor substrate (detection peptide) is labeled with the fluorochrome Oregon green to allow sensitive detection without the need for secondary enzyme systems for signal amplification. Starting with an amino acid sequence from the fibrin gamma-chain (GQQHHLGGAKQAGDV) as a prototype peptide, the influence of amino acid exchanges were investigated with respect to their impact on the FXIIIa-catalyzed reaction. It was found that FXIIIa readily accepts a broad range of substrate peptides, with a proline neighboring the essential lysine having the most detrimental effect. The assay appears to be valuable for the molecular characterization of factor XIII and may be used for a deeper investigation into the substrate requirements of this final enzyme of wound repair, and eventually also for the characterization of other transglutaminases.

Molecular basis of pollen-related food allergy: identification of a second cross-reactive IgE epitope on Pru av 1, the major cherry (Prunus avium) allergen.

Birch (Betula verrucosa) pollen-associated food allergy is a well-characterized syndrome, which is due to the cross-reactivity of IgE antibodies to homologous allergens in various foods. One crossreacting area on the major birch pollen allergen Bet v 1 and its homologue in cherry (Prunus avium) Pru av 1 has already been identified. This is the so-called 'P-loop' region, which encompasses amino acid residues around position 45 and is found on the two virtually identical tertiary protein structures. We tried to determine an additional IgE cross-reacting patch on Pru av 1 and Bet v 1. The putative IgE-binding region on Pru av 1 was localized with a mAb (monoclonal antibody) that was generated against Bet v 1, and cross-reacts with several Bet v 1 homologues in food and inhibits the binding of patients' IgE to Pru av 1. mAb reactivity pattern was analysed and amino acid positions 28 and 108 of Pru av 1 were selected and mutated by site-directed mutagenesis. The Pru av 1 mutants were produced as recombinant proteins and characterized for their folding, mAb- and IgE-binding capacity and allergenic potency with a cellular assay using the humanized rat basophilic leukaemia cell line RBL-25/30. Amino acid position 28 is involved in a second major IgE-binding region on Pru av 1 and probably on Bet v 1. The identification of this second major IgE-binding region is an essential prerequisite to understand the phenomenon of cross-reactivity and its clinical consequences, and to produce hypoallergenic proteins for an improved immunotherapy of type I allergy.

Identification of prothrombin as a major thrombogenic agent in prothrombin complex concentrates.

Prothrombin complex concentrates (PCC) were compared in an in vitro test system for thrombogenicity (thrombin generation assay) employing plasma from coumarin-treated patients. Among these concentrates one had a proven history of thrombogenicity, whereas the remainder did not cause such fatal casualties in the past. Investigations into the thrombogenic component were performed by spiking experiments in which we biased a typical PCC without reported thromboembolic complications into one with a performance in the thrombin generation assay like that with a proven history of thrombogenicity. Hereby, it was possible to identify prothrombin as the most plausible thrombogenic component. Additional experiments performed with anticoagulant components (antithrombin together with heparin) resulted in a perfect reversal of the observed in vitro thrombogenicity. Our in vitro observations corroborate on an experimental basis the widespread medicinal usage of antithrombin administration as a regimen for the avoidance of thromboembolic complications during treatment with PCC and related products, and vice versa. Our observation casts doubts upon the widely accepted idea of activated factor IX as the thromboembolic agent in PCC. Also, our finding may be taken as an example for the feasibility of this test system as an in vitro model for thrombogenicity.

A secreted metallo protease from Aeromonas hydrophila exhibits prothrombin activator activity.

Detection, purification, and partial characterization of a protease from Aeromonas hydrophila capable of cleaving prothrombin into active thrombin is described. The protease has been characterized with respect to enzymatic characteristics such as optimum reaction conditions for prothrombin activation, usage of additional substrates, as well as sensitivity against inhibitors. The protease activity can reversibly be inhibited by Me2+ chelating agents like ethylenediamine tetraacetic acid. The enzyme exhibits a pI value of 4.4 and can withstand temperatures up to 55 degrees C without loss of activity. With respect to prothrombin the enzyme exhibits a K(M) value of 1.47 micromol/l and a vmax value of 1.66 mol/min per mol enzyme. Amino terminal sequence analysis as well as mass spectrometry of fragments obtained by trypsin digest showed identity to a recently described elastase type protease from the same organism and homology to known proteases from other procaryotes (e.g. Aeromonas caviae, Vibrio proteolytica, Pseudomonas aeruginosa).

PDZ Domain-mediated interaction of interleukin-16 precursor proteins with myosin phosphatase targeting subunits.

The cytokine interleukin-16 is generated by posttranscriptional cleavage by caspase-3 of two large precursor isoforms. The smaller protein of 67 kDa (pro-IL-16) is expressed in cells of the immune system and contains three PDZ (postsynaptic density/disc large/zona occludens-1) domains, whereas the larger 141-kDa neuronal variant (npro-IL-16) has two additional PDZ domains in its N-terminal extension that interact with neuronal ion channels. Using the yeast two-hybrid approach we have identified three closely related myosin phosphatase targeting subunits, MYPT1, MYPT2, and MBS85, as binding partners of the IL-16 precursor proteins. These interactions were verified using pull-down assays, coimmunoprecipitations, and plasmon resonance experiments. Binding requires the intact PDZ2 domain of pro-IL-16 and highly related C-terminal regions in the ligands consisting of a short leucine zipper and an indispensable serine at the -1 position, suggesting a novel unconventional PDZ binding mode. Pro-IL-16 and the myosin phosphatase targeting subunits colocalize along actomyosin filaments and stress fibers in transfected COS-7 cells. By modulating and targeting the catalytic phosphatase subunit to its substrates, MYPT1, MYPT2, and MBS85 regulate various contractile processes in muscle and non-muscle cells. Our findings indicate an involvement of the IL-16 precursor molecules in myosin-based contractile processes, most likely in cell motility, providing a functional link to the chemotactic activity of the mature cytokine. Alternatively, an intracellular complex of npro-IL-16, ion channels, and components of myosin motors in neurons suggests a role in protein targeting.

Factor VIII determination in patient's plasma and concentrates: a novel test equally suited for both matrices.

A novel assay for the determination of factor VIII (FVIII) is described. The assay uses a fluorescence-based detection system comparable with the common chromogenic test. At the same time, the assay is analogous to the clotting test as it does not involve pre-activation of FVIII. The assay was adjusted to perform equally well with patient's plasma and FVIII concentrates as samples. The combined employment of two different FVIII-deficient plasmas turned out to be of crucial importance in order to render the matrices as similar as possible to patient's plasma and, simultaneously, to obtain maximum sensitivity. Samples with a FVIII content down to 0.01 IU/ml are readily measured as are samples with a FVIII content of 1 IU/ml or somewhere in between. Upon dilution of samples, concentrates and plasma exhibited the same dose-response characteristics.