Characterization of platelet adhesion under flow using microscopic image sequence analysis.

A method for quantitative analysis of platelet deposition under flow is discussed here. The model system is based upon perfusion of blood platelets over an adhesive substrate immobilized on a glass coverslip acting as the lower surface of a rectangular flow chamber. The perfusion apparatus is mounted onto an inverted microscope equipped with epifluorescent illumination and intensified CCD video camera. Characterization is based on information obtained from a specific image analysis method applied to continuous sequences of microscopical images. Platelet recognition across the sequence of images is based on a time-dependent, bidimensional, gaussian-like pdf. Once a platelet is located,the variation of its position and shape as a function of time (i.e., the platelet history) can be determined. Analyzing the history we can establish if the platelet is moving on the surface, the frequency of this movement and the distance traveled before its resumes the velocity of a non-interacting cell. Therefore, we can determine how long the adhesion would last which is correlated to the resistance of the platelet-substrate bond. This algorithm enables the dynamic quantification of trajectories, as well as residence times, arrest and release frequencies for a high numbers of platelets at the same time. Statistically significant conclusions on platelet-surface interactions can then be obtained. An image analysis tool of this kind can dramatically help the investigation and characterization of the thrombogenic properties of artificial surfaces such as those used in artificial organs and biomedical devices.

Blood clotting in space.

We describe herein a novel in vitro approach that can be used effectively to obtain valuable insights into the role of platelets, various coagulation proteins as well as proteins of the subendothelial extracellular matrix involved in the hemostatic and thrombotic processes occurring under microgravity. At difference with other experimental approaches proposed in the past our device operates in a closed system and under different shear forces, which better mimics flow conditions occurring in vessels. Furthermore our device by allowing real time monitoring of the thrombotic process and its underlying mechanisms can be regarded as a reliable system for the precise assessment of platelet function.

Expression of MUM1/IRF4 selectively clusters with primary effusion lymphoma among lymphomatous effusions: implications for disease histogenesis and pathogenesis.

Primary effusion lymphoma (PEL) is a peculiar B-cell lymphoma characterized by infection by human herpesvirus type-8/Kaposi sarcoma-associated herpesvirus (HHV-8/KSHV) and by preferential growth in the serous body cavities. Histogenetic studies have suggested that PEL originates from B cells at a late stage of differentiation. In this study, we have investigated PEL for the expression status of MUM1/IRF4 (multiple myeloma 1/interferon regulatory factor 4) protein, which is involved in physiological B-cell maturation and represents a histogenetic marker of late B-cell differentiation. Using multiple detection assays, all cases of PEL (n = 22) were found to express MUM1/IRF4 molecules. MUM1/IRF4 expression was a selective feature of PEL among lymphomas involving the serous body cavities as secondary lymphomatous effusions generally failed to express the protein. In reactive lymphoid tissues, MUM1/ IRF4 expression clustered with advanced stages of B-cell differentiation. Comparison of MUM1/IRF4 expression with that of other histogenetic markers defined two phenotypic variants of PEL, i.e. MUM1/IRF4+, CD138/syndecan-1+, B-cell antigen- (20 out of 22 cases) and MUM1/IRF4+, CD138/syndecan-1-, B-cell antigen+ (2 out of 22 cases), suggesting a certain degree of heterogeneity in the disease histogenesis. The implications of these data are threefold. First, MUM1/IRF4 expression corroborates the notion that PEL originates from post-germinal centre, preterminally differentiated B-cells. Second, MUM1/IRF4 may help in the differential diagnosis of PEL among other lymphomas involving the serous body cavities. Finally, MUM1/IRF4 may interact with HHV-8/KSHV-encoded interferon regulatory factors (IRFs) and thus contribute to PEL escape from interferon-mediated control of viral infection.

Identification of domains responsible for von Willebrand factor type VI collagen interaction mediating platelet adhesion under high flow.

We have identified type VI collagen (Col VI) as a primary subendothelial extracellular matrix component responsible for von Willebrand factor (vWF)-dependent platelet adhesion and aggregation under high tensile strength. Intact tetrameric Col VI was the form of the collagen found to be capable of promoting vWF-mediated platelet adhesion/aggregation under this shear condition, whereas removal of the predominant portion of the terminal globules by pepsin treatment abrogated its activity. The inability of the pepsin-digested Col VI to support any platelet interaction at high flow was because of the failure of the A3(vWF) domain to bind to this form of collagen, suggesting a stringent requirement of a tridimensional conformation or of intactness of its macromolecular structure. In contrast, the A1(vWF) domain bound to both intact and pepsin-digested Col VI tetramers but, in accordance with the cooperating function of the two vWF domains, failed to support platelet adhesion/aggregation under high shear onto Col VI by itself. The putative A1(vWF) binding site resided within the A7(VI) module (residues 413-613) of the globular amino-terminal portion of the alpha3(VI) chain. Soluble recombinant A7(VI) polypeptide strongly perturbed the vWF-mediated platelet adhesion to Col VI under high shear rates, without affecting the binding of the vWF platelet receptor glycoprotein Ibalpha to its cognate ligand A1(vWF). The findings provide evidence for a concerted action of the A1(vWF) and A3(vWF) domains in inducing platelet arrest on Col VI. This is accomplished via an interaction of the A1(vWF) domain with a site contained in the alpha3 chain A7(VI) domain and via a conformation-dependent interaction of the A3(vWF) domain with the intact tetrameric collagen. The data further emphasize that Col VI microfilaments linking the subendothelial basement membrane to the interstitial collagenous network may play a pivotal role in the hemostatic process triggered upon damage of the blood vessel wall.

An original method to study autoantibody specificity in haemoglobin stained eluates by the column agglutination techniques.

When studying autoantibody specificity by the indirect antiglobulin test with column agglutination techniques ether and xylene elution techniques result in haemoglobin stained eluates which give a red colouration to the gel or glass beads and do not allow the identification of positive reactions. Xylene eluates were incubated with commercially available group O-test red cell panels at 37 degrees C for 45 min in the wells of a microtitre plate in a 3:1 eluate:red cell ratio. After washing with normal saline, sensitized red cells, resuspended in low ionic strength solution (LISS), were applied onto the microtubes containing the antiglobulin serum and positive reactions were recorded after centrifugation. We studied the specificity of 35 autoantibody containing eluates from 12 patients with lymphoproliferative disorders (six having autoimmune haemolysis) and 23 HIV patients without autoimmune haemolysis. All patients had a gel or column positive (IgG) direct antiglobulin test while the tube direct antiglobulin test failed to show red cell bound IgG. We found a reactive indirect antiglobulin test in 20/23 eluates from HIV infected patients (with a panreactive specificity), in all patients with autoimmune haemolysis (one with anti-C, two with anti-E, one with anti-K and two with a panreactive specificity) and in all patients with positive direct antiglobulin test but without immune mediate haemolysis (in all cases with panreactive specificity). The method proposed is a promising tool for the study of the specificity of antibody containing haemoglobin stained eluates; in this study it allowed us to confirm that some HIV patients have specific binding of IgG on their RBC and to identify the specificity of tube test non-reactive eluates.

Abnormalities of membrane protein composition in patients with autoimmune haemolytic anaemia.

Acquired abnormalities of red cell membrane protein composition in 37 patients with a positive direct antiglobulin test have been studied: 17 patients had true autoimmune haemolytic anaemia and 20 were HIV-infected subjects with a positive direct antiglobulin test but without signs of haemolysis. The study was carried out by performing sodium dodecyl sulphate polyacrylamide gel electrophoresis of ghost proteins followed by densitometric evaluation of the areas under the peaks, normalized by the total (alpha + beta) spectrin content. Results show a significant decrease of bands 3, 4.1 and 4.2 over spectrin in patients with autoimmune haemolysis as compared to controls; at least in a small subset of patients, different specificities recognized by autoantibodies do not seem to account for these abnormalities which are reproducible independently from the molecular size of bands immunoprecipitated by autoantibodies. A similar decrease of protein 4.2 but not of band 3 staining intensity is also noticeable in HIV patients with a positive direct antiglobulin test. These results are consistent with the hypothesis that, following interactions between autoantibodies and autoantigens, modifications occur on membrane proteins resembling a variety of quantitative defects described in inherited haemolytic anaemias, and mainly the "vertical interaction defects' of hereditary spherocytosis. Moreover, the decrease of band 3 staining intensity seems to represent a feature of patients with immune mediated haemolysis and not only with autoantibody binding.

Immunochemical studies on red cell auto antigens: use and limits of immunoprecipitation from biotinylated erythrocyte membrane.

Erythrocyte surface was labelled by means of biotin; immunoprecipitation technique was then used to localise antigens recognised on red cell membrane proteins by: a) autoantibodies from 13 patients with antierythrocyte autoimmunity; b) commercially available anti-D and anti-k (Cellano) antierythrocyte alloantibodies. Results with alloantibodies are comparable to those obtained using radiochemical probes. Immunoprecipitations with autoantibody containing eluates showed reactivity at different molecular weights (the most common at 34-50 kD, others at 100 and 45 kD and a newly described one at 80 kD), thus confirming that many membrane proteins may act as target antigens for erythrocyte autoimmunity. We found a higher percentage of reactive immunoprecipitates than previously reported using the same labelling method. However, critical conditions to allow valuable results seem to be a threshold amount of autoantibody to precipitate any recognisable band and the sensitivity of the detection method. Hence methodological variables must be taken into consideration before concluding that "non protein" antigens trigger the autoimmune process.