Sascha Meyer dos Santos

Using ImageJ for the quantitative analysis of flow-based adhesion assays in real-time under physiologic flow conditions

This article intends to close the gap between the abundance of regular articles focusing on adhesive mechanisms of cells in a flow field and purely technical reports confined to the description of newly developed algorithms, not yet ready to be used by users without programming skills. A simple and robust method is presented for analysing raw videomicroscopic data of flow-based adhesion assays using the freely available public domain software ImageJ. We describe in detail the image processing routines used to rapidly and reliably evaluate the number of adherent and translocating platelets in videomicroscopic recordings. The depicted procedures were exemplified by analysing platelet interaction with immobilized von Willebrand factor and fibrinogen in flowing blood under physiological wall shear rates. Neutralizing GPIbα function reduced shear-dependent platelet translocation on von Willebrand factor and abolished firm platelet adhesion. Abciximab, Tirofiban and Eptifibatide completely inhibited GPIIb/IIIa-dependent stable platelet deposition on fibrinogen. The presented method to analyse videomicroscopic recordings from flow-based adhesion assays offers the advantage of providing a simple and reliable way to quantify flow-based adhesion assays, which is completely based on ImageJ and can easily be applied to study adhesion mechanisms of cells in non-fluorescent modes without the need to deviate from the presented protocol.

A novel μ-fluidic whole blood coagulation assay based on Rayleigh surface-acoustic waves as a point-of-care method to detect anticoagulants

A universal coagulation test that reliably detects prolonged coagulation time in patients, irrespective of the anticoagulant administered, has not been available to date. An easily miniaturised, novel μ-fluidic universal coagulation test employing surface acoustic waves (SAW) is presented here. SAW was employed to instantly mix and recalcify 6 μl citrated whole blood and image correlation analysis was used to quantify clot formation kinetics. The detection of clinically relevant anticoagulant dosing with old anticoagulants (unfractionated heparin, argatroban) and new anticoagulants (dabigatran, rivaroxaban) has been tested and compared to standard plasma coagulation assays. The applicability of this novel method has been confirmed in a small patient population. Coagulation was dose-proportionally prolonged with heparin, argatroban, dabigatran, and rivaroxaban, comparable to standard tests. Aspirin and clopidogrel did not interfere with the SAW-induced clotting time (SAW-CT), whereas the strong GPIIb/IIIa-inhibitor abciximab did interfere. Preliminary clinical data prove the suitability of the SAW-CT in patients being treated with warfarin, rivaroxaban, or dabigatran. The system principally allows assessment of whole blood coagulation in humans in a point-of-care setting. This method could be used in stroke units, emergency vehicles, general and intensive care wards, as well as for laboratory and home testing of coagulation.

The CX3C chemokine fractalkine mediates platelet adhesion via the von Willebrand receptor glycoprotein Ib

The membrane-anchored CX3C chemokine fractalkine (FKN) is expressed on activated endothelium and is associated with the development of atherosclerosis. The potential of FKN in mediating platelet adhesion beyond platelet activation remains unexplored to date. A flow-based adhesion assay was used to study the adhesion of platelets to immobilized FKN under physiologic flow conditions. Platelet adhesion to von Willebrand factor (VWF) was increased in the presence of FKN at 600 inverse seconds. Additional platelet adhesion to FKN coimmobilized with VWF was dependent on the FKN receptor CX3CR1 and activation of glycoprotein (GP) IIb/IIIa. The number of platelets rolling on VWF was likewise enhanced in the presence of FKN. The enhancement of rolling on FKN and VWF was insensitive to anti-CX3CR1 antibody but was fully inhibited by neutralizing GPIbα function. The extracellular domain of GPIbα was covalently coupled to fluorescent microspheres, and microsphere binding was significantly higher in the presence of FKN. Platelet adhesion to activated endothelium in vitro and to intact human arteries was substantially increased in an FKN-dependent manner. These data demonstrate that endothelial expressed FKN activates platelets via its cognate receptor CX3CR1, whereas platelet adhesion is predominantly mediated by GPIbα and independent of CX3CR1.

GPVI and thromboxane receptor on platelets promote proinflammatory macrophage phenotypes during cutaneous inflammation.

Platelets are well known for their role in hemostasis but are also increasingly recognized for their supporting role in innate immune responses. Here, we studied the role of platelets in the development of peripheral inflammation and found that platelets colocalize with macrophages in the inflamed tissue outside of blood vessels in different animal models for cutaneous inflammation. Collagen-treatment of macrophages isolated from paws during zymosan-induced inflammation induced thromboxane synthesis through the platelet-expressed collagen receptor glycoprotein VI. Deletion of glycoprotein VI or its downstream effector thromboxane A2 receptor (TP) reduced zymosan-induced mechanical allodynia without altering macrophage recruitment or formation of macrophage/platelet complexes. Instead, macrophages in inflamed paws of glycoprotein VI- and TP-deficient mice exhibited an increased expression of anti-inflammatory markers and synthesized less proinflammatory mediators (prostaglandin E2 and IL6). TP expression on platelets was necessary to mediate increased prostaglandin E2 and IL6 synthesis, whereas TP expression on macrophages was sufficient to decrease the expression of the anti-inflammatory macrophage marker CD206, showing that TP activation on platelets and macrophages regulates different aspects of macrophage activation.

Neutrophils mediate edema formation but not mechanical allodynia during zymosan‐induced inflammation

Inflammatory pain is based on stimulation and sensitization of peripheral endings of sensory neurons (nociceptors) by pronociceptive mediators. These mediators can be released by resident cells, as well as invading immune cells. Although neutrophils are known to release various mediators, which can stimulate or sensitize nociceptors, the extent of their contribution to nociceptive responses is unclear. Here, we studied the contribution of neutrophils to zymosan‐induced inflammatory pain, which is characterized by an early recruitment of high numbers of neutrophils. Surprisingly, antibody‐mediated neutrophil depletion caused a complete loss of edema formation but had no effect on mechanical pain thresholds. Blockage of the interaction between neutrophils and platelets or endothelial cells using antibodies directed against CD11b and CD162 reduced neutrophil recruitment to the site of inflammation. Again, the treatment decreased zymosan‐induced edemas without altering mechanical pain thresholds. Also, HLB‐219 mice, which have five to 10 times less platelets than WT mice, showed reduced neutrophil recruitment to the site of inflammation and decreased edema sizes, whereas, again, mechanical thresholds were unaltered. The effects observed in HLB‐219 mice were relatively small and not reproduced in vWF‐deficient mice or after antibody‐mediated blockage of GPIbα. Flow chamber and transmigration assays showed that platelets were not necessary for neutrophil adhesion to endothelial cells but increased their transmigration. Taken together, zymosan‐induced mechanical allodynia is, in contrast to edema formation, independent of neutrophils, and recruitment of neutrophils is only partly influenced by interactions with platelets.

Fluorescent Human EP3 Receptor Antagonists.

Exchange of the lipophilc part of ortho-substituted cinnamic acid lead structures with different small molecule fluorophoric moieties via a dimethylene spacer resulted in hEP3R ligands with affinities in the nanomolar concentration range. Synthesized compounds emit fluorescence in the blue, green, and red range of light and have been tested concerning their potential as a pharmacological tool. hEP3Rs were visualized by confocal laser scanning microscopy on HT-29 cells, on murine kidney tissues, and on human brain tissues and functionally were characterized as antagonists on human platelets. Inhibition of PGE2 and collagen-induced platelet aggregation was measured after preincubation with novel hEP3R ligands. The pyryllium-labeled ligand 8 has been shown as one of the most promising structures, displaying a useful fluorescence and highly affine hEP3R antagonists.

CXCL16/CXCR6-mediated adhesion of human peripheral blood mononuclear cells to inflamed endothelium

The endothelial chemokine CXC motif ligand 16 (CXCL16) is involved in the recruitment and firm adhesion of CXCR6+ cells to the atherosclerosis-prone aortic vessel wall. Recently we showed that CXCR6+ platelets from flowing blood attach to CXCL16 expressed by activated endothelium on the luminal side of the blood vessel. With this study we supplement these findings with the observation that platelets bound to the inflamed endothelium are presenting CXCR6 to CXCL16-positive peripheral blood mononuclear cells (PBMCs) and, thus, are mediating an increased adhesion of PBMCs to the arterial wall. Furthermore we identified endothelial CXCL16 as an important adhesion molecule promoting the firm adhesion of CXCR6-positive PBMCs to inflamed endothelium. Our results demonstrate that endothelial CXCL16 as well as platelet CXCR6 are acting as potent PBMC-adhesion ligands, inducing PBMC-adhesion to the atherosclerosis-prone vessel wall and thus promoting the progression of atherosclerosis.

The integrin antagonist, cilengitide, is a weak inhibitor of αIIbβ3 mediated platelet activation and inhibits platelet adhesion under flow

Abstract The RGD cyclic pentapetide, cilengitide, is a selective inhibitor of αvβ3 and αvβ5 integrins and was developed for antiangiogenic therapy. Since cilengitide interacts with platelet αIIbβ3 and platelets express αv integrins, the effect of cilengitide on platelet pro-coagulative response and adhesion is of interest. Flow-based adhesion assays were performed to evaluate platelet adhesion and rolling on von Willebrand factor (vWf), on fibrinogen and on human umbilical vein endothelial cells (HUVECs). Flow cytometry was used to detect platelet activation (PAC1) and secretion (CD62P) by cilengitide and light transmission aggregometry was used to detect cilengitide-dependent platelet aggregation. Cilengitide inhibited platelet adhesion to fibrinogen at concentrations above 250 µM [which is the Cmax in human studies] and adhesion to vWf and HUVECs at higher concentrations under physiologic flow conditions. Platelet aggregation was already impaired at cilengitide concentrations >10 µM. Activation of αIIbβ3 integrin was inhibited by 250 µM cilengitide, whereas platelet secretion was unaffected by cilengitide. No evidence of cilengitide-induced platelet activation was found at all tested concentrations (0.01–1500 µM). At higher concentrations, platelet activation was inhibited, predominantly due to αIIbβ3 inhibition.

HDAC inhibition suppresses bladder cancer cell adhesion to collagen under flow conditions

The influence of the histone deacetylase (HDAC)-inhibitor, valproic acid (VPA), on bladder cancer cell adhesion in vitro was investigated in this paper. TCCSUP and RT-112 bladder cancer cells were treated with VPA (0.5 or 1 mM) twice or thrice weekly for 14 days. Controls remained untreated. Tumour cell interaction with immobilized collagen was evaluated by a flow-based adhesion assay using a shear force of 2 or 4 dyne/cm2. The effects of VPA on the integrin adhesion receptors α3, α5, β1, β3 and β4 were assessed by flow cytometry to determine integrin surface expression and by western blotting to determine the cytoplasmic integrin level. VPA of 0.5 mM and 1 mM significantly prevented binding of both RT-112 and TCCSUP cells to collagen, compared with the untreated controls. Adhesion was reduced to a higher extent when RT-112 (subjected to 2 dyne/cm2) or TCCSUP (subjected to 2 or 4 dyne/cm2) tumour cells were treated with VPA three times a week, compared to the two times a week protocol. VPA caused a significant up-regulation of the integrin α3, α5, β1, β3 and β4 subtypes on the TCCSUP cell surface membrane. In RT-112 cells, only integrin α5 was elevated on the cell surface following VPA exposure. Western blotting revealed an up-regulation of α3, α5, β3 and β4 integrins and down-regulation of the integrin β1 protein by VPA in TCCSUP. VPA also up-regulated α5 and down-regulated β1 integrin in RT-112 cells, but also reduced α3 and β3 in TCCSUP. VPA exerted adhesion-blocking properties on bladder cancer cells under physiologic flow conditions. The effects were accompanied by distinct modifications of the integrin expression profile, which differ depending on the cell lines used. Application of VPA might be an innovative option to prevent bladder cancer dissemination.

Phenotypic differences of human neutrophils of carriers of the PSGL-1 A and B-allele in binding to immobilised P-selectin under flow conditions

P-selectin glycoprotein ligand-1 (PSGL-1) interacts with P-selectin expressed on endothelial cells and platelets. PSGL-1 extracellular mucin-like domain displays a variable number of tandem repeats (VNTRs) polymorphism. The wildtype consists of 16 decameric repeats (designated A isoforms) and variants with 15 (B allele) and 14 (C allele) repeats that are assumed to be associated with reduced risk of vascular disease. We investigated the adhesion of these natural variants to P-selectin in native human neutrophils. Healthy volunteers were genotyped and the adhesion of neutrophils expressing the PSGL-1 isoforms A/A, A/B and B/B were studied under static and physiologic flow conditions. Homozygous B/B neutrophils attached significantly weaker to P-selectin at elevated shear rates from 24 up to 64 dyn/cm(2) than A/A and A/B neutrophils. No difference in adhesion rate was found under static conditions and shear stress below 24 dyn/cm(2), but B/B neutrophils rolled significantly faster than A/A neutrophils at shear stress ≥ 12 dyn/cm(2). There was no difference in the adhesive capacity between A/A an A/B neutrophils. These data support the view that the role of the decamers is to extend the ligand binding domain far above the cell surface to support stable leukocyte adhesion and rolling.