Pro- and anti-inflammatory macrophages express a sub-type specific purinergic receptor profile.

Extracellular nucleotides act as danger signals that orchestrate inflammation by purinergic receptor activation. The expression pattern of different purinergic receptors may correlate with a pro- or anti-inflammatory phenotype. Macrophages function as pro-inflammatory M1 macrophages (M1) or anti-inflammatory M2 macrophages (M2). The present study found that murine bone marrow-derived macrophages express a unique purinergic receptor profile during in vitro polarization. As assessed by real-time polymerase chain reaction (PCR), Gαs-coupled P1 receptors A2A and A2B are upregulated in M1 and M2 compared to M0, but A2A 15 times higher in M1. The ionotropic P2 receptor P2X5 is selectively upregulated in M1- and M2-polarized macrophages. P2X7 is temporarily expressed in M1 macrophages. Metabotropic P2Y receptors showed a distinct expression profile in M1 and M2-polarized macrophages: Gαq coupled P2Y1 and P2Y6 are exclusively upregulated in M2, whereas Gαi P2Y13 and P2Y14 are overexpressed in M1. This consequently leads to functional differences between M1 and M2 in response to adenosine di-phosphate stimulation (ADP): In contrast to M1, M2 showed increased cytoplasmatic calcium after ADP stimulation. In the present study we show that bone marrow-derived macrophages express a unique repertoire of purinergic receptors. We show for the first time that the repertoire of purinergic receptors is highly flexible and quickly adapts upon pro- and anti-inflammatory macrophage differentiation with functional consequences to nucleotide stimulation.

Dual targeting improves capture of ultrasound microbubbles towards activated platelets but yields no additional benefit for imaging of arterial thrombosis.

Platelets can be found on the surface of inflamed and ruptured atherosclerotic plaques. Thus, targeting of activated platelets may allow for molecular imaging of vulnerable atherosclerotic lesions. We here investigated microbubbles (MB) functionalized with the selectin ligand sialyl Lewisa individually (MBsLea) or dually with sLea and an antibody targeting ligand-induced binding sites of the activated GPIIb/IIIa receptor (MBDual). Assessed by in vitro flow chamber, targeted MB exhibited increased adhesion to platelets as compared to MBControl. While MBsLea rolled slowly on the platelets' surface, MBDual enhanced the percentage of firm adhesion. In vivo, MB were investigated by ultrasound in a model of ferric chloride induced non-occlusive carotid artery thrombosis. MBsLea and MBDual revealed a higher ultrasound mean acoustic intensity than MBControl (p < 0.05), however MBDual demonstrated no additional increase in mean signal intensity as compared to MBsLea. The degree of carotid artery stenosis on histology correlated well with the ultrasound acoustic intensity of targeted MB (p < 0.05). While dual targeting of MB using fast binding carbohydrate polymers and specific antibodies is a promising strategy to support adhesion to activated platelets under arterial shear stress, these advantages seem not readily translatable to in vivo models.

An inflammatory link in atherosclerosis and obesity. Co-stimulatory molecules.

Atherosclerosis and obesity-induced metabolic dysfunction are lipid-driven inflammatory pathologies responsible for a major part of cardiovascular complications. Immune cell activation as well as interactions between the different immune cells is dependent on and controlled by a variety of co-stimulatory signals. These co-stimulatory signals can either aggravate or ameliorate the disease depending on the stage of the disease, the cell-types involved and the signal transduction cascades initiated. This review focuses on the diverse roles of the most established co-stimulatory molecules of the B7 and Tumor Necrosis Factor Receptor (TNFR) families, ie the CD28/CTLA4-CD80/CD86 and CD40L/CD40 dyads in the pathogenesis of atherosclerosis and obesity. In addition, we will explore their potential as therapeutic targets in both atherosclerosis and obesity.

Asymptomatic atrial fibrillation and risk of stroke.

The incidence of atrial fibrillation rises with advancing age. About 10% of patients over 80 years suffer from atrial fibrillation, but episodes are often not recognized. However, about 25% of cryptogenic strokes are caused by asymptomatic atrial fibrillation showing a significant risk of thromboembolism by this condition. New insertable cardiac monitors or wearable sensors offer the opportunity of continuous rhythm monitoring over wider time spans. Thereby, they enable detection of asymptomatic atrial fibrillation episodes. Several lines of evidence point towards an association between duration of asymptomatic episodes and thromboembolic risk. However, definite data on optimal risk stratification and therapy is missing in this collective. Currently, oral anticoagulation should be initiated according to the CHA2DS2VASc Score. Given the better safety profile of direct oral anticoagulants these substances should be preferred. In patients with high bleeding risk and asymptomatic atrial fibrillation, catheter-based left appendage occlusion may represent a valuable alternative to oral anticoagulation.

Interruption of classic CD40L-CD40 signalling but not of the novel CD40L-Mac-1 interaction limits arterial neointima formation in mice.

The co-stimulatory immune molecule CD40L figures prominently in a variety of inflammatory conditions including arterial disease. Recently, we made the surprising finding that CD40L mediates atherogenesis independently of its classic receptor CD40 via a novel interaction with the leukocyte integrin Mac-1. Here, we hypothesised that selective blockade of the CD40L-Mac-1 interaction may also retard restenosis. We induced neointima formation in C57/BL6 mice by ligation of the left carotid artery. Mice were randomised to daily intraperitoneal injections of either cM7, a small peptide selectively inhibiting the CD40L-Mac-1 interaction, scM7, a scrambled control peptide, or saline for 28 days. Interestingly, cM7-treated mice developed neointima of similar size compared with mice receiving the control peptide or saline as assessed by computer-assisted analysis of histological cross sections. These data demonstrate that the CD40L-Mac-1 interaction is not required for the development of restenosis. In contrast, CD40-deficient mice subjected to carotid ligation in parallel, developed significantly reduced neointimal lesions compared with respective wild-type controls (2872 ± 843 µm² vs 35469 ± 11870 µm²). Flow cytometry in CD40-deficient mice revealed reduced formation of platelet-granulocyte and platelet-inflammatory monocyte- aggregates. In vitro, supernatants of CD40-deficient platelet-leukocyte aggregates attenuated proliferation and increased apoptosis of smooth muscle cells. Unlike in the setting of atherosclerosis, CD40L mediates neointima formation via its classic receptor CD40 rather than via its recently described novel interaction with Mac-1. Therefore, selective targeting of CD40L-Mac-1 binding does not appear to be a favorable strategy to fight restenosis.

Inflammatory mechanisms in atherosclerosis.

Throughout the last two decades inflammation has been recognized as the central mechanism underlying atherogenesis. A multitude of basic science work demonstrates the pivotal role of inflammatory processes during every step of atherosclerotic plaque formation: From initiation via propagation to complication. This review describes some of the key mechanisms involved with a particular focus on the diverse group of inflammatory cells and their subsets that distinctly contribute to atherogenic and anti-atherogenic phenomena. Furthermore, we summarize the controlling action of a tight network of co-stimulatory molecules and cytokines orchestrating the inflammatory and anti-inflammatory effector functions. Finally, the current status of clinical trials evaluating anti-inflammatory/immune-modulatory treatment strategies is summarized and an outlook for future therapeutic implications is provided.

Anticoagulation during and after acute coronary syndrome.

Current antithrombotic therapy in patients with acute coronary syndrome (ACS) comprises antiplatelet and anticoagulant therapy. Dual antiplatelet therapy composed of aspirin plus a third generation P2Y12 inhibitor (prasugrel or ticagrelor) represents the gold standard, while aspirin plus second generation P2Y12 inhibitor (clopidogrel) may be used as an alternative in the presence of contraindications for third generation P2Y12 inhibitors and/or a high risk of bleeding. Unfractionated heparin (UFH) has been the unchallenged mainstay in anticoagulation for ACS for many decades and is still widely used in patients with ACS treated interventionally. Novel alternative parenteral anticoagulant strategies include the low molecular weight heparin enoxaparin and the synthetic pentasaccharide fondaparinux. Both of these agents share advantages over UFH particularly in medically treated patients with ACS not scheduled for PCI. The direct parenteral factor IIa (thrombin) inhibitor bivalirudin, when used as sole anticoagulant in patients with ACS undergoing PCI, is as effective as the regimen of UFH plus GPIIb/IIIa inhibitor in NSTEMI and superior to the latter regimen in patients with STEMI. The novel approach of a long-term low dose factor Xa inhibition with rivaroxaban in the post ACS phase even further reduced cardiovascular mortality in a clinical trial but has yet to be established in daily clinical practice in the setting of third generation P2Y12 inhibitors. This review discusses currently clinically established anticoagulants for the treatment of ACS alongside with novel approaches such as rivaroxaban.

Co-stimulatory molecules in and beyond co-stimulation - tipping the balance in atherosclerosis?

A plethora of basic laboratory and clinical studies has uncovered the chronic inflammatory nature of atherosclerosis. The adaptive immune system with its front-runner, the T cell, drives the atherogenic process at all stages. T cell function is dependent on and controlled by a variety of either co-stimulatory or co-inhibitory signals. In addition, many of these proteins enfold T cell-independent pro-atherogenic functions on a variety of cell types. Accordingly they represent potential targets for immune-modulatory and/or anti-inflammatory therapy of atherosclerosis. This review focuses on the diverse role of co-stimulatory molecules of the B7 and tumour necrosis factor (TNF)-superfamily and their downstream signalling effectors in atherosclerosis. In particular, the contribution of CD28/CD80/CD86/CTLA4, ICOS/ICOSL, PD-1/PDL-1/2, TRAF, CD40/CD154, OX40/OX40L, CD137/CD137L, CD70/CD27, GITR/GITRL, and LIGHT to arterial disease is reviewed. Finally, the potential for a therapeutic exploitation of these molecules in the treatment of atherosclerosis is discussed.

Left ventricular tamponade - a clinical chameleon.

We present a 45-year-old patient who had to undergo aortocoronary bypass surgery after acute posterior myocardial infarction. On day twelve, the patient suddenly developed the classic signs of cardiogenic shock including angina, tachycardia, and hypotension. ECG displayed significant ST-elevations and troponin T was positive. Echocardiography suspected relevant pericardial effusion. However, the typical clinical signs of acute pericardial tamponade(distension of jugular veins, paradoxical pulse) were absent. Therefore, a computed tomography was carried out, which confirmed an isolated left ventricular tamponade resulting in severe diastolic and systolic dysfunction with profoundly impaired left ventricular filling. Immediate operative drainage was necessary since percutaneous pericardiocentesis was impossible given the untypical localization. This case demonstrates that clearcut signs of myocardial infarction can be misleading and may represent the untypical presentation of left ventricular tamponade,particularly in the setting after open-heart surgery.

Three-dimensional visualization of coronary arteries in excised hearts.

OBJECTIVE: We sought to image coronary arteries in excised hearts. METHODS: Twelve excised pigs' hearts were imaged in a water bath. The aortic valve was closed surgically. A contrast agent (Echovist) was injected into the aortic root and selectively into single coronary arteries. Three-dimensional (3D) imaging was performed with TomTec Echoscan equipment. Mechanical rotations were performed at 1 degrees intervals. The hearts were visualized by InVivo software. Selective coloring of coronary arteries in 3D data sets was obtained by using color superpositioning, which differentiates information before and after injection of contrast. Distance measurements were performed in conventional 3D echocardiograms of coronary arteries and color-superimposed echocardiograms and compared with those from angiograms and casts. RESULTS: After a learning curve, during which optimal conditions for the visualization of coronary arteries were determined, a quick display of all major parts of the coronary tree was obtained. Distance measurements (n >400) revealed that fundamental contrast echocardiography overestimated angiography by 25% +/- 5% and casts by 28% +/- 6%. However, distances in color-superimposed echocardiograms (flow mode 4) were not significantly different from those obtained from angiograms and casts. In harmonic contrast echocardiograms, color super-positioning gave smaller distances compared with those from fundamental contrast echocardiograms, though they were still significantly larger than the reference diameters. CONCLUSIONS: The 3D imaging of epicardial coronary arteries under ideal conditions in a water bath seems feasible and provides insight into coronary visualization with the use of ultrasonography.