CD40 and vascular inflammation

Atherosclerosis is currently considered a chronic inflammatory disease combined with a disorder of lipid metabolism and deposition. Risk factors for coronary disease, as well as circulating cytokines, are involved in endothelial activation, leading to an adhesive and dysfunctional endothelium. The CD40 receptor (CD40) and its counterpart, the CD40 ligand (CD40L/CD154), were originally found to regulate T cell-dependent B cell differentiation. Meanwhile, several studies clearly demonstrate that the CD40/CD40L system plays an important role not only in cellular immunity and inflammation, but also in the pathophysiology of atherosclerosis. This is evidenced by the finding that inhibition of CD40/CD40L interaction prevents atherogenesis in animal models. Thus, the regulation of proatherogenic factors including CD40L may provide novel therapeutic options to treat inflammatory disorders such as atherosclerosis.     

Ecto-nucleotidases of the CD39/NTPDase family modulate platelet activation and thrombus formation: Potential as therapeutic targets

Extracellular nucleotide P2-receptor-mediated effects on platelets, leukocytes and endothelium are modulated by ecto-nucleotidases. These ecto-enzymes hydrolyze extracellular nucleotides to the respective nucleosides. The dominant ecto-nucleotidase expressed by the endothelium, by monocytes and vascular smooth muscle cells is CD39/NTPDase1. Ecto-nucleotidase biochemical activity of CD39 is lost at sites of acute vascular injury, such as in ischemia reperfusion and immune graft rejection. CD39L(Like)1/NTPDase2, a related protein, is associated with the basolateral surface of endothelium, the adventitia of vessels and microvascular pericytes. CD39/NTPDase1 hydrolyzes both tri- and diphosphonucleosides and blocks platelet aggregation responses to ADP. In contrast, CD39L1/NTPDase2, a preferential nucleoside triphosphatase, activates platelets by preferentially converting ATP to ADP, the major agonist of platelet P2 receptors. Spatial and temporal expression of NTPDases in the vasculature appears to control platelet activation, thrombus size and stability by regulating phosphohydrolytic activity and consequent P2 receptor signaling. Constitutively circulating microparticles appear to be associated with functional NTPDases, and accumulation of these at sites of vascular injury might influence local thrombus formation and evolution. The phenotype of the cd39-null mouse is in keeping with disordered thromboregulation with heightened susceptibility to inflammatory vasculary reactions, increased permeability and high levels of tissue fibrin. Paradoxically, these mutant mice also exhibit a bleeding phenotype with differential platelet P2Y1 desensitization. Over-expression of CD39 at sites of vascular injury and inflammation by adenoviral vectors, by transgenesis or by the use of pharmacological modalities with soluble derivatives has been shown to have major potential in several animal models tested to date. Future clinical applications will involve the development of new therapeutic strategies to various inflammatory vascular diseases and in transplantation.     

Circulating CD34+ progenitor cells modulate host angiogenesis and inflammation in vivo

Within the phenotypically and functionally heterogeneous group of circulating progenitor cells (CPC), a subclass of cells with vascular repair potential have been identified. These CPC are detected and isolated based on single or combined expression of CD34, CD133 and VEGFR-2, and referred to as endothelial progenitor cells. Here we asked whether CPC subsets defined by single expression of these markers exhibit functional heterogeneity. As functional parameters, we chose the capacity of CPC to differentiate into endothelial cells. Moreover, we studied their role in remodeling by recruitment of inflammatory cells, an aspect that has been little explored. We established an in vivo model in which the intrinsic functional capacity of these human CPC subsets was studied. Human CD34+ CPC, but not CD133+ or VEGFR-2+ CPC, seeded in Matrigel pellets and transplanted subcutaneously in a nude mouse host, contributed little to donor-derived neovascularization. However, host angiogenesis in the Matrigel implant, as demonstrated by the presence of capillaries containing erythrocytes and expressing mouse CD31, was strong in response to implantation of human CD34+ CPC and significantly lower in response to the other two CPC subsets. Moreover, the CD34+ CPC subset was significantly superior to CD133+ CPC and VEGFR-2+ CPC in the recruitment of host monocytes/macrophages. These three CPC populations were further dissected into seven discrete subsets, based on three-parameter flow cytometry analysis of combined expression patterns of CD34, CD133 and VEGFR-2. In conclusion, in our system, CD34+ CPC contribute marginally to neovascularization by differentiation but are potent regulators of the host angiogenic and pro-inflammatory response, suggesting a possible role for these cells in the remodeling of vascular lesions.     

Role of miR-181 family in regulating vascular inflammation and immunity

The microRNA family, miR-181, plays diverse roles in regulating key aspects of cellular growth, development, and activation. Accumulating evidence supports a central role for the miR-181 family in vascular inflammation by controlling critical signaling pathways, such as downstream NF-κB signaling, and targets relevant to endothelial cell activation and immune cell homeostasis. This review examines the current knowledge of the miR-181 family's role in key cell types that critically control cardiovascular inflammation under pathological and physiological stimuli.     

Platelets in inflammation and thrombosis

For many years it has been known that platelets play an important role in thrombosis and hemostasis. In recent times, however, it has become evident that platelets also have relevant functions in inflammation. It was shown that thrombosis and inflammation share several key molecular mechanisms and in fact are 2 intrinsically linked processes. In this review, we intend to give a short overview with emphasis on work stemming from our laboratory.     

Circulating human CD34+ progenitor cells modulate neovascularization and inflammation in a nude mouse model

CD34+ progenitor cells hold promise for therapeutic neovascularization in various settings. In this study, the role of human peripheral blood CD34+ cells in neovascularization and inflammatory cell recruitment was longitudinally studied in vivo. Human CD34+ cells were incorporated in Matrigel, implanted subcutaneously in nude mice, and explanted after 2, 4, 7, or 14 days. Cell-free Matrigels served as controls. Histochemical analyses demonstrated that neovascularization occurred almost exclusively in CD34+ implants. Cellular and capillary density were increased in cell-loaded Matrigels after 2 days and further increased at 14 days. Human CD34+ cells did not incorporate in neovessels, but formed vWF+/CD31+/VEGF+ cell clusters that were present up to day 14. However, CD34+ cells induced host neovascularization, as demonstrated by increased presence of murine CD31+ and vWF+ vasculature from day 7 to 14. Moreover, recruitment of murine monocytes/macrophages was significantly enhanced in CD34+ implants at all time points. Gene expression of chemotactic cytokines MCP-1 and IL-8 was detected on CD34+ cells in vitro and confirmed immunohistochemically in cell-loaded explants at all time points. Our data indicate that human CD34+ cells, implanted in a hypoxic environment, generate an angiogenic niche by secreting chemotactic and angiogenic factors, enabling rapid neovascularization, possibly via recruitment of monocytes/macrophages.     

Prevention of thrombosis and vascular inflammation: importance of combined cyclooxygenase and 5-lipoxygenase inhibitors

Aspirin, a standard non-steroidal anti-inflammatory drug (NSAID) is currently used in antithrombotic treatment. However, its use is limited by largely recognized gastrotoxicity and recommended doses are low. The major side effect of aspirin is related to its ability to suppress prostaglandin (PG) synthesis by constitutive cyclooxygenase-1 (COX-1). Specific inhibitors of COX-2, the inducible isoform of COX which was more recently described, have potent antiinflammatory effects. They are associated with minor risk of gastric tractus toxicity and reduced inflammatory leukocyte components known for their proatherothrombotic properties. Nevertheless, recent findings attributed a significant cardiovascular risk to some of them. 5-lipoxygenase (5-LOX), an enzyme mainly expressed by leukocytes, is responsible for the generation of leukotrienes, the major lipidic proinflammatory mediators. Development of combined inhibitors of 5-LOX and COX isoforms 1 and 2 inaugurate an interesting new therapeutic pathway. Indeed, such inhibitors suppress not only the activation of platelets, leukocytes and endothelial cells but also prevent their metabolic and functional interactions. In addition to their broad spectrum inhibition, they may be associated with the minor gastrotoxic effect. Thus, platelet-leukocyte interactions which dominate the underlying inflammatory process particularly in atherosclerosis, might reinforce the benefits of such inhibitors.     

Intertwining of thrombosis and inflammation in atherosclerosis

PURPOSE OF REVIEW: The aim of this article is to highlight the importance of thrombotic processes in the development and complications of atherosclerotic vascular disease. RECENT FINDINGS: Thrombin generated at sites of vascular inflammation activates major atheroma-associated cells including endothelial cells, platelets, smooth muscle cells, monocytes, and macrophages. Thrombin-activated cells produce a plethora of inflammatory mediators, such as regulated upon activation normal T cell expressed presumed secreted, macrophage migration inhibitory factor, and CD40 ligand, that promote atherosclerotic lesion formation and atherothrombotic complications of vascular disease. Additionally, thrombin-induced inflammatory mediators stimulate tissue factor procoagulant activity within atheroma to initiate a positive feedback loop where thrombin activation launches inflammatory signals that lead to further thrombin activation. Platelets, the main cellular effectors of the thrombotic system, also play a central role in the biology of atherosclerosis by producing inflammatory mediators and directing leukocyte incorporation into plaques through platelet-mediated leukocyte adhesion. SUMMARY: New research has identified signaling pathways that intertwine thrombotic and inflammatory pathways with the development and progression of atherosclerosis. These signaling pathways contain positive feedback loops that propagate atherogenesis. Targeting molecular regulators at the interface of thrombosis and inflammation simultaneously may reduce thrombosis and inflammation, thus breaking pathological cycles that promote atherosclerosis and associated thrombotic complications.     

New links between inflammation and thrombosis

This article is a summary of the Sol Sherry Lecture of the Council on Arteriosclerosis, Thrombosis, and Vascular Biology, which was presented at the Scientific Sessions of the American Heart Association in November 2004. It highlights work from our laboratory, focusing mainly on new aspects of P-selectin and CD40L (CD154) biology and on the interplay of platelets and leukocytes in thrombosis and inflammation.     

Glucocorticoids modulate vascular reactivity in the rat

To clarify the role of endogenous glucocorticoids in the regulation of blood pressure, the cardiovascular effects of RU 486, a steroid derivative with antiglucocorticoid properties, were investigated in Wistar rats. Pressor responses to angiotensin II (Ang II), norepinephrine, and vasopressin were studied in normal conscious rats before and after administration of RU 486. At 20 mg/kg/day, RU 486 significantly blunted pressor responses to Ang II and norepinephrine, whereas those to vasopressin were not greatly affected. At a lower dose, RU 486 did not alter pressor responses; at a higher dose, it augmented them, probably through its agonistic glucocorticoid effect. At 20 mg/kg/day, RU 486 antagonized the enhancing effect of a glucocorticoid agonist on pressor responses to Ang II, norepinephrine, and vasopressin. Cardiac output and renal blood flow were measured in anesthetized rats by the microsphere method. RU 486 at 20 mg/kg/day did not alter basal cardiac output and renal blood flow. RU 486 pretreatment attenuated pressor responses to Ang II and norepinephrine but did not alter cardiac output. It significantly blunted the decrease in renal blood flow and the increase in renal vascular resistance induced by Ang II. In rats fed a low sodium diet (where the pressor systems are stimulated), administration of RU 486 (20 mg/kg/day for 5 days) decreased total peripheral vascular resistance by 29% and mean blood pressure by 20 mm Hg. This effect was unrelated to any antimineralocorticoid activity of the compound, as shown by unchanged urinary sodium excretion, sodium balance, and plasma renin concentration. In contrast, it was due to the antiglucocorticoid activity, as shown by restoration of mean blood pressure by corticosterone, the major glucocorticoid in rats. Renal vascular resistance decreased during RU 486 administration in anesthetized (-25%) and unanesthetized (-19%) rats. Glomerular filtration rate, estimated from inulin clearance in conscious rats, did not change significantly. In conclusion, the present results suggest that endogenous glucocorticoids increase vascular reactivity and therefore contribute to blood pressure regulation. They also participate in the control of renal hemodynamics. This effect is most apparent in salt-restricted rats. The vascular action of glucocorticoids was unmasked by the administration of the antiglucocorticoid compound RU 486.     

Interleukin 8 and venous thrombosis: evidence for a role of inflammation in thrombosis

Elevated plasma levels of interleukin 8 (IL-8) were previously shown to be associated with recurrent venous thrombosis. To assess the risk of venous thrombosis, IL-8 plasma concentrations were measured in patients and control subjects of the Leiden Thrombophilia Study (LETS). This population based case-control study included 474 patients with a first deep-vein thrombosis and 474 age- and sex-matched controls. The risk of venous thrombosis for subjects with elevated IL-8 levels (above 90th percentile of controls) compared with subjects with IL-8 levels below the 90th percentile was increased 1.8-fold (95%CI 1.2-2.8). Adjusted for age and sex, the odds ratio was 1.9 (95%CI 1.3-2.8). IL-8 concentrations were weakly correlated with age, male sex, and concentrations of C-reactive protein, factor VIII coagulation activity and homocysteine, but adjustment for these factors did not substantially affect the association between IL-8 and venous thrombosis. Our results suggest that IL-8 is a risk factor for venous thrombosis.     

Interaction between inflammation and thrombosis in acute coronary syndrome

BACKGROUND: Inflammation and thrombosis are important in the pathogenesis of acute coronary syndrome (ACS). Cytokines [interleukin-1beta (IL-1beta) and interleukin-6 (IL-6)] are inflammation markers which play a major role in the development of coronary heart disease. Experimental data documented that an increase of cytokine and von Willebrand factor (vWF) levels in unstable angina (UA) and non-Q wave myocardial infarction (MI) predicts an adverse outcome. AIM: To examine the correlation between the IL-1beta, IL-6 and vWF levels in patients with ACS. METHODS: We examined 92 patients (74 men, 18 women, aged from 43 to 76) divided into 3 groups. The first group included 43 patients with a Q-wave MI, the second group - 33 with a non-Q-wave MI, and the third group - 18 with UA. All patients were given 125-250 mg of aspirin and bolus of 5.000 units of unfractionated heparin, followed by heparin infusion titrated to maintain an activated partial thromboplastin time of 50-75 s. Patients with a Q-wave MI received thrombolytic therapy 1.5 million units of streptokinase. The IL-1b, IL-6 and vWF levels was measured on admission and 7 as well as 21 days later. Fifteen patients with stable angina served as the control group. RESULTS: The levels of cytokines and vWF were significantly higher in patients with ACS than in control subjects. A significant correlation between vWF and IL-6 levels, measured on admission and 7 days later, was found in patients with UA (r=+0.74 and r=+0.55, respectively). Also, a significant correlation was found between vWF and IL-1beta levels measured on admission in patients with either Q-wave or non-Q wave MI (r=+0.7 and r=+0.61, respectively). CONCLUSIONS: Our data suggest that there is a positive correlation between inflammation and thrombosis markers in patients with ACS.