Mac-1 signaling via Src-family and Syk kinases results in elastase-dependent thrombohemorrhagic vasculopathy.

CD18 integrins promote neutrophil recruitment, and their engagement activates tyrosine kinases, leading to neutrophil activation. However, the significance of integrin-dependent leukocyte activation in vivo has been difficult to prove. Here, in a model of thrombohemorrhagic vasculitis, the CD18 integrin Mac-1 on neutrophils recognized complement C3 deposited within vessel walls and triggered a signaling pathway involving the Src-family kinase Hck and the Syk tyrosine kinase. This led to neutrophil elastase release, causing hemorrhage, fibrin deposition, and thrombosis. Mice genetically deficient in any of these components (C3, Mac-1, Hck, Syk, or elastase) were resistant to disease despite normal tissue neutrophil accumulation. Disease was restored in Mac-1-deficient mice infused with wild-type, but not kinase- or elastase-deficient, neutrophils. Elastase release in the inflamed tissue was reduced in Mac-1-deficient mice, and a deficiency of Mac-1 or the kinases blocked neutrophil elastase release in vitro. These data suggest that Mac-1 engagement of complement activates tyrosine kinases to promote elastase-dependent blood vessel injury in vivo.

Platelets and platelet adhesion support angiogenesis while preventing excessive hemorrhage.

Platelets contain both pro- and antiangiogenic factors, but their regulatory role in angiogenesis is poorly understood. Although previous studies showed that platelets stimulate angiogenesis in vitro, the role of platelets in angiogenesis in vivo is largely uncharacterized. To address this topic, we used two in vivo approaches, the cornea micropocket assay and the Matrigel model, in four animal models: thrombocytopenic, Lyst(bg) (platelet storage pool deficiency), glycoprotein (GP) Ibalpha/IL4R transgenic (lacking extracellular GPIbalpha, the receptor for von Willebrand factor as well as other adhesive and procoagulant proteins), and FcgammaR(-/-) (lacking functional GPVI, the collagen receptor) mice. Adult mice were rendered thrombocytopenic by i.p. administration of an antiplatelet antibody. The number of growing vessels in the thrombocytopenic mice was lower in the cornea assay, and they showed significantly increased appearance of hemorrhage compared with mice treated with control IgG. The thrombocytopenic mice also showed more protein leakage and developed hematomas in the Matrigel model. GPIbalpha/IL4R transgenic mice presented increased hemorrhage in both assays, but it was less severe than in the platelet-depleted mice. FcgammaR(-/-) and Lyst(bg) mice showed no defect in experimental angiogenesis. Intravital microscopy revealed a >3-fold increase in platelet adhesion to angiogenic vessels of Matrigel compared with mature quiescent skin vessels. Our results suggest that the presence of platelets not only stimulates angiogenic vessel growth but also plays a critical role in preventing hemorrhage from the angiogenic vessels. The adhesion function of platelets, as mediated by GPIbalpha, significantly contributes to the process.

Antithrombotic activity of TNF-alpha.

Basic and clinical observations suggest that thrombosis and inflammation are closely related. Here we addressed the role played by TNF-alpha in thrombus formation and growth in an in vivo mouse model. Using intravital microscopy, we show that systemic administration of TNF-alpha at doses found in sepsis transiently inhibits thrombus formation and delays arterial occlusion upon vascular injury. These results were reflected in a prolonged bleeding time. Platelets isolated from the TNF-alpha-treated mice showed a marked decrease in fibrinogen binding and P-selectin expression as well as reduced platelet aggregation in response to various agonists. In contrast, in vitro treatment of platelets with TNF-alpha did not affect their function. TNF receptor 1- and 2-deficient mice exhibited normal thrombogenesis in the presence of TNF-alpha. Additionally, the inhibitory effect of TNF-alpha was lost either after treatment with NG-monomethyl-l-arginine, an inhibitor of NO production, or in mice deficient for iNOS. These results indicate that under inflammatory conditions, when leukocytes need free passage to transmigrate into tissues, TNF-alpha decreases platelet activation and inhibits thrombi formation. This effect is not exerted directly on platelets but mediated through the rapid generation of NO in the vessel wall.