Influence of platelet-vessel wall interactions on leukocyte rolling in vivo.

The influence of platelet-vessel wall interactions on leukocyte rolling was investigated in rabbit mesenteric venules (diameter, 21-40 microns) using intravital videomicroscopy. Puncture of the wall with glass micropipettes (tip, 6-8 microns) evoked the formation of a thrombus in all venules. In most vessels, emboli were produced as well. The rolling of leukocytes (i.e., their movement along the vessel wall at a velocity clearly lower than that of the other blood cells) was quantitated simultaneously in vessel segments upstream and downstream from a thrombus up to 10 minutes after puncture. During embolization the number of rolling leukocytes decreased significantly from the upstream to the downstream vessel segment (median decrease, 45%; p less than or equal to 0.001). It was still decreased by approximately 50% after embolization had stopped, indicating that the decrease in leukocyte rolling was not caused by inclusion of leukocytes in the emboli. In venules without embolization, leukocyte rolling did not change systematically, indicating that fluid dynamic changes induced by the thrombus do not influence leukocyte rolling. Inhibition of prostaglandin formation with aspirin (100 mg/kg) almost completely abolished the influence of the thromboembolic reaction on leukocyte rolling, but blockade of thromboxane A2 receptors with sulotroban (30 mg/kg) had no effect. In conclusion, this is the first report on a functional interaction in vivo, at a site of vessel wall injury, between platelets, vascular cells, and leukocytes. The findings suggest that substances produced by activated platelets and/or damaged vascular cells diminish leukocyte rolling. The identity of these substances is not yet clear, but the present study indicates that prostaglandins other than thromboxane A2 are involved.     

血栓素受体拮抗剂S18 886对ApoE-/-小鼠动脉粥样硬化的影响

目的了解血栓素受体拮抗剂S18886对ApeE-/-小鼠颈总动脉粥样硬化斑块炎细胞浸润和形态学的影响。方法制作不破坏内弹力板的环包颈总脉模型,分别每天灌喂S188865mg/kg·b.w.、氯吡格雷25mg/kg·b.w.和空白水6周。结果应用S18886药物小鼠的右颈总动脉内膜损伤面积明显被抑制,内膜/中膜比值小于对照组和氯吡格雷组(P<0.05);内膜/总血管壁面积比值也明显低于对照组和氯吡格雷组(P<0.05);S18886组小鼠斑块部位细胞间粘连分子-1(ICAM-1)水平和巨噬细胞的浸润明显降低;对照组动脉斑块内的α-平滑肌肌动蛋白显著减低,S18886和氯吡格雷组斑块内的α-平滑肌肌动蛋白明显减低。结论血栓素受体拮抗剂S18886通过减低ICAM-1,抑制斑块部位的炎细胞浸润,回缩并稳定动脉粥样硬化斑块。     

Attenuated expression of profilin-1 confers protection from atherosclerosis in the LDL receptor null mouse

Atherosclerosis-related events are a major cause of morbidity and death worldwide, but the mechanisms underlying atherogenesis are not fully understood. We showed in previous studies that the actin-binding protein profilin-1 (pfn) was upregulated in atherosclerotic plaques and in endothelial cells (ECs) treated with oxidized low-density lipoproteins (oxLDL). The present study addressed the role of pfn in atheroma formation. To this end, mice with heterozygous deficiency of pfn, Pfn(+/-), were crossed with Ldlr(-/-) mice. After 2 months under a 1.25% cholesterol atherogenic diet, Pfn(+/-)Ldlr(-/-) (PfnHet) exhibited a significant reduction in lesion burden compared with Ldlr(-/-) control mice (PfnWT), whereas total cholesterol and triglyceride levels were similar in the 2 groups. Relevant atheroprotective changes were identified in PfnHet. When compared with PfnWT, aortas from PfnHet mice showed preserved endothelial nitric oxide synthase (eNOS) activation and nitric oxide (NO)-dependent signaling, and reduced vascular cell adhesion molecule (VCAM)-1 expression and macrophage accumulation at lesion-prone sites. Similarly, knockdown of pfn in cultured aortic ECs was protective against endothelial dysfunction triggered by oxLDL. Finally, bone marrow-derived macrophages from PfnHet showed blunted internalization of oxLDL and oxLDL-induced inflammation. These studies demonstrate that pfn levels modulate processes critical for early atheroma formation and suggest that pfn heterozygosity confers atheroprotection through combined endothelial- and macrophage-dependent mechanisms.     

Oral small peptides render HDL antiinflammatory in mice and monkeys and reduce atherosclerosis in ApoE null mice

A peptide containing only 4 amino acid residues (KRES) that is too small to form an amphipathic helix, reduced lipoprotein lipid hydroperoxides (LOOH), increased paraoxonase activity, increased plasma HDL-cholesterol levels, rendered HDL antiinflammatory, and reduced atherosclerosis in apoE null mice. KRES was orally effective when synthesized from either L or D-amino acids suggesting that peptide-protein interactions were not required. Remarkably, changing the order of 2 amino acids (from KRES to KERS) resulted in the loss of all biologic activity. Solubility in ethyl acetate and interaction with lipids, as determined by differential scanning calorimetry, indicated significant differences between KRES and KERS. Negative stain electron microscopy showed that KRES formed organized peptide-lipid structures whereas KERS did not. Another tetrapeptide FREL shared many of the physical-chemical properties of KRES and was biologically active in mice and monkeys when synthesized from either L- or D-amino acids. After oral administration KRES and FREL were found associated with HDL whereas KERS was not. We conclude that the ability of peptides to interact with lipids, remove LOOH and activate antioxidant enzymes associated with HDL determines their antiinflammatory and antiatherogenic properties regardless of their ability to form amphipathic helixes.     

Development of a computer program to analyze the parameters of platelet-vessel wall interaction

The use of the Baumgartner perfusion system allows the morphometric quantification of platelets interacting with vessel wall, however it presents the basic difficulties of morphometrical measurements. In order to facilitate the procedure of evaluation we developed a semiautomated method to avoid the complexity of the classical evaluation. Our system consists on an optical picture analysis system connected with a specially developed computer program which allows fast quantification. Simultaneously to the outlining of interacting platelets the computer program recognizes, corrects, selects and stores the information, in order to perform the final calculations as previously established. This system has been demonstrated to be as effective as the classical morphometric evaluation in the measure of platelets interacting with subendothelium. Potential sources of error such as subjectivity of the observers in selecting the class of interacting platelets are avoided. The use of this combined method opens the possibility to adapt the Baumgartner perfusion system to clinical routine and to the screening of drugs that modify platelet adherence.     

Effect of macrophage-derived mouse ApoE, human ApoE3-Leiden, and human ApoE2 (Arg158-->Cys) on cholesterol levels and atherosclerosis in ApoE-deficient mice

The effect of monocyte/macrophage-derived wild-type mouse apolipoprotein E (apoE), human apoE3-Leiden, and human apoE2 on serum cholesterol levels and the development of atherosclerosis in apoE-deficient (apoe-/-) mice was investigated by using bone marrow transplantation (BMT). At 4 weeks after BMT, murine apoe+/+ bone marrow reduced serum cholesterol levels by 87% in apoe-/- mice, whereas macrophage-derived human apoE3-Leiden and human apoE2 induced a maximal, transient reduction of 35% and 48%, respectively. At 4 months after BMT, atherosclerosis was 23-fold (P<0.001) reduced in apoe+/+-->apoe-/- mice, whereas no significant reduction in apoE3-Leiden.apoe-/--->apoe-/- and apoE2.apoe-/--->apoe-/- mice could be demonstrated. A highly significant decrease in serum cholesterol levels (78% reduction) and atherosclerosis (21-fold, P<0. 001) was found in apoE3-Leiden.apoe-/- animals expressing high levels of apoE in multiple tissues, whereas apoE2 was ineffective even at high concentrations. Furthermore, in contrast to apoE-deficient macrophages, cholesterol efflux from apoE2 or apoE3-Leiden macrophages was not impaired. In conclusion, apoE3-Leiden as well as apoE2 are less effective in reducing cholesterol levels and atherosclerosis in apoe-/- animals, compared with apoe+/+, with apoE2相似文献   

Altered vascular smooth muscle function in the ApoE knockout mouse during the progression of atherosclerosis

Objectives

Relaxation of vascular smooth muscle (VSM) requires re-uptake of cytosolic Ca²⁺ into the sarcoplasmic reticulum (SR) via the Sarco/Endoplasmic Reticulum Ca²⁺ ATPase (SERCA), or extrusion via the Plasma Membrane Ca²⁺ ATPase (PMCA) or sodium Ca²⁺ exchanger (NCX). Peroxynitrite, a reactive species formed in vascular inflammatory diseases, upregulates SERCA activity to induce relaxation but, chronically, can contribute to atherogenesis and altered vascular function by escalating endoplasmic reticulum stress. Our objectives were to determine if peroxynitrite-induced relaxation and Ca²⁺ handling processes within vascular smooth muscle cells were altered as atherosclerosis develops.

Methods

Aortae from control and ApoE^−/− mice were studied histologically, functionally and for protein expression levels of SERCA and PMCA. Ca²⁺ responses were assessed in dissociated aortic smooth muscle cells in the presence and absence of extracellular Ca²⁺.

Results

Relaxation to peroxynitrite was concentration-dependent and endothelium-independent. The abilities of the SERCA blocker thapsigargin and the PMCA inhibitor carboxyeosin to block this relaxation were altered during fat feeding and plaque progression. SERCA levels were progressively reduced, while PMCA expression was upregulated. In ApoE^−/− VSM cells, increases in cytosolic Ca²⁺ [Ca²⁺]_c in response to SERCA blockade were reduced, while SERCA-independent Ca²⁺ clearance was faster compared to control.

Conclusion

As atherosclerosis develops in the ApoE^−/− mouse, expression and function of Ca²⁺ handling proteins are altered. Up-regulation of Ca²⁺ removal via PMCA may offer a potential compensatory mechanism to help normalise the dysfunctional relaxation observed during disease progression.     

Clot-promoting effect of platelet-vessel wall interaction: influence of dietary fats and relation to arterial thrombus formation in rats.

A small piece of vascular tissue punched from a rat aorta is able to clot plasma. This coagulation process is promoted by blood platelets, especially after their activation. Thrombin, generated by this clotting process, plays a key role in vessel-wall induced platelet activation. Vascular prostacyclin inhibits vessel-wall-induced clotting of platelet-rich plasma, possibly by inhibiting platelet activation. Type and amount of dietary fats were shown to influence vessel-wall-induced clotting via at least four different mechanisms, namely: by modifying vascular prostacyclin formation; by affecting the clotting potency of the vascular tissue per sec; by an effect on some platelet property, probably connected with platelet activation; by influencing a plasma factor. Each of these mechanisms, as well as the nature of vessel-wall-induced coagulation, requires further investigation.     

Vascular response to intra-arterial injury in the thrombospondin-1 null mouse

Thrombospondin-1 (TSP-1) is a multifunctional, extracellular matrix protein that has been implicated in the regulation of smooth muscle cell proliferation, migration and differentiation during vascular development and injury. Vascular injury in wildtype and TSP-1 null mice was carried out by insertion of a straight spring guidewire into the femoral artery via a muscular arterial branch. Blood flow was restored after the muscular branch was ligated. The injury completely denuded the endothelium and caused medial distension of the vessel in a manner similar to coronary artery balloon-angioplasty. After 28 days, wildtype arteries showed consistent neointima formation with smooth muscle cell hyperplasia. Injured arteries from TSP-1 null mice showed similar neointimal lesions with no significant difference in the extent of neointima formation. Unexpectedly, a high incidence of thrombus formation was observed in the TSP-1 null vessels in a region close to the entry point of the guidewire into the femoral artery. Thrombus was never observed in the injured wildtype vessels. These results provide in vivo evidence that the extent of smooth muscle cell proliferation and neointima formation following endothelial denuding injury is not affected by the absence of TSP-1. Furthermore, our results provide novel evidence for the involvement of TSP-1 in controlling thrombus growth following intra-arterial injury in areas of predicted high turbulent flow.     

De novo synthesis of cyclooxygenase-1 counteracts the suppression of platelet thromboxane biosynthesis by aspirin

Aspirin affords cardioprotection through the acetylation of serine529 in human cyclooxygenase-1 (COX-1) of anucleated platelets, inducing a permanent defect in thromboxane A2 (TXA2)-dependent platelet function. However, heterogeneity of COX-1 suppression by aspirin has been detected in cardiovascular disease and may contribute to failure to prevent clinical events. The recent recognized capacity of platelets to make proteins de novo paves the way to identify new mechanisms involved in the variable response to aspirin. We found that in washed human platelets, the complete suppression of TXA2 biosynthesis by aspirin, in vitro, recovered in response to thrombin and fibrinogen in a time-dependent fashion (at 0.5 and 24 hours, TXB2 averaged 0.1+/-0.03 and 3+/-0.8 ng/mL; in the presence of arachidonic acid [10 micromol/L], it was 2+/-0.7 and 25+/-7 ng/mL, respectively), and it was blocked by translational inhibitors, by rapamycin, and by inhibitors of phosphatidylinositol 3-kinase. The results that COX-1 mRNA was readily detected in resting platelets and that [35S]-methionine was incorporated into COX-1 protein after stimulation strongly support the occurrence of de novo COX-1 synthesis in platelets. This process may interfere with the complete and persistent suppression of TXA2 biosynthesis by aspirin necessary for cardioprotection.     

Contribution of platelet thromboxane production to enhanced urinary excretion and glomerular production of thromboxane and to the pathogenesis of albuminuria in the streptozotocin-diabetic rat.

Previous studies have demonstrated that urinary thromboxane B2 (TXB2) excretion (UTXB2) and glomerular production of TXB2 are enhanced in experimental diabetes and that selective inhibitors of TX synthesis prevent or delay the development of albuminuria. The present study was conducted to examine the contribution of platelet TXB2 production to the enhancement of UTXB2 and glomerular TXB2 production and to the pathogenesis of albuminuria in the partially insulin-treated moderately hyperglycemic (blood glucose, 200 to 400 mg/dL) streptozotocin-diabetic rat (SDR). Treatment of control rats or of SDR with diabetes of 5 months' duration with antiplatelet serum for 4 consecutive days reduced circulating platelet counts and serum TXB2 generation, an index of platelet cyclooxygenase activity, by 80% or greater, but reduced UTXB2 excretion by only 30%. UTXB2 and glomerular production of TXB2 of thrombocytopenic SDR remained markedly elevated compared with corresponding values from age-matched thrombocytopenic or platelet-replete, nondiabetic controls. Similarly, treatment of rats for 180 days with a dose of aspirin (ASA), which selectively inhibited platelet versus renal cyclooxygenase activity, reduced UTXB2 of both SDR and controls by 25% to 35%. The absolute reductions in UTXB2 induced by either ASA or thrombocytopenia in SDR were significantly greater than the absolute decrements in corresponding controls, suggesting that increased platelet TXB2 production in SDR may contribute to the enhanced UTXB2. However, as in the thrombocytopenic SDR, UTXB2 and glomerular production of TXB2 of SDR treated with ASA remained clearly above corresponding control values. Moreover, chronic ASA treatment failed to prevent the development of albuminuria in SDR.(ABSTRACT TRUNCATED AT 250 WORDS)     

Apoptosis in the vascular wall and atherosclerosis

Apoptosis, programmed cell death, has emerged as a key element in the complex pathophysiology underlying the development as well as the progression of atherosclerosis. A number of recent reports provided evidence for both in vivo and in vitro occurrence of apoptotic cell death of vascular cells, namely endothelial cells, macrophages, and vascular smooth muscle cells. In addition, functional studies in disease models underscore the relevance of these findings for the understanding of processes which lead to lesion development, plaque rupture, and thrombus formation. Pathomechanistic in vitro investigations provided an increasingly detailed picture of the involved intracellular signaling pathways that regulate onset and execution of apoptosis. These insights offer the potential of therapeutic interventions targeted to interfere with the molecular processes involving apoptotic cell death in the vascular wall. Received: 18 August 2000, Returned for revision: 30 August 2000, Revision received: 11 September 2000, Accepted: 13 September 2000     

Prostacyclin, thromboxane A2 interactions in haemostasis and thrombosis.

Prostacyclin and thromboxane A2 are products of arachidonic acid which play a role in the regulation of haemostatic plug and thrombus formation. Aspirin inhibits the synthesis of both compounds but is more active in blocking TXA2 formation; based on this, aspirin is suggested to have an anti-thrombotic effect. Other possible approaches to the development of anti-thrombotic drugs are discussed.