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ABSTRACT: The role of plasminogen activator inhibitor-1 (PAI-1) in vein graft (VG) remodeling is undefined. We examined the effect of PAI-1 on VG intimal hyperplasia and tested the hypothesis that PAI-1 regulates VG thrombin activity.
VGs from wild-type (WT), Pai1(-/-), and PAI-1-transgenic mice were implanted into WT, Pai1(-/-), or PAI-1-transgenic arteries. VG remodeling was assessed 4 weeks later. Intimal hyperplasia was significantly greater in PAI-1-deficient mice than in WT mice. The proliferative effect of PAI-1 deficiency was retained in vitronectin-deficient mice, suggesting that PAI-1's antiproteolytic function plays a key role in regulating intimal hyperplasia. Thrombin-induced proliferation of PAI-1-deficient venous smooth muscle cells (SMC) was significantly greater than that of WT SMC, and thrombin activity was significantly higher in PAI-1-deficient VGs than in WT VGs. Increased PAI-1 expression, which has been associated with obstructive VG disease, did not increase intimal hyperplasia.
Decreased PAI-1 expression (1) promotes intimal hyperplasia by pathways that do not require vitronectin and (2) increases thrombin activity in VG. PAI-1 overexpression, although it promotes SMC migration in vitro, did not increase intimal hyperplasia. These results challenge the concept that PAI-1 drives nonthrombotic obstructive disease in VG and suggest that PAI-1's antiproteolytic function, including its antithrombin activity, inhibits intimal hyperplasia.
Arteriosclerosis Thrombosis and Vascular Biology 05/2011; 31(8):1781-7. · 6.37 Impact Factor
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William P Fay
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ABSTRACT: C-reactive protein (CRP) is a biomarker of inflammation. Increased plasma levels of CRP are associated with an increased risk of myocardial infarction. However, the correlation between plasma CRP concentration and atherosclerotic plaque burden is poor. Based on these observations, it has been hypothesized that CRP increases the risk of myocardial infarction by promoting thrombosis. This article reviews available data that link enhanced CRP expression to increased risk of thrombosis, with a focus on the effects of CRP on hemostasis, platelet function, and fibrinolysis. Overall, the available data support the hypothesis that CRP is an important mechanistic link between inflammation and thrombosis.
World journal of cardiology. 11/2010; 2(11):365-9.
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ABSTRACT: Plasminogen activator inhibitor-1 (PAI-1) overexpression is implicated in vascular disease. However, the effects of a primary increase in PAI-1 expression on arterial remodeling are poorly defined. We tested the hypothesis that recombinant PAI-1 inhibits intimal hyperplasia after vascular injury.
Rats underwent carotid artery injury and received intraperitoneal injections of saline or mutant forms of PAI-1 for 14 days, including an active stable mutant (PAI-1-14-1b), a mutant lacking anti-PA activity (PAI-1-R), or a mutant defective in vitronectin (VN) binding (PAI-1-K). All forms of PAI-1 significantly inhibited neointima formation, whereas elastase-cleaved PAI-1, which lacks both anti-PA and VN-binding functions, did not. Similar effects were observed in a murine model. However, the antiproliferative effect of PAI-1-R was lost in Vn(-/-) mice, suggesting that PAI-1 can inhibit intimal hyperplasia in vivo by a VN-dependent pathway not involving direct inhibition of proteases. In vitro, recombinant PAI-1 inhibited wild-type vascular smooth muscle cell (VSMC) proliferation, promoted apoptosis, and inhibited migration. These effects were lost in VN-deficient VSMCs.
Recombinant PAI-1 inhibits intimal hyperplasia by inhibiting proteases and binding VN. VN is a key determinant of the antiproliferative effect of PAI-1 overexpression. PAI-1-R has therapeutic potential to inhibit vascular restenosis without promoting thrombosis.
Arteriosclerosis Thrombosis and Vascular Biology 08/2009; 29(10):1565-70. · 6.37 Impact Factor
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ABSTRACT: We examined the impact of C-reactive protein (CRP) on vascular smooth muscle cell (VSMC) expression of tissue factor (TF) and TF pathway inhibitor (TFPI).
TF mRNA, protein, and activity levels were significantly higher in VSMCs isolated from CRP-transgenic (Tg) mice than from wild-type (WT) mice. TFPI expression was significantly downregulated in CRP-Tg versus WT VSMCs. Transfection of human VSMCs with CRP expression plasmid significantly increased TF expression and decreased TFPI expression. Gene silencing of Fc gamma receptor IIIa (Fc gammaRIIIa) blocked the effect of CRP on VSMC TF expression. CRP activated p44/42, but not p38 or JNK MAP kinase (MAPK), and the effect of CRP on TF expression was blocked by pharmacological inhibitor of p44/42, but not p38 or JNK MAPK. Reactive oxygen species (ROS) scavengers blocked CRP-induced upregulation of VSMC TF expression. In vivo analyses revealed significant increases in TF expression and decreases in TFPI expression in carotid arteries of CRP-Tg mice versus WT mice.
CRP increases TF and decreases TFPI expression by VSMCs in vitro and in vivo. Induction of TF expression by CRP is mediated by Fc gammaRIIIa, p44/42 MAPK, and ROS generation. These data offer important insights into the role of CRP in the pathogenesis of arterial thrombosis.
Arteriosclerosis Thrombosis and Vascular Biology 05/2008; 28(4):698-704. · 6.37 Impact Factor
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ABSTRACT: Despite the introduction of drug-eluting stents restenosis remains an important clinical problem. In this review we examine the role of plasminogen activator inhibitor-1 (PAI-1) in controlling restenosis after balloon angioplasty and stent implantation.
Current drug targets 10/2007; 8(9):1003-6. · 3.93 Impact Factor
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ABSTRACT: Calpains are ubiquitous calcium-regulated cysteine proteases that have been implicated in cytoskeletal organization, cell proliferation, apoptosis, cell motility, and hemostasis. Gene targeting was used to evaluate the physiological function of mouse calpain-1 and establish that its inactivation results in reduced platelet aggregation and clot retraction potentially by causing dephosphorylation of platelet proteins. Here, we report that calpain-1 null (Capn1-/-) platelets accumulate protein tyrosine phosphatase 1B (PTP1B), which correlates with enhanced tyrosine phosphatase activity and dephosphorylation of multiple substrates. Treatment of Capn1-/- platelets with bis(N,N-dimethylhydroxamido)hydroxooxovanadate, an inhibitor of tyrosine phosphatases, corrected the aggregation defect and recovered impaired clot retraction. More importantly, platelet aggregation, clot retraction, and tyrosine dephosphorylation defects were rescued in the double knockout mice lacking both calpain-1 and PTP1B. Further evaluation of mutant mice by the ferric chloride-induced arterial injury model suggests that the Capn1-/- mice are relatively resistant to thrombosis in vivo. Together, our results demonstrate that PTP1B is a physiological target of calpain-1 and suggest that a similar mechanism may regulate calpain-1-mediated tyrosine dephosphorylation in other cells.
Molecular and Cellular Biology 10/2007; 27(17):6038-52. · 5.53 Impact Factor
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ABSTRACT: The plasminogen activator (PA) system, which controls the formation and activity of plasmin, plays a key role in modulating hemostasis, thrombosis, and several other biological processes. While a great deal is known about the function of the PA system, it remains a focus of intensive investigation, and the list of biological pathways and human diseases that are modulated by normal and pathologic function of its components continues to lengthen. Because of remarkable advances in molecular genetics, the laboratory mouse has become the most useful animal system to study the normal and pathologic functions of the PA system. The purpose of this review is to summarize studies that have used genetically modified mice to examine the functions of the PA system in hemostasis and thrombosis, intimal hyperplasia after vascular injury, and atherosclerosis. Particular emphasis is placed on the vascular functions of PA inhibitor-1, a key regulator of the PA system, and the multiple variables that appear to account for the complex role of PA inhibitor-1 in regulating vascular remodeling. Lastly, the strengths and limitations of using mice to model human vascular disease processes are discussed.
Arteriosclerosis Thrombosis and Vascular Biology 07/2007; 27(6):1231-7. · 6.37 Impact Factor
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ABSTRACT: Clinical trials involving frequent, standardized monitoring of the international normalized ratio (INR) demonstrated that a short course of low-molecular-weight-heparin (LMWH) can successfully bridge patients to oral anticoagulation. However, rigidly performed INR testing is often not feasible in the outpatient setting in actual clinical practice. The purpose of this study was to determine if the anticoagulation results of clinical trials of LMWH bridging therapy are also achieved in a single-center clinical practice setting.
We conducted a retrospective analysis of 100 patients initiating warfarin while receiving LMWH under the care of a university-based anticoagulation management service.
Mean patient age was 56.1 +/- 16.3 years. The commonest indications for anticoagulation were venous thrombosis (57%) and atrial fibrillation (25%). Mean initial warfarin dose was 5.1 +/- 1.8 mg/day; 30% of patients received antiplatelet therapy. The mean total duration of LMWH therapy was 12.0 +/- 8.2 days, of which 9.8 +/- 8.0 days (median 7.5 days; interquartile range 4.3-13.0 days) occurred in the outpatient setting. Forty-one percent of patients received outpatient LMWH for < 7 days, 40% for 7-14 days, and 19% for > 14 days. A mean of 3.9 +/- 2.0 INRs were performed during LMWH therapy. Complications included 11 minor and 1 major bleeding episodes and 1 thrombotic event.
The duration of LMWH bridging therapy in practice may be significantly greater than previously reported in clinical trials, and the incidence of patients requiring prolonged (>14 days) LMWH therapy is relatively high. Outpatient LMWH as employed in clinical practice safely bridges patients to oral anticoagulation. Strategies to shorten the duration of LMWH therapy are needed and are likely to improve clinical outcomes and reduce health care expenses. In prospective clinical trials low-molecular-weight-heparin (LMWH) has proven effective in transitioning patients with venous thromboembolic disease to therapeutic warfarin anticoagulation. However, it is unknown if the anticoagulation results obtained in these trials, which involved rigidly performed anticoagulation monitoring, are achieved in standard clinical practice involving patients with a variety of indications for anticoagulation. We conducted a retrospective analysis of 100 patients initiating warfarin while receiving LMWH under the management of a university-based anticoagulation management service. The mean total duration of LMWH therapy was 12.0 +/- 8.2 days, of which 9.8 +/- 8.0 days (median 7.5 days; interquartile range 4.3-13.0 days) occurred in the outpatient setting. Forty-one percent of patients received outpatient LMWH for <7 days, 40% for 7-14 days, and 19% for >14 days. We conclude that the duration of LMWH bridging therapy in practice may be significantly greater than previously reported in clinical trials, and the incidence of patients requiring prolonged (>14 days) LMWH therapy is relatively high.
Journal of Thrombosis and Thrombolysis 05/2007; 23(2):107-13. · 1.48 Impact Factor
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Rachel E Tilley,
Brian Pedersen,
Rafal Pawlinski,
Yuichiro Sato,
Jonathan H Erlich,
Yuechun Shen,
Sharlene Day,
Ying Huang,
Daniel T Eitzman,
William A Boisvert,
Linda K Curtiss, William P Fay,
Nigel Mackman
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ABSTRACT: To determine whether tissue factor (TF) contributes to the progression of atherosclerotic lesions in mice.
We determined the effect of a 50% reduction of TF levels in all cells on atherosclerosis in apolipoprotein E-deficient (apoE(-/-)) mice. No differences were observed in the extent of atherosclerosis in apoE(-/-)/TF(+/+) and apoE(-/-)/TF(+/-) mice fed regular chow for 34 weeks. Atherosclerosis could not be analyzed in apoE(-/-) mice expressing low levels of TF because of premature death of these mice. Macrophages are a major source of TF in atherosclerotic plaques. Therefore, in a second series of experiments, we investigated the effect on atherosclerosis of selectively reducing hematopoietic cell-derived TF by transplanting bone marrow from mice expressing low levels of TF into low-density lipoprotein receptor deficient (LDLR(-/-)) mice. Atherosclerosis within the arterial tree and aortic root were similar in LDLR(-/-) mice with low-TF bone marrow compared with control bone marrow (TF(+/+) or TF(+/-)) after 4 and 16 weeks on an atherogenic diet. Furthermore, the cellular composition of the aortic root lesions was similar between the 2 groups.
Our data indicate that either a 50% reduction of TF in all cells or a selective reduction in hematopoietic cell-derived TF does not affect the development of atherosclerotic lesions in mice.
Arteriosclerosis Thrombosis and Vascular Biology 04/2006; 26(3):555-62. · 6.37 Impact Factor
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Sergey Filippov,
Gerald C Koenig,
Tae-Hwa Chun,
Kevin B Hotary,
Ichiro Ota,
Thomas H Bugge,
Joseph D Roberts, William P Fay,
Henning Birkedal-Hansen,
Kenn Holmbeck,
Farideh Sabeh,
Edward D Allen,
Stephen J Weiss
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ABSTRACT: During pathologic vessel remodeling, vascular smooth muscle cells (VSMCs) embedded within the collagen-rich matrix of the artery wall mobilize uncharacterized proteolytic systems to infiltrate the subendothelial space and generate neointimal lesions. Although the VSMC-derived serine proteinases, plasminogen activator and plasminogen, the cysteine proteinases, cathepsins L, S, and K, and the matrix metalloproteinases MMP-2 and MMP-9 have each been linked to pathologic matrix-remodeling states in vitro and in vivo, the role that these or other proteinases play in allowing VSMCs to negotiate the three-dimensional (3-D) cross-linked extracellular matrix of the arterial wall remains undefined. Herein, we demonstrate that VSMCs proteolytically remodel and invade collagenous barriers independently of plasmin, cathepsins L, S, or K, MMP-2, or MMP-9. Instead, we identify the membrane-anchored matrix metalloproteinase, MT1-MMP, as the key pericellular collagenolysin that controls the ability of VSMCs to degrade and infiltrate 3-D barriers of interstitial collagen, including the arterial wall. Furthermore, genetic deletion of the proteinase affords mice with a protected status against neointimal hyperplasia and lumen narrowing in vivo. These studies suggest that therapeutic interventions designed to target MT1-MMP could prove beneficial in a range of human vascular disease states associated with the destructive remodeling of the vessel wall extracellular matrix.
Journal of Experimental Medicine 10/2005; 202(5):663-71. · 13.85 Impact Factor
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ABSTRACT: Leukocytes and leukocyte-derived microparticles contain low levels of tissue factor (TF) and incorporate into forming thrombi. Although this circulating pool of TF has been proposed to play a key role in thrombosis, its functional significance relative to that of vascular wall TF is poorly defined. We tested the hypothesis that leukocyte-derived TF contributes to thrombus formation in vivo. Compared to wild-type mice, mice with severe TF deficiency (ie, TF(-/-), hTF-Tg+, or "low-TF") demonstrated markedly impaired thrombus formation after carotid artery injury or inferior vena cava ligation. A bone marrow transplantation strategy was used to modulate levels of leukocyte-derived TF. Transplantation of low-TF marrow into wild-type mice did not suppress arterial or venous thrombus formation. Similarly, transplantation of wild-type marrow into low-TF mice did not accelerate thrombosis. In vitro analyses revealed that TF activity in the blood was very low and was markedly exceeded by that present in the vessel wall. Therefore, our results suggest that thrombus formation in the arterial and venous macrovasculature is driven primarily by TF derived from the blood vessel wall as opposed to leukocytes.
Blood 02/2005; 105(1):192-8. · 9.90 Impact Factor
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ABSTRACT: Patient safety and treatment outcome could be improved if physicians could rapidly control the activity of therapeutic agents in their patients. Antidote control is the safest way to regulate drug activity, because unlike rapidly clearing drugs, control of the drug activity is independent of underlying patient physiology and co-morbidities. Until recently, however, there was no general method to discover antidote-controlled drugs. Here we demonstrate that the activity and side effects of a specific class of drugs, called aptamers, can be controlled by matched antidotes in vivo. The drug, an anticoagulant aptamer, systemically induces anticoagulation in pigs and inhibits thrombosis in murine models. The antidote rapidly reverses anticoagulation engendered by the drug, and prevents drug-induced bleeding in surgically challenged animals. These results demonstrate that rationally designed drug-antidote pairs can be generated to provide control over drug activities in animals.
Nature Biotechnology 12/2004; 22(11):1423-8. · 23.27 Impact Factor
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ABSTRACT: Factor V(Leiden) (fV(Leiden)) predisposes to thrombosis by enhancing thrombin formation. This study tested the hypothesis that fV(Leiden) inhibits fibrinolysis in vivo.
Radiolabeled clots were injected into the jugular veins of wild-type mice and mice heterozygous (fV(+/Q)) or homozygous (fV(Q/Q)) for fV(Leiden). Mean percent clot lysis 5 hours later was significantly reduced in fV(Q/Q) mice (14.3+/-3.6%, n=13) compared with wild-type mice (40.2+/-7.0%, n=17; P<0.01) and intermediate in fV(+/Q) mice (29.4+/-8.7%, n=9; P<0.03 versus fV(Q/Q), P=0.36 versus wild type). The rate of in vitro lysis of plasma clots prepared from fV(+/Q) or fV(Q/Q) mice was significantly slower than that of wild-type plasma clots, whereas in vitro clot lysis did not differ significantly between groups after inhibiting thrombin-activatable fibrinolysis inhibitor.
fV(Leiden) inhibits fibrinolysis in vivo, suggesting an additional pathway by which this mutation promotes thrombosis.
Circulation 12/2004; 110(23):3594-8. · 14.74 Impact Factor
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ABSTRACT: Due to exciting advances in molecular biology, the laboratory mouse has become an important and frequently used model for studying thrombosis. This article reviews several experimental approaches that have been used to study arterial, venous, and microvascular thrombosis in mice. The advantages and limitations of different models are examined. Related topics of mouse anesthesia, phlebotomy, and in vitro hemostasis testing are also reviewed.
Thrombosis and Haemostasis 10/2004; 92(3):486-94. · 5.04 Impact Factor
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ABSTRACT: Heme oxygenase-1 (HO-1) plays a key role in protecting tissue from oxidative stress. Although some studies implicate HO-1 in modulating thrombosis after vascular injury, the impact of HO-1 on the rate of clot formation in vivo is poorly defined. This study examined the potential function of HO-1 in regulating platelet-dependent arterial thrombosis. Platelet-rich thrombi were induced in C57BL/6J mice by applying 10% ferric chloride to the exposed carotid artery. Mean occlusion time of wild-type mice (n = 10) was 14.6 +/- 1.0 min versus 12.9 +/- 0.6 min for HO-1-/- mice (n = 11, p = 0.17). However, after challenge with hemin, mean occlusion time was significantly longer in wild-type mice (16.3 +/- 1.2 min, n = 15) than HO-1-/- mice (12.0 +/- 1.0 min, n = 9; p = 0.021). Hemin administration induced an approximately twofold increase in oxidative stress, measured as plasma thiobarbituric acid reactive substances. Immunohistochemical analysis revealed that hemin induced a robust increase in HO-1 expression within the carotid arterial wall. Ex vivo blood clotting within a collagen-coated perfusion chamber was studied to determine whether the accelerated thrombosis observed in HO-1-/- mice was contributed to by effects on the blood itself. Under basal conditions, mean clot formation during perfusion of blood over collagen did not differ between wild-type mice and HO-1-/- mice. However, after hemin challenge, mean clot formation was significantly increased in HO-1-/- mice compared with wild-type controls. These results suggest that, under basal conditions, HO-1 does not exert a significant effect on platelet-dependent clot formation in vivo. However, under conditions that stimulate HO-1 production, platelet-dependent thrombus formation is inhibited by HO-1. Enhanced HO-1 expression in response to oxidative stress may represent an adaptive response mechanism to down-regulate platelet activation under prothrombotic conditions.
Antioxidants and Redox Signaling 09/2004; 6(4):729-35. · 8.46 Impact Factor
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ABSTRACT: Group A streptococci, a common human pathogen, secrete streptokinase, which activates the host's blood clot-dissolving protein, plasminogen. Streptokinase is highly specific for human plasminogen, exhibiting little or no activity against other mammalian species, including mouse. Here, a transgene expressing human plasminogen markedly increased mortality in mice infected with streptococci, and this susceptibility was dependent on bacterial streptokinase expression. Thus, streptokinase is a key pathogenicity factor and the primary determinant of host species specificity for group A streptococcal infection. In addition, local fibrin clot formation may be implicated in host defense against microbial pathogens.
Science 09/2004; 305(5688):1283-6. · 31.20 Impact Factor
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William P Fay
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ABSTRACT: Intravascular fibrin deposition is believed to play an important role in the development of intimal hyperplasia, which is a hallmark of several human vascular disorders, including atherosclerosis and restenosis after balloon angioplasty. Plasminogen activator inhibitor-1 (PAI-1), the primary inhibitor or tissue- and urinary-type plasminogen activator, plays a key role in fibrin homeostasis by controlling plasmin formation. PAI-1 may also modulate vascular pathology via alternative pathways, such as inhibiting activated protein C and altering interactions between vascular smooth muscle cells and the extracellular matrix. The diverse functional profile of PAI-1 likely accounts for the variation observed in its impact on intimal hyperplasia in different disease models. This review examines recent studies addressing the vascular function of PAI-1, and those assessing the role of fibrin as a downstream mediator of PAI-1's effects.
Trends in Cardiovascular Medicine 08/2004; 14(5):196-202. · 2.49 Impact Factor
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ABSTRACT: Interactions between host plasminogen (Plg) and streptokinase (SK) secreted by group A streptococci (GAS) have been hypothesized to promote bacterial invasion of tissues. The virulence of GAS strain UMAA2616, after being subcutaneously inoculated into mice, was studied. Skin lesions and mortality were observed after inoculation of 7x106 cfu. Coadministration of human Plg with UMAA2616 markedly increased virulence. SK-deficient UMAA2616 (UMAA2616-SK(-)) was generated. Mean skin-lesion area and mortality, after bacterial inoculation (3x105 cfu), were significantly greater with UMAA2616 in the presence of human Plg than with UMAA2616-SK(-) in the presence of human Plg (P=.0001). Human Plg also enhanced UMAA2616-SK(-) virulence. Exogenous human Plg enhanced the virulence of MGAS166, a human clinical isolate. These findings suggest that SK-Plg interactions are an important determinant of GAS invasiveness in vivo and that both SK and host Plg activators appear to promote virulence of GAS by catalyzing plasmin formation.
The Journal of Infectious Diseases 09/2003; 188(4):497-505. · 6.41 Impact Factor
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ABSTRACT: C-reactive protein (CRP), an acute-phase reactant long considered merely an innocent bystander in the inflammatory process, is now recognized as a powerful predictor of cardiovascular events. Emerging in vitro evidence suggests that CRP may have direct proinflammatory and prothrombotic effects on monocytes and endothelial cells. To determine whether CRP directly modulates vascular cell function in vivo, we subjected wild-type mice, which do not express CRP, and human CRP-transgenic (CRPtg) mice to 2 models of arterial injury.
Baseline serum CRP levels in CRPtg mice were 18+/-6 mg/L. CRP levels were undetectable in wild-type mice. Transluminal wire injury led to complete thrombotic occlusion of the femoral artery at 28 days in 75% of CRPtg arteries (6 of 8) compared with 17% (2 of 12) in wild-type mice (P<0.05). In a model of arterial photochemical injury, clot formation time was shortened in CRPtg mice; mean time to occlusion was 33+/-19 minutes compared with 59+/-19 minutes in wild-type mice (n=10; P<0.05).
Arterial injury in CRPtg mice results in an expedited and higher rate of thrombotic occlusion. This is the first report of a prothrombotic phenotype directly attributable to the presence of human CRP in vivo. Investigation of the inflammatory-thrombotic axis in CRPtg mice may elucidate the prothrombotic actions of CRP in unstable arterial diseases and may pave the way for novel therapeutic interventions for preventing cardiovascular events.
Circulation 08/2003; 108(5):512-5. · 14.74 Impact Factor
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ABSTRACT: Streptokinase (SK) binds to plasminogen (Pg) to form a complex that converts substrate Pg to plasmin. Residues 1-59 of SK regulate its capacity to induce an active site in bound Pg by a nonproteolytic mechanism and to activate substrate Pg in a fibrin-independent manner. We analyzed 24 SK mutants to better define the functional properties of SK-(1-59). Mutations within the alphabeta1 strand (residues 17-26) of SK completely prevented nonproteolytic active site induction in bound Pg and rendered SK incapable of protecting plasmin from inhibition by alpha2-antiplasmin. However, when fibrin-bound, the activities of alphabeta1 strand mutants were similar to that of wild-type (WT) SK and resistant to alpha2-antiplasmin. Mutation of Ile1 of SK also prevented nonproteolytic active site induction in bound Pg. However, unlike alphabeta1 strand mutants, the functional defect of Ile1 mutants was not relieved by fibrin, and complexes of Ile1 mutants and plasmin were resistant to alpha2-antiplasmin. Plasmin enhanced the activities of alphabeta1 strand and Ile1 mutants, suggesting that SK-plasmin complexes activated mutant SK.Pg complexes by hydrolyzing the Pg Arg561-Val562 bond. Mutational analysis of Glu39 of SK suggested that a salt bridge between Glu39 and Arg719 of Pg is important, but not essential, for nonproteolytic active site induction in Pg. Deleting residues 1-59 rendered SK dependent on plasmin and fibrin to generate plasminogen activator (PA) activity. However, the PA activity of SK-(60-414) in the presence of fibrin was markedly reduced compared with WT SK. Despite its reduced PA activity, the fibrinolytic potency of SK-(60-414) was greater than that of WT SK at higher (but not lower) SK concentrations due to its capacity to deplete plasma Pg. These studies define mechanisms by which the SK alpha domain regulates rapid active site induction in bound Pg, contributes to the resistance of the SK-plasmin complex to alpha2-antiplasmin, and controls fibrin-independent Pg activation.
Journal of Biological Chemistry 08/2003; 278(27):24421-7. · 4.77 Impact Factor
