Randomized placebo-controlled study of the effects of simvastatin on haemostatic variables, lipoproteins and free fatty acids

Mitropoulos, K. A.; Armitage, John; Collins, Rory; Meade, T. W.; Reeves, B. E. A.; Wallendszus, Karl; Wilson, Sherman S.; Lawson, Adam; Pető, Richárd

doi:10.1093/oxfordjournals.eurheartj.a015225

Cited by 71 publications

(42 citation statements)

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“…The Oxford Cholesterol Study Group analyzed the effect of simvastatin on a number of hemostatic variables including PAI-1. Simvastatin, which has clearly demonstrated a decreased incidence of cardiovascular event rates in large-scale trials, was correlated with a decrease in factor VII antigen levels but had no significant effect on fibrinogen [33]. Plasminogen activator inhibitor activity was increased in patients who received simvastatin and no significant alteration in other hemostatic variables were attained in this small study of 162 participants who were subdivided into three groups.…”

Section: Coagulationmentioning

confidence: 58%

Pleiotropic effects of statins

Farmer

2000

Curr Atheroscler Rep

135

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The advent of statin therapy has revolutionized the ability of the clinician to manage patients at risk for the development of an ischemic event due to dyslipidemia. Large-scale clinical trials involving thousands of patients in both primary and secondary prevention have clearly demonstrated that statin therapy will reduce cardiovascular mortality across a broad spectrum of patient subgroups. Additionally, in adequately powered trials, total mortality has been successfully decreased by the use of statin therapy. However, the precise mechanism underlying the benefit of statin therapy has been controversial due to the multiplicity of potential benefits that statins have demonstrated in addition to pure lipid lowering. The causal theory of pharmacologic benefit reiterates the lipid hypothesis, which states that dyslipidemia is central to the process of atherosclerosis and the clinical benefit which accrues from statin therapy is a function of the degree of lipid lowering. The noncausal theory supports the premise that clinical benefits are related primarily to pleiotropic effects of statins (endothelial function, inflammation, coagulation and plaque vulnerability) as being the major modulators of clinical benefit. This review will focus on the potential beneficial effects of statin therapy on a number of the pleiotropic effects of statins and the potential role that these activities play in the reduction of risk for ischemic events.

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Section: Coagulationmentioning

confidence: 58%

Pleiotropic effects of statins

Farmer

2000

Curr Atheroscler Rep

135

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“…strated an increase in PAI-1 activity, whereas pravastatin treatment was associated with a decrease in PAI-1 (20,42,43). A recent study using SV40-transformed rat aortic endothelial cells demonstrated a decrease in PAI-1 activity in response to lovastatin (44).…”

Section: Discussionmentioning

confidence: 99%

3-Hydroxy-3-methylglutaryl CoA reductase inhibitors up-regulate transforming growth factor-β signaling in cultured heart cells via inhibition of geranylgeranylation of RhoA GTPase

Park

Galper

1999

Proc. Natl. Acad. Sci. U.S.A.

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Transforming growth factor-␤ (TGF␤) signaling has been shown to play a role in cardiac development as well as in the pathogenesis of cardiovascular disease. Prior studies have suggested a relationship between cholesterol metabolism and TGF␤ signaling. Here we demonstrate that induction of the cholesterol metabolic pathway by growth of embryonic chicken atrial cells in medium supplemented with lipoprotein-depleted serum coordinately decreased the expression of the TGF␤ type II receptor (TGF␤RII), TGF␤ 1 , and TGF␤ signaling as measured by plasminogen activator inhibitor-1 (PAI-1) promoter activity. Inhibition of the cholesterol metabolic pathway by the hydrophobic 3-hydroxy-3-methylglutaryl CoA (HMGCoA) reductase inhibitors, simvastatin and atorvastatin, reversed the effect of lipoproteindepleted serum and up-regulated TGF␤RII expression, whereas the hydrophilic HMGCoA reductase inhibitor, pravastatin, had no effect. Simvastatin stimulated the expression of TGF␤RII, TGF␤ 1 , and PAI-1 at the level of transcription. Experiments using specific inhibitors of different branches of the cholesterol metabolic pathway demonstrated that simvastatin exerted its effect on TGF␤ signaling by inhibition of the geranylgeranylation pathway. C3 exotoxin, which specifically inactivates geranylgeranylated Rho GTPases, mimicked the effect of simvastatin on PAI-1 promoter activity. Cotransfection of cells with a PAI-1 promoter-reporter and a dominantnegative RhoA mutant increased PAI-1 promoter activity, whereas cotransfection with a dominant-active RhoA mutant decreased PAI-1 promoter activity. These data support the conclusion that TGF␤ signaling is regulated by RhoA GTPase and demonstrate a relationship between cholesterol metabolism and TGF␤ signaling. Our data suggest that in patients treated with HMGCoA reductase inhibitors, these agents may exert effects independent of cholesterol lowering on TGF␤ signaling in the heart.Transforming growth factor-␤ (TGF␤) signaling plays an important role in cardiac development, cardiac hypertrophy, ventricular remodeling, and the early response to myocardial infarction (1-2). Data that correlate severe coronary artery disease with levels of circulating activated TGF␤ suggest that TGF␤ signaling might also play a role in atherogenesis (3-5). Studies that demonstrate that TGF␤ is capable of regulating the expression of low-density lipoprotein (LDL) receptors and the incorporation of 14 C-acetate into cholesterol suggest that TGF␤ signaling might play a role in regulating cholesterol metabolism (6, 7). Furthermore, in aortas of cholesterol-fed Watanabe rabbits, levels of TGF␤ 1 are increased (8). These data suggest a relationship between cholesterol metabolism, TGF␤ signaling, and cardiovascular disease.The cholesterol metabolic pathway may be stimulated by depriving cells of lipoproteins and inhibited by 3-hydroxy-3-methylglutaryl CoA (HMGCoA) reductase inhibitors (9). Farnesylpyrophosphate (FPP) represents a branchpoint in the cholesterol metabolic pathway. Not only does it serve as a ...

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“…Reduced fibrinolytic capacity is mainly caused by elevated plasminogen activator inhibitor activity, the principal inhibitor of the fibrinolytic system, and to a lesser extent by Lp(a). Lovastatin and pravastatin lower PAI-1 levels [66][67][68], whereas simvastatin either elevates or does not change PAI-1 [70].…”

Section: Thrombosismentioning

confidence: 91%

Non—Lipid-lowering effects of statins on atherosclerosis

Rosenson

1999

Curr Cardiol Rep

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Lipid and nonlipid mechanisms contribute to the beneficial effects of some statins on endothelial function, plaque stability and thrombus formation. The nonlipid effects of statins may contribute to alleviation of tissue ischemia and prevention of acute cardiovascular syndromes. Endothelial dysfunction is reversed by a statin and this beneficial property results, in part, from direct actions on the endothelial vasoactive factors, nitric oxide and endothelin-1. Some statins have been shown to inhibit production of proinflammatory cytokines that regulate many key functions of the vascular wall including monocyte adhesion, chemotaxis, and metalloproteinase secretion. Vascular smooth muscle cell synthetic capacity and viability is inhibited by lipophilic agents, whereas a hydrophilic agent does not interfere with this reparative response. Some statins may impede thrombogenesis by reduced activation of the extrinsic coagulation pathway, inhibition of platelet adhesion and aggregation, and improvement in the rheologic profile.

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Randomized placebo-controlled study of the effects of simvastatin on haemostatic variables, lipoproteins and free fatty acids

Cited by 71 publications

References 0 publications

Pleiotropic effects of statins

Pleiotropic effects of statins

3-Hydroxy-3-methylglutaryl CoA reductase inhibitors up-regulate transforming growth factor-β signaling in cultured heart cells via inhibition of geranylgeranylation of RhoA GTPase

Non—Lipid-lowering effects of statins on atherosclerosis

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