Juliane Heusinger‐Ribeiro scite author profile

1 It was supposed that inhibitors of 3-hydroxy-3-methylglutaryl-coenzyme A (HMG CoA) reductase (statins) might inhibit the expression of the ®brosis-related factor CTGF (connective tissue growth factor) by interfering with the isoprenylation of Rho proteins. 2 The human renal ®broblast cell line TK173 was used as an in vitro model system to study the statin-mediated modulation of the structure of the actin cytoskeleton and of the expression of CTGF mRNA. 3 Incubation of the cells with simvastatin or lovastatin time-dependently and reversibly changed cell morphology and the actin cytoskeleton with maximal e ects observed after about 18 h. 4 Within the same time period, statins reduced the basal expression of CTGF and interfered with CTGF induction by lysophosphatidic acid (LPA) or transforming growth factor beta. Simvastatin and lovastatin proved to be much more potent than pravastatin (IC 50 1 ± 3 mM compared to 500 mM). 5 The inhibition of CTGF expression was prevented when the cells were incubated with mevalonate or geranylgeranylpyrophosphate (GGPP) but not by farnesylpyrophosphate (FPP). Speci®c inhibition of geranylgeranyltransferase-I by GTI-286 inhibited LPA-mediated CTGF expression whereas an inhibitor of farnesyltransferases FTI-276 was ine ective. 6 Simvastatin reduced the binding of the small GTPase RhoA to cellular membranes. The e ect was prevented by mevalonate and GGPP, but not FPP. 7 These data are in agreement with the hypothesis that interference of statins with the expression of CTGF mRNA is primarily due to interference with the isoprenylation of RhoA, in line with previous studies, which have shown that RhoA is an essential mediator of CTGF induction. 8 The direct interference of statins with the synthesis of CTGF, a protein functionally related to the development of ®brosis, may thus be a novel mechanism underlying the bene®cial e ects of statins observed in renal diseases.

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Induction of Connective Tissue Growth Factor by Activation of Heptahelical Receptors

Hahn¹,

Heusinger‐Ribeiro²,

Lanz

et al. 2000

Journal of Biological Chemistry

102

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Dimethylarginine Dimethylaminohydrolase Overexpression Ameliorates Atherosclerosis in Apolipoprotein E-Deficient Mice by Lowering Asymmetric Dimethylarginine

Jacobi

Maas

Cardounel

et al. 2010

The American Journal of Pathology

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Asymmetric dimethylarginine (ADMA), an endogenous inhibitor of nitric oxide synthase, is increasingly recognized as a novel biomarker in cardiovascular disease. To date, it remains unclear whether elevated ADMA levels are merely associated with cardiovascular risk or whether this molecule is of functional relevance in the pathogenesis of atherosclerotic vascular disease. To clarify this issue, we crossed dimethylarginine dimethylaminohydrolase (DDAH) transgenic mice that overexpress the human isoform 1 of the ADMA degrading enzyme DDAH into ApoE-deficient mice to generate ApoE(-/-)/hDDAH1(+/-) mice. In these mice, as well as ApoE(-/-) wild-type littermates, atherosclerosis within the aorta as well as vascular function of aortic ring preparations was assessed. We report here that overexpression of hDDAH1 reduces plaque formation in ApoE(-/-) mice by lowering ADMA. The extent of atherosclerosis closely correlated with plasma ADMA levels in male but not female mice fed either a standard rodent chow or an atherogenic diet. Functional analysis of aortic ring preparations revealed improved endothelial function in mice overexpressing hDDAH1. Our findings provide proof-of-principle that ADMA plays a causal role as a culprit molecule in atherosclerosis and support recent evidence indicating a functional relevance of DDAH enzymes in genetic mouse models. Together, these results demonstrate that pharmacological interventions targeting the ADMA/DDAH pathway may represent a novel approach in the prevention and management of cardiovascular diseases.

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Differential effects of simvastatin on mesangial cells

Heusinger‐Ribeiro

Fischer

Goppelt‐Struebe

2004

Kidney International

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Effect of the plasminogen-plasmin system on hypertensive renal and cardiac damage

Knier¹,

Cordasic²,

Klanke³

et al. 2011

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