Georg Uray scite author profile

Liver X receptors (LXRs) are important regulators of cholesterol and lipid metabolism. LXR agonists have been shown to limit the cellular cholesterol content by inducing reverse cholesterol transport, increasing bile acid production, and inhibiting intestinal cholesterol absorption. Most of them, however, also increase lipogenesis via sterol regulatory element-binding protein-1c (SREBP1c) and carbohydrate response element-binding protein activation resulting in hypertriglyceridemia and liver steatosis. We report on the antiatherogenic properties of the steroidal liver X receptor agonist N,N-dimethyl-3b-hydroxy-cholenamide (DMHCA) in apolipoprotein E (apoE)-deficient mice. Long-term administration of DMHCA (11 weeks) significantly reduced lesion formation in male and female apoE-null mice. Notably, DMHCA neither increased hepatic triglyceride (TG) levels in male nor female apoE-deficient mice. ATP binding cassette transporter A1 and G1 and cholesterol 7a-hydroxylase mRNA abundances were increased, whereas SREBP1c mRNA expression was unchanged in liver, and even decreased in macrophages and intestine. Short-term treatment revealed even higher changes on mRNA regulation. Our data provide evidence that DMHCA is a strong candidate as therapeutic agent for the treatment or prevention of atherosclerosis, circumventing the negative side effects of other LXR agonists. Nuclear liver X receptors (LXRs) are involved in the control of cholesterol and lipid metabolism. LXRa (NR1H3) and LXRb (NR1H2) are sterol sensors that bind oxysterols to act as a transcriptional switch for the coordinated regulation of genes involved in cellular cholesterol homeostasis, cholesterol transport, catabolism, and absorption (1). In peripheral cells such as macrophages, LXRs are likely to coordinate a physiological response to cholesterol loading by regulating the transcription of several genes involved in cholesterol efflux and catabolism, including ATP-binding cassette (ABC)A1 and G1 (2-6).

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Multiple catalytic functions of brain nitric oxide synthase. Biochemical characterization, cofactor-requirement, and the role of N omega-hydroxy-L-arginine as an intermediate

Klatt

Schmidt

Uray

et al. 1993

Journal of Biological Chemistry

245

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X-Ray Structure, Conformational Analysis, Enantioseparation, and Determination of Absolute Configuration of the Mitotic Kinesin Eg5 Inhibitor Monastrol

et al. 2000

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4‐Cyano‐6,7‐dimethoxycarbostyrils with Solvent‐ and pH‐Independent High Fluorescence Quantum Yields and Emission Maxima

et al. 2008

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Highly fluorescent and stable 6,7-dimethoxy-2-oxoquinoline-4-carbonitriles (11) were synthesized starting from appropriate 4-hydroxyquinolones 3 via reactive 4-chloroquinolones 8 by using toluenesulfinates as catalysts. In contrast to the well-described 4-trifluoromethyl-substituted analogues 18, N-substituted derivatives 11 fluoresce in water, polar, and apolar solvents in a narrow 430-440-nm window with almost constant quantum yield of 0.5. Equal excitation is possible in the broad double maximum between 385 and 410 nm yield-

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In vitro analysis of cell metabolism using a long-decay pH-sensitive lanthanide probe and extracellular acidification assay

Hynes

O’Riordan

Zhdanov

et al. 2009

Analytical Biochemistry

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Georg Uray

Synthetic LXR agonist attenuates plaque formation in apoE-/- mice without inducing liver steatosis and hypertriglyceridemia

Multiple catalytic functions of brain nitric oxide synthase. Biochemical characterization, cofactor-requirement, and the role of N omega-hydroxy-L-arginine as an intermediate

X-Ray Structure, Conformational Analysis, Enantioseparation, and Determination of Absolute Configuration of the Mitotic Kinesin Eg5 Inhibitor Monastrol

4‐Cyano‐6,7‐dimethoxycarbostyrils with Solvent‐ and pH‐Independent High Fluorescence Quantum Yields and Emission Maxima

In vitro analysis of cell metabolism using a long-decay pH-sensitive lanthanide probe and extracellular acidification assay

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