Oxidized Low-density Lipoprotein Inhibits Endothelium-dependent Vasodilation by an Antioxidant-sensitive, Lysophosphatidylcholine-independent Mechanism

Oxidized Low-density Lipoprotein Inhibits Endothelium-dependent Vasodilation by an Antioxidant-sensitive, Lysophosphatidylcholine-independent Mechanism

Previous studies have shown that oxidized low-density lipoprotein (LDL) can impair endothelial function and that this can be overcome in vivo by administration of vitamin E. However, it is unclear whether this effect of oxidized LDL is due to lysophosphatidylcholine or other components of oxidized L...

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Bibliographic Details
Published in:Journal of cardiovascular pharmacology Vol. 41; no. 6; pp. 856 - 865
Main Authors: Chan, Holman, Lougheed, Marilee, Laher, Ismail, Steinbrecher, Urs P
Format: Journal Article
Language:English
Published: Philadelphia, PA Lippincott Williams & Wilkins, Inc 01-06-2003
Hagerstown, MD Lippincott
Subjects:
Acetylcholine - pharmacology
Animals
Antioxidants - pharmacology
Biological and medical sciences
Borohydrides - pharmacology
Catalase - pharmacology
Endothelium, Vascular - metabolism
Endothelium, Vascular - physiology
Free Radical Scavengers - pharmacology
In Vitro Techniques
Lipoproteins, LDL - metabolism
Lipoproteins, LDL - pharmacology
Lysophosphatidylcholines - metabolism
Medical sciences
Mesenteric Arteries - drug effects
Mesenteric Arteries - metabolism
Mesenteric Arteries - physiology
Nitroprusside - pharmacology
Oxidation-Reduction
Oxidative Stress - physiology
Phospholipases A - pharmacology
Rats
Rats, Sprague-Dawley
Superoxide Dismutase - pharmacology
Vasodilation - drug effects
Vasodilation - physiology
Vasodilator Agents - pharmacology
Endothelium-dependent relaxation
Vitamin E
Oxidized LDL
BO-653
Endothelium-derived vasodilation
Probucol
Lysophosphatidylcholine
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Summary:Previous studies have shown that oxidized low-density lipoprotein (LDL) can impair endothelial function and that this can be overcome in vivo by administration of vitamin E. However, it is unclear whether this effect of oxidized LDL is due to lysophosphatidylcholine or other components of oxidized LDL, and it is also uncertain if the protective effect of vitamin E is related to its antioxidant action. The objectives of the current study were to define how much of the effect of extensively oxidized LDL on endothelium-dependent relaxation (EDR) was in fact due to lysophosphatidylcholine, to determine if the effect of oxidized LDL involved oxidant stress to the endothelium, and, if so, to ascertain if this could be blocked by oxyradical scavengers or antioxidants. Endothelial function was assessed by measuring vasodilation in preconstricted rat mesenteric artery rings in response to acetylcholine. In the presence of 100 μg/mL oxidized LDL, 25-fold higher concentrations of acetylcholine were required for the same degree of vasorelaxation. Similar concentrations of native LDL or acetyl LDL had no effect, but 100 μg/mL phospholipase A2–treated LDL or 20 μM lysophosphatidylcholine produced a similar inhibition of EDR. Removal of more than 90% of lysophosphatidylcholine from oxidized LDL did not affect its ability to inhibit EDR, nor did treatment of oxidized LDL with borohydride. This effect of oxidized LDL was blocked by preincubation of arterial rings with vitamin E, probucol, or BO-653 (a potent lipophilic antioxidant), but not by superoxide dismutase. In contrast, the inhibition of EDR by lysophosphatidylcholine was unaffected by antioxidants. Calphostin C prevented the inhibition of EDR by oxidized LDL and lysophosphatidylcholine. These studies demonstrate that at least part of the effect of oxidized LDL on EDR is independent of lysophosphatidylcholine, lipid peroxides, and superoxide release but appears to involve intracellular oxidative stress and protein kinase C activation.
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ISSN:0160-2446
1533-4023
DOI:10.1097/00005344-200306000-00005