Literature DB >> 6466193

Endothelial and smooth muscle cells alter low density lipoprotein in vitro by free radical oxidation.

D W Morel, P E DiCorleto, G M Chisolm.   

Abstract

Our purpose was to determine whether the action of oxidative free radicals released by endothelial cells and vascular smooth muscle cells grown in culture could be responsible for certain modifications to low density lipoprotein (LDL). In these experiments we showed that after a 48-hour incubation with human umbilical vein endothelial cells or bovine aortic smooth muscle cells, human LDL: 1) became oxidized, as evidenced by reactivity to thiobarbituric acid; 2) lost variable amounts of sterol relative to protein (up to 20%); 3) had an increased relative electrophoretic mobility (by 30% to 70%); and 4) became toxic to proliferating fibroblasts. None of these changes occurred after a 48-hour incubation with confluent fibroblasts or bovine aortic endothelial cells, and all could be virtually prevented by the presence of butylated hydroxytoluene or other free radical scavengers. The results suggest that cells modifying LDL do so in part by an oxidation of LDL subsequent to cellular generation of free radicals.

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Year:  1984        PMID: 6466193     DOI: 10.1161/01.atv.4.4.357

Source DB:  PubMed          Journal:  Arteriosclerosis        ISSN: 0276-5047


  97 in total

Review 1.  Biochemical evidence for a link between elevated levels of homocysteine and lipid peroxidation in vivo.

Authors:  J W Heinecke
Journal:  Curr Atheroscler Rep       Date:  1999-09       Impact factor: 5.113

2.  Is lipid peroxidation relevant to atherogenesis?

Authors:  J W Heinecke
Journal:  J Clin Invest       Date:  1999-07       Impact factor: 14.808

3.  Induction of heme oxygenase-1 inhibits the monocyte transmigration induced by mildly oxidized LDL.

Authors:  K Ishikawa; M Navab; N Leitinger; A M Fogelman; A J Lusis
Journal:  J Clin Invest       Date:  1997-09-01       Impact factor: 14.808

4.  Absorption of dietary cholesterol oxidation products and incorporation into rat lymph chylomicrons.

Authors:  D F Vine; K D Croft; L J Beilin; J C Mamo
Journal:  Lipids       Date:  1997-08       Impact factor: 1.880

5.  Expression of type I and type II bovine scavenger receptors in Chinese hamster ovary cells: lipid droplet accumulation and nonreciprocal cross competition by acetylated and oxidized low density lipoprotein.

Authors:  M Freeman; Y Ekkel; L Rohrer; M Penman; N J Freedman; G M Chisolm; M Krieger
Journal:  Proc Natl Acad Sci U S A       Date:  1991-06-01       Impact factor: 11.205

Review 6.  Constitutive and stimulated macropinocytosis in macrophages: roles in immunity and in the pathogenesis of atherosclerosis.

Authors:  Sasha A Doodnauth; Sergio Grinstein; Michelle E Maxson
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2019-02-04       Impact factor: 6.237

7.  Implication of lipoprotein associated phospholipase A2 activity in oxLDL uptake by macrophages.

Authors:  Konstantinos P Markakis; Maria K Koropouli; Stavroula Grammenou-Savvoglou; Ewoud C van Winden; Andromaxi A Dimitriou; Constantinos A Demopoulos; Alexandros D Tselepis; Eleni E Kotsifaki
Journal:  J Lipid Res       Date:  2010-03-23       Impact factor: 5.922

8.  The action of defined oxygen-centred free radicals on human low-density lipoprotein.

Authors:  S Bedwell; R T Dean; W Jessup
Journal:  Biochem J       Date:  1989-09-15       Impact factor: 3.857

9.  Atherogenic concentrations of low-density lipoprotein enhance endothelial cell generation of epoxyeicosatrienoic acid products.

Authors:  K A Pritchard; P Y Wong; M B Stemerman
Journal:  Am J Pathol       Date:  1990-06       Impact factor: 4.307

10.  Interaction between sphingomyelin and oxysterols contributes to atherosclerosis and sudden death.

Authors:  Fred A Kummerow
Journal:  Am J Cardiovasc Dis       Date:  2013-02-17
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