Literature DB >> 1898336

Treatment of macrophages with oxidized low-density lipoprotein increases their intracellular glutathione content.

V M Darley-Usmar1, A Severn, V J O'Leary, M Rogers.   

Abstract

Macrophages derived from the human monocyte cell line THP-1 or isolated from the peritoneum of C3H/HEJ mice were incubated with oxidized low-density lipoprotein (LDL) and the total glutathione content (oxidized plus reduced) was measured. An initial depletion of glutathione was followed by an increase, such that after a period of 24 h the glutathione content has approximately doubled. This response required the oxidation of the lipid phase of the LDL molecule, since both native LDL and acetylated LDL had little effect on glutathione levels. The response of the cells to oxidized LDL was dependent on the extent of oxidative modification of the protein. It was also found that 4-hydroxynonenal had a similar effect on THP-1 cells, and we suggest that this or other aldehydes present in oxidized LDL causes the induction of glutathione synthesis in response to an initial oxidative stress and consequent glutathione depletion. In addition, we found that both cell types possess transferases and peroxidases capable of detoxifying aldehydes and peroxides. However, treatment of cells with oxidized LDL or 4-hydroxynonenal for a period of 24 h had no effect on the activities of these enzymes.

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Year:  1991        PMID: 1898336      PMCID: PMC1151361          DOI: 10.1042/bj2780429

Source DB:  PubMed          Journal:  Biochem J        ISSN: 0264-6021            Impact factor:   3.857


  28 in total

Review 1.  Role of oxidatively modified LDL in atherosclerosis.

Authors:  U P Steinbrecher; H F Zhang; M Lougheed
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2.  Endogenous antioxidants and lipoprotein oxidation.

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3.  Oxidation of low-density lipoprotein and macrophage derived foam cells.

Authors:  V M Darley-Usmar; R Lelchuk; V J O'Leary; M Knowles; M V Rogers; A Severn
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Review 4.  Beyond cholesterol. Modifications of low-density lipoprotein that increase its atherogenicity.

Authors:  D Steinberg; S Parthasarathy; T E Carew; J C Khoo; J L Witztum
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Review 5.  Biochemical, structural, and functional properties of oxidized low-density lipoprotein.

Authors:  H Esterbauer; M Dieber-Rotheneder; G Waeg; G Striegl; G Jürgens
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6.  Low density lipoprotein undergoes oxidative modification in vivo.

Authors:  W Palinski; M E Rosenfeld; S Ylä-Herttuala; G C Gurtner; S S Socher; S W Butler; S Parthasarathy; T E Carew; D Steinberg; J L Witztum
Journal:  Proc Natl Acad Sci U S A       Date:  1989-02       Impact factor: 11.205

Review 7.  The pathogenesis of atherosclerosis--an update.

Authors:  R Ross
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8.  Glutathione disulfide formation occurring during hypoxia and reoxygenation of rat lung.

Authors:  S G Jenkinson; R F Marcum; J S Pickard; Z Orzechowski; R A Lawrence; J M Jordan
Journal:  J Lab Clin Med       Date:  1988-10

9.  Influence of cumene hydroperoxide and 4-hydroxynonenal on the glutathione metabolism during in vitro ageing of human skin fibroblasts.

Authors:  M Poot; A Verkerk; J F Koster; H Esterbauer; J F Jongkind
Journal:  Eur J Biochem       Date:  1987-01-15

10.  Evidence for the presence of oxidatively modified low density lipoprotein in atherosclerotic lesions of rabbit and man.

Authors:  S Ylä-Herttuala; W Palinski; M E Rosenfeld; S Parthasarathy; T E Carew; S Butler; J L Witztum; D Steinberg
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6.  Inhibition of glutathione synthesis increases the toxicity of oxidized low-density lipoprotein to human monocytes and macrophages.

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8.  Quercetin supplementation: insight into the potentially harmful outcomes of neurodegenerative prevention.

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Review 10.  Glutathione: overview of its protective roles, measurement, and biosynthesis.

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