Oxidized low-density lipoprotein elicits an intracellular calcium rise and increases the binding activity of the transcription factor NFAT

Oxidized low-density lipoprotein elicits an intracellular calcium rise and increases the binding activity of the transcription factor NFAT

Oxidized low-density lipoprotein (OxLDL) plays a key role in the generation and progression of atherosclerosis, which might be considered as an inflammatory disease. The transcription factor NFAT(Nuclear Factor of Activated T cells) plays an important role in the control of cytokine genes involved i...

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Published in:Free radical biology & medicine Vol. 38; no. 4; pp. 472 - 480
Main Authors: Mazière, Cécile, Morlière, Patrice, Massy, Ziad, Kamel, Said, Louandre, Christophe, Conte, Marie-Alix, Mazière, Jean-Claude
Format: Journal Article
Language:English
Published: United States Elsevier Inc 15-02-2005
Subjects:
Antioxidants - pharmacology
Calcineurin Inhibitors
Calcium
Calcium - metabolism
Calcium Signaling - drug effects
Cell Line
Chelating Agents - pharmacology
Cyclosporine - pharmacology
DNA - metabolism
Egtazic Acid - pharmacology
Endothelial Cells - drug effects
Endothelial Cells - metabolism
Fibroblasts
Free radicals
Humans
Lipoproteins, LDL - pharmacology
Macrophages - drug effects
Macrophages - metabolism
NFATC Transcription Factors - metabolism
Nuclear factor of activated T cells NFAT
Oxidative stress
Oxidized LDL
Protein Binding - drug effects
Reactive Oxygen Species - metabolism
Tacrolimus - pharmacology
Vitamin E - pharmacology
Oxidative stress
Free radicals
CuLDL
Calcium
DMSO
DTT
M-LDL
TBARS
Nuclear factor of activated T cells NFAT
NFAT
DMEM
LDL
PMSF
Oxidized LDL
ROS
OxLDL
cLDL
BAPTA-AM
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Abstract Oxidized low-density lipoprotein (OxLDL) plays a key role in the generation and progression of atherosclerosis, which might be considered as an inflammatory disease. The transcription factor NFAT(Nuclear Factor of Activated T cells) plays an important role in the control of cytokine genes involved in the inflammatory response. The effect of copper-oxidized LDL (CuLDL) and monocyte-oxidized LDL (M-LDL) on the DNA-binding activity of NFAT was investigated in the T lymphocyte cell line Jurkat. Both OxLDL increased NFAT-binding activity in a dose-dependent manner within the range of 25–75 μg LDL protein/ml. This effect reached a maximum 1 h after the introduction of OxLDL in the medium. CuLDL and M-LDL both induce an intracellular calcium rise in a dose-dependent manner, with a maximum increase 15 min after the addition of OxLDL. The CuLDL-induced NFAT-binding activity was abolished in the presence of the calcium chelator EGTA or of the intracellular calcium trapping drug BAPTA, further indicating the involvement of calcium ions in the effect of OxLDL. In addition, cyclosporin A and FK 506, two inhibitors of calcineurin, a calcium-dependent phosphatase upstream of NFAT, also prevented the CuLDL-induced NFAT-binding activity, thus demonstrating the role of calcineurin. CuLDL and M-LDL also induced an increase in the intracellular level of reactive oxygen species (ROS), which reached a maximum 30 min after the addition of OxLDL. Finally, a pretreatment of cells with the antioxidant vitamin E blocked the CuLDL-induced increase in reactive oxygen species, in intracellular calcium rise and the CuLDL-induced NFAT-binding activity. The lipid extract of CuLDL, which includes the lipid peroxidation products, reproduced the effect of the CuLDL itself. These results suggest that the effect of OxLDL on NFAT is initiated by an oxidative stress, which then in turn activates the calcium-calcineurin signaling pathway of the transcription factor NFAT. This effect of OxLDL might be involved in the inflammatory process observed in atherosclerotic lesions.
AbstractList Oxidized low-density lipoprotein (OxLDL) plays a key role in the generation and progression of atherosclerosis, which might be considered as an inflammatory disease. The transcription factor NFAT(Nuclear Factor of Activated T cells) plays an important role in the control of cytokine genes involved in the inflammatory response. The effect of copper-oxidized LDL (CuLDL) and monocyte-oxidized LDL (M-LDL) on the DNA-binding activity of NFAT was investigated in the T lymphocyte cell line Jurkat. Both OxLDL increased NFAT-binding activity in a dose-dependent manner within the range of 25-75 microg LDL protein/ml. This effect reached a maximum 1 h after the introduction of OxLDL in the medium. CuLDL and M-LDL both induce an intracellular calcium rise in a dose-dependent manner, with a maximum increase 15 min after the addition of OxLDL. The CuLDL-induced NFAT-binding activity was abolished in the presence of the calcium chelator EGTA or of the intracellular calcium trapping drug BAPTA, further indicating the involvement of calcium ions in the effect of OxLDL. In addition, cyclosporin A and FK 506, two inhibitors of calcineurin, a calcium-dependent phosphatase upstream of NFAT, also prevented the CuLDL-induced NFAT-binding activity, thus demonstrating the role of calcineurin. CuLDL and M-LDL also induced an increase in the intracellular level of reactive oxygen species (ROS), which reached a maximum 30 min after the addition of OxLDL. Finally, a pretreatment of cells with the antioxidant vitamin E blocked the CuLDL-induced increase in reactive oxygen species, in intracellular calcium rise and the CuLDL-induced NFAT-binding activity. The lipid extract of CuLDL, which includes the lipid peroxidation products, reproduced the effect of the CuLDL itself. These results suggest that the effect of OxLDL on NFAT is initiated by an oxidative stress, which then in turn activates the calcium-calcineurin signaling pathway of the transcription factor NFAT. This effect of OxLDL might be involved in the inflammatory process observed in atherosclerotic lesions.
Oxidized low-density lipoprotein (OxLDL) plays a key role in the generation and progression of atherosclerosis, which might be considered as an inflammatory disease. The transcription factor NFAT(Nuclear Factor of Activated T cells) plays an important role in the control of cytokine genes involved in the inflammatory response. The effect of copper-oxidized LDL (CuLDL) and monocyte-oxidized LDL (M-LDL) on the DNA-binding activity of NFAT was investigated in the T lymphocyte cell line Jurkat. Both OxLDL increased NFAT-binding activity in a dose-dependent manner within the range of 25-75 mu g LDL protein/ml. This effect reached a maximum 1 h after the introduction of OxLDL in the medium. CuLDL and M-LDL both induce an intracellular calcium rise in a dose-dependent manner, with a maximum increase 15 min after the addition of OxLDL. The CuLDL-induced NFAT-binding activity was abolished in the presence of the calcium chelator EGTA or of the intracellular calcium trapping drug BAPTA, further indicating the involvement of calcium ions in the effect of OxLDL. In addition, cyclosporin A and FK 506, two inhibitors of calcineurin, a calcium-dependent phosphatase upstream of NFAT, also prevented the CuLDL-induced NFAT-binding activity, thus demonstrating the role of calcineurin. CuLDL and M-LDL also induced an increase in the intracellular level of reactive oxygen species (ROS), which reached a maximum 30 min after the addition of OxLDL. Finally, a pretreatment of cells with the antioxidant vitamin E blocked the CuLDL-induced increase in reactive oxygen species, in intracellular calcium rise and the CuLDL-induced NFAT-binding activity. The lipid extract of CuLDL, which includes the lipid peroxidation products, reproduced the effect of the CuLDL itself. These results suggest that the effect of OxLDL on NFAT is initiated by an oxidative stress, which then in turn activates the calcium-calcineurin signaling pathway of the transcription factor NFAT. This effect of OxLDL might be involved in the inflammatory process observed in atherosclerotic lesions.
Oxidized low-density lipoprotein (OxLDL) plays a key role in the generation and progression of atherosclerosis, which might be considered as an inflammatory disease. The transcription factor NFAT(Nuclear Factor of Activated T cells) plays an important role in the control of cytokine genes involved in the inflammatory response. The effect of copper-oxidized LDL (CuLDL) and monocyte-oxidized LDL (M-LDL) on the DNA-binding activity of NFAT was investigated in the T lymphocyte cell line Jurkat. Both OxLDL increased NFAT-binding activity in a dose-dependent manner within the range of 25–75 μg LDL protein/ml. This effect reached a maximum 1 h after the introduction of OxLDL in the medium. CuLDL and M-LDL both induce an intracellular calcium rise in a dose-dependent manner, with a maximum increase 15 min after the addition of OxLDL. The CuLDL-induced NFAT-binding activity was abolished in the presence of the calcium chelator EGTA or of the intracellular calcium trapping drug BAPTA, further indicating the involvement of calcium ions in the effect of OxLDL. In addition, cyclosporin A and FK 506, two inhibitors of calcineurin, a calcium-dependent phosphatase upstream of NFAT, also prevented the CuLDL-induced NFAT-binding activity, thus demonstrating the role of calcineurin. CuLDL and M-LDL also induced an increase in the intracellular level of reactive oxygen species (ROS), which reached a maximum 30 min after the addition of OxLDL. Finally, a pretreatment of cells with the antioxidant vitamin E blocked the CuLDL-induced increase in reactive oxygen species, in intracellular calcium rise and the CuLDL-induced NFAT-binding activity. The lipid extract of CuLDL, which includes the lipid peroxidation products, reproduced the effect of the CuLDL itself. These results suggest that the effect of OxLDL on NFAT is initiated by an oxidative stress, which then in turn activates the calcium-calcineurin signaling pathway of the transcription factor NFAT. This effect of OxLDL might be involved in the inflammatory process observed in atherosclerotic lesions.
Author Conte, Marie-Alix
Kamel, Said
Mazière, Jean-Claude
Morlière, Patrice
Massy, Ziad
Louandre, Christophe
Mazière, Cécile
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  givenname: Christophe
  surname: Louandre
  fullname: Louandre, Christophe
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  givenname: Marie-Alix
  surname: Conte
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  givenname: Jean-Claude
  surname: Mazière
  fullname: Mazière, Jean-Claude
  organization: Laboratoire de Biochimie, EA 2087 and EA 2086, CHU Amiens, Hôpital Nord, Place Victor Pauchet, 80054 Amiens Cedex 1, France
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Issue 4
Keywords Oxidative stress
Free radicals
CuLDL
Calcium
DMSO
DTT
M-LDL
TBARS
Nuclear factor of activated T cells NFAT
NFAT
DMEM
LDL
PMSF
Oxidized LDL
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Snippet Oxidized low-density lipoprotein (OxLDL) plays a key role in the generation and progression of atherosclerosis, which might be considered as an inflammatory...
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SubjectTerms Antioxidants - pharmacology
Calcineurin Inhibitors
Calcium
Calcium - metabolism
Calcium Signaling - drug effects
Cell Line
Chelating Agents - pharmacology
Cyclosporine - pharmacology
DNA - metabolism
Egtazic Acid - pharmacology
Endothelial Cells - drug effects
Endothelial Cells - metabolism
Fibroblasts
Free radicals
Humans
Lipoproteins, LDL - pharmacology
Macrophages - drug effects
Macrophages - metabolism
NFATC Transcription Factors - metabolism
Nuclear factor of activated T cells NFAT
Oxidative stress
Oxidized LDL
Protein Binding - drug effects
Reactive Oxygen Species - metabolism
Tacrolimus - pharmacology
Vitamin E - pharmacology
Title Oxidized low-density lipoprotein elicits an intracellular calcium rise and increases the binding activity of the transcription factor NFAT
URI https://dx.doi.org/10.1016/j.freeradbiomed.2004.10.028
https://www.ncbi.nlm.nih.gov/pubmed/15649649
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