In vitro oxidized HDL and HDL from type 2 diabetes patients have reduced ability to efflux oxysterols from THP-1 macrophages

Oxidized LDL (OxLDL) that are enriched in products of lipid peroxidation including oxysterols have been shown to induce cellular oxidative stress and cytotoxicity therefore accelerating atheroma plaque formation. Upon oxLDL exposure of THP-1 macrophages, intracellular oxidation of LDL derived-choles...

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Published inBiochimie Vol. 153; pp. 232 - 237
Main Authors Chen, Yinan, Arnal-Levron, Maud, Hullin-Matsuda, Françoise, Knibbe, Carole, Moulin, Philippe, Luquain-Costaz, Céline, Delton, Isabelle
Format Journal Article
LanguageEnglish
Published France Elsevier B.V 01.10.2018
Elsevier
Subjects
7-Ketocholesterol
apolipoprotein A-I
Biochemistry, Molecular Biology
Biological Transport
Case-Control Studies
Cholesterol
cytotoxicity
Diabetes Mellitus, Type 2 - metabolism
Diabetes Mellitus, Type 2 - pathology
Female
Glucose - metabolism
glycation
High density lipoprotein
Humans
Life Sciences
lipid peroxidation
Lipoproteins, HDL - metabolism
low density lipoprotein
Macrophages
Macrophages - metabolism
Male
noninsulin-dependent diabetes mellitus
oxidation
Oxidation-Reduction
oxidative stress
Oxysterols
Oxysterols - metabolism
patients
Sterol efflux
THP-1 Cells
Type 2 diabetes
Type 2 diabetes
High density lipoprotein
7-Ketocholesterol
CHO
glycoHDL
Macrophages
Cholesterol
OXY
HDL
glyHDL
oxHDL
LDL
Oxysterols
7-KC
Sterol efflux
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Abstract Oxidized LDL (OxLDL) that are enriched in products of lipid peroxidation including oxysterols have been shown to induce cellular oxidative stress and cytotoxicity therefore accelerating atheroma plaque formation. Upon oxLDL exposure of THP-1 macrophages, intracellular oxidation of LDL derived-cholesterol as well as endogenous cholesterol was increased. The oxysterols intracellularly produced were efficiently exported to HDL whereas apolipoprotein A1 was inefficient. These findings prompted us to investigate the consequences of modification of HDL by oxidation and glycation as observed in type 2 diabetes with respect to oxysterol and cholesterol efflux. We show that efflux of oxysterols was significantly impaired after in vitro oxidation and glycoxidation of HDL whereas glycation alone had no impact. Cholesterol efflux was only slightly decreased by oxHDL or glycoxidized HDL and not changed with glycated HDL. The defect of HDL towards oxysterol efflux was also observed with HDL isolated from diabetic subjects as compared to healthy controls. These findings support a deleterious cellular retention of oxysterols due to dysfunctional HDL in type 2 diabetes. [Display omitted] •In vitro oxidized and glycoxized HDL have reduced ability to efflux oxysterols from THP-1 macrophages.•In vitro glycated HDL are as efficient as control HDL.•HDL from diabetic patients are less efficient to promote oxysterol efflux as compared to HDL from healthy subjects.•HDL from healthy subjects contain low amounts of oxysterols that are even less in HDL from diabetic patients.
AbstractList Oxidized LDL (OxLDL) that are enriched in products of lipid peroxidation including oxysterols have been shown to induce cellular oxidative stress and cytotoxicity therefore accelerating atheroma plaque formation. Upon oxLDL exposure of THP-1 macrophages, intracellular oxidation of LDL derived-cholesterol as well as endogenous cholesterol was increased. The oxysterols intracellularly produced were efficiently exported to HDL whereas apolipoprotein A1 was inefficient. These findings prompted us to investigate the consequences of modification of HDL by oxidation and glycation as observed in type 2 diabetes with respect to oxysterol and cholesterol efflux. We show that efflux of oxysterols was significantly impaired after in vitro oxidation and glycoxidation of HDL whereas glycation alone had no impact. Cholesterol efflux was only slightly decreased by oxHDL or glycoxidized HDL and not changed with glycated HDL. The defect of HDL towards oxysterol efflux was also observed with HDL isolated from diabetic subjects as compared to healthy controls. These findings support a deleterious cellular retention of oxysterols due to dysfunctional HDL in type 2 diabetes.Oxidized LDL (OxLDL) that are enriched in products of lipid peroxidation including oxysterols have been shown to induce cellular oxidative stress and cytotoxicity therefore accelerating atheroma plaque formation. Upon oxLDL exposure of THP-1 macrophages, intracellular oxidation of LDL derived-cholesterol as well as endogenous cholesterol was increased. The oxysterols intracellularly produced were efficiently exported to HDL whereas apolipoprotein A1 was inefficient. These findings prompted us to investigate the consequences of modification of HDL by oxidation and glycation as observed in type 2 diabetes with respect to oxysterol and cholesterol efflux. We show that efflux of oxysterols was significantly impaired after in vitro oxidation and glycoxidation of HDL whereas glycation alone had no impact. Cholesterol efflux was only slightly decreased by oxHDL or glycoxidized HDL and not changed with glycated HDL. The defect of HDL towards oxysterol efflux was also observed with HDL isolated from diabetic subjects as compared to healthy controls. These findings support a deleterious cellular retention of oxysterols due to dysfunctional HDL in type 2 diabetes.
Oxidized LDL (OxLDL) that are enriched in products of lipid peroxidation including oxysterols have been shown to induce cellular oxidative stress and cytotoxicity therefore accelerating atheroma plaque formation. Upon oxLDL exposure of THP-1 macrophages, intracellular oxidation of LDL derived-cholesterol as well as endogenous cholesterol was increased. The oxysterols intracellularly produced were efficiently exported to HDL whereas apolipoprotein A1 was inefficient. These findings prompted us to investigate the consequences of modification of HDL by oxidation and glycation as observed in type 2 diabetes with respect to oxysterol and cholesterol efflux. We show that efflux of oxysterols was significantly impaired after in vitro oxidation and glycoxidation of HDL whereas glycation alone had no impact. Cholesterol efflux was only slightly decreased by oxHDL or glycoxidized HDL and not changed with glycated HDL. The defect of HDL towards oxysterol efflux was also observed with HDL isolated from diabetic subjects as compared to healthy controls. These findings support a deleterious cellular retention of oxysterols due to dysfunctional HDL in type 2 diabetes. [Display omitted] •In vitro oxidized and glycoxized HDL have reduced ability to efflux oxysterols from THP-1 macrophages.•In vitro glycated HDL are as efficient as control HDL.•HDL from diabetic patients are less efficient to promote oxysterol efflux as compared to HDL from healthy subjects.•HDL from healthy subjects contain low amounts of oxysterols that are even less in HDL from diabetic patients.
Oxidized LDL (OxLDL) that are enriched in products of lipid peroxidation including oxysterols have been shown to induce cellular oxidative stress and cytotoxicity therefore accelerating atheroma plaque formation. Upon oxLDL exposure of THP-1 macrophages, intracellular oxidation of LDL derived-cholesterol as well as endogenous cholesterol was increased. The oxysterols intracellularly produced were efficiently exported to HDL whereas apolipoprotein A1 was inefficient. These findings prompted us to investigate the consequences of modification of HDL by oxidation and glycation as observed in type 2 diabetes with respect to oxysterol and cholesterol efflux. We show that efflux of oxysterols was significantly impaired after in vitro oxidation and glycoxidation of HDL whereas glycation alone had no impact. Cholesterol efflux was only slightly decreased by oxHDL or glycoxidized HDL and not changed with glycated HDL. The defect of HDL towards oxysterol efflux was also observed with HDL isolated from diabetic subjects as compared to healthy controls. These findings support a deleterious cellular retention of oxysterols due to dysfunctional HDL in type 2 diabetes.
Oxidized LDL (OxLDL) that are enriched in products of lipid peroxidation including oxysterols have been shown to induce cellular oxidative stress and cytotoxicity therefore accelerating atheroma plaque formation. Upon oxLDL exposure of THP-1 macrophages, intracellular oxidation of LDL derived-cholesterol as well as endogenous cholesterol was increased. The oxysterols intracellularly produced were efficiently exported to HDL whereas apolipoprotein A1 was inefficient. These findings prompted us to investigate the consequences of modification of HDL by oxidation and glycation as observed in type 2 diabetes with respect to oxysterol and cholesterol efflux. We show that efflux of oxysterols was significantly impaired after in vitro oxidation and glycoxidation of HDL whereas glycation alone had no impact. Cholesterol efflux was only slightly decreased by oxHDL or glycoxidized HDL and not changed with glycated HDL. The defect of HDL towards oxysterol efflux was also observed with HDL isolated from diabetic subjects as compared to healthy controls. These findings support a deleterious cellular retention of oxysterols due to dysfunctional HDL in type 2 diabetes.
Author Arnal-Levron, Maud
Moulin, Philippe
Delton, Isabelle
Hullin-Matsuda, Françoise
Luquain-Costaz, Céline
Knibbe, Carole
Chen, Yinan
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Keywords Type 2 diabetes
High density lipoprotein
7-Ketocholesterol
CHO
glycoHDL
Macrophages
Cholesterol
OXY
HDL
glyHDL
oxHDL
LDL
Oxysterols
7-KC
Sterol efflux
Language English
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Snippet Oxidized LDL (OxLDL) that are enriched in products of lipid peroxidation including oxysterols have been shown to induce cellular oxidative stress and...
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SubjectTerms 7-Ketocholesterol
apolipoprotein A-I
Biochemistry, Molecular Biology
Biological Transport
Case-Control Studies
Cholesterol
cytotoxicity
Diabetes Mellitus, Type 2 - metabolism
Diabetes Mellitus, Type 2 - pathology
Female
Glucose - metabolism
glycation
High density lipoprotein
Humans
Life Sciences
lipid peroxidation
Lipoproteins, HDL - metabolism
low density lipoprotein
Macrophages
Macrophages - metabolism
Male
noninsulin-dependent diabetes mellitus
oxidation
Oxidation-Reduction
oxidative stress
Oxysterols
Oxysterols - metabolism
patients
Sterol efflux
THP-1 Cells
Type 2 diabetes
Title In vitro oxidized HDL and HDL from type 2 diabetes patients have reduced ability to efflux oxysterols from THP-1 macrophages
URI https://dx.doi.org/10.1016/j.biochi.2018.04.018
https://www.ncbi.nlm.nih.gov/pubmed/29704538
https://www.proquest.com/docview/2032459849
https://www.proquest.com/docview/2221054758
https://inserm.hal.science/inserm-04706395
Volume 153
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