Moderate oxidation of hypertriglyceridemic low-density lipoprotein causes apolipoprotein B epitope change and enhances its uptake by macrophages

Yo Ishikawa; Hidekuni Inadera; Kohji Shirai; Hideyuki Hashimoto; Isamu Fukamachi; Yasushi Saito; Sho Yoshida

doi:10.1016/0005-2760(92)90217-J

Moderate oxidation of hypertriglyceridemic low-density lipoprotein causes apolipoprotein B epitope change and enhances its uptake by macrophages

Yo Ishikawa, Hidekuni Inadera, Kohji Shirai, Hideyuki Hashimoto, Isamu Fukamachi, Yasushi Saito^*, Sho Yoshida

^*Corresponding author for this work

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Abstract

We prepared monoclonal antibody (MabB4) that selectively binds to acetylated low-density lipoprotein (LDL). Native hypertriglyceridemic LDL (HT-LDL) obtained from IIb and native normotriglyceridemic LDL (NT-LDL) from type IIa scarcely bound with MabB4. When these LDL were oxidized moderately by incubation with copper ions, the binding of MabB4 to HT-LDL was enhanced compared to that of NT-LDL, although the contents of the hydroperoxide they produced were the same. The incorporation of moderately oxidized HT-LDL into macrophages was enhanced compared to that of NT-LDL, and the rate of incorporation paralleled the binding of LDL for MabB4. These results suggested that moderate oxidation of HT-LDL expressed some apolipoprotein B epitope on the surface of acetylated LDL to a much greater degree than NT-LDL, and that this expressed epitope might work as a ligand of moderately oxidized HT-LDL for the recognition by macrophages.

Original language	English
Pages (from-to)	60-64
Number of pages	5
Journal	Biochimica et Biophysica Acta (BBA)/Lipids and Lipid Metabolism
Volume	1126
Issue number	1
DOIs	https://doi.org/10.1016/0005-2760(92)90217-J
State	Published - 1992/06/05

Keywords

(Human blood)
Lipoprotein oxidation
Lipoprotein uptake
Monoclonal antibody

ASJC Scopus subject areas

Biophysics
Biochemistry
Endocrinology

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10.1016/0005-2760(92)90217-J

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Ishikawa, Y., Inadera, H., Shirai, K., Hashimoto, H., Fukamachi, I., Saito, Y., & Yoshida, S. (1992). Moderate oxidation of hypertriglyceridemic low-density lipoprotein causes apolipoprotein B epitope change and enhances its uptake by macrophages. Biochimica et Biophysica Acta (BBA)/Lipids and Lipid Metabolism, 1126(1), 60-64. https://doi.org/10.1016/0005-2760(92)90217-J

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title = "Moderate oxidation of hypertriglyceridemic low-density lipoprotein causes apolipoprotein B epitope change and enhances its uptake by macrophages",

abstract = "We prepared monoclonal antibody (MabB4) that selectively binds to acetylated low-density lipoprotein (LDL). Native hypertriglyceridemic LDL (HT-LDL) obtained from IIb and native normotriglyceridemic LDL (NT-LDL) from type IIa scarcely bound with MabB4. When these LDL were oxidized moderately by incubation with copper ions, the binding of MabB4 to HT-LDL was enhanced compared to that of NT-LDL, although the contents of the hydroperoxide they produced were the same. The incorporation of moderately oxidized HT-LDL into macrophages was enhanced compared to that of NT-LDL, and the rate of incorporation paralleled the binding of LDL for MabB4. These results suggested that moderate oxidation of HT-LDL expressed some apolipoprotein B epitope on the surface of acetylated LDL to a much greater degree than NT-LDL, and that this expressed epitope might work as a ligand of moderately oxidized HT-LDL for the recognition by macrophages.",

keywords = "(Human blood), Lipoprotein oxidation, Lipoprotein uptake, Monoclonal antibody",

author = "Yo Ishikawa and Hidekuni Inadera and Kohji Shirai and Hideyuki Hashimoto and Isamu Fukamachi and Yasushi Saito and Sho Yoshida",

year = "1992",

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Ishikawa, Y, Inadera, H, Shirai, K, Hashimoto, H, Fukamachi, I, Saito, Y & Yoshida, S 1992, 'Moderate oxidation of hypertriglyceridemic low-density lipoprotein causes apolipoprotein B epitope change and enhances its uptake by macrophages', Biochimica et Biophysica Acta (BBA)/Lipids and Lipid Metabolism, vol. 1126, no. 1, pp. 60-64. https://doi.org/10.1016/0005-2760(92)90217-J

Moderate oxidation of hypertriglyceridemic low-density lipoprotein causes apolipoprotein B epitope change and enhances its uptake by macrophages. / Ishikawa, Yo; Inadera, Hidekuni; Shirai, Kohji et al.
In: Biochimica et Biophysica Acta (BBA)/Lipids and Lipid Metabolism, Vol. 1126, No. 1, 05.06.1992, p. 60-64.

Research output: Contribution to journal › Article › peer-review

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T1 - Moderate oxidation of hypertriglyceridemic low-density lipoprotein causes apolipoprotein B epitope change and enhances its uptake by macrophages

AU - Ishikawa, Yo

AU - Inadera, Hidekuni

AU - Shirai, Kohji

AU - Hashimoto, Hideyuki

AU - Fukamachi, Isamu

AU - Saito, Yasushi

AU - Yoshida, Sho

PY - 1992/6/5

Y1 - 1992/6/5

N2 - We prepared monoclonal antibody (MabB4) that selectively binds to acetylated low-density lipoprotein (LDL). Native hypertriglyceridemic LDL (HT-LDL) obtained from IIb and native normotriglyceridemic LDL (NT-LDL) from type IIa scarcely bound with MabB4. When these LDL were oxidized moderately by incubation with copper ions, the binding of MabB4 to HT-LDL was enhanced compared to that of NT-LDL, although the contents of the hydroperoxide they produced were the same. The incorporation of moderately oxidized HT-LDL into macrophages was enhanced compared to that of NT-LDL, and the rate of incorporation paralleled the binding of LDL for MabB4. These results suggested that moderate oxidation of HT-LDL expressed some apolipoprotein B epitope on the surface of acetylated LDL to a much greater degree than NT-LDL, and that this expressed epitope might work as a ligand of moderately oxidized HT-LDL for the recognition by macrophages.

AB - We prepared monoclonal antibody (MabB4) that selectively binds to acetylated low-density lipoprotein (LDL). Native hypertriglyceridemic LDL (HT-LDL) obtained from IIb and native normotriglyceridemic LDL (NT-LDL) from type IIa scarcely bound with MabB4. When these LDL were oxidized moderately by incubation with copper ions, the binding of MabB4 to HT-LDL was enhanced compared to that of NT-LDL, although the contents of the hydroperoxide they produced were the same. The incorporation of moderately oxidized HT-LDL into macrophages was enhanced compared to that of NT-LDL, and the rate of incorporation paralleled the binding of LDL for MabB4. These results suggested that moderate oxidation of HT-LDL expressed some apolipoprotein B epitope on the surface of acetylated LDL to a much greater degree than NT-LDL, and that this expressed epitope might work as a ligand of moderately oxidized HT-LDL for the recognition by macrophages.

KW - (Human blood)

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ER -

Moderate oxidation of hypertriglyceridemic low-density lipoprotein causes apolipoprotein B epitope change and enhances its uptake by macrophages

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