Phospholipid Hydroxyalkenals: Biological and Chemical Properties of Specific Oxidized Lipids Present in Atherosclerotic Lesions
OBJECTIVE—Phosphatidylcholine hydroxyalkenals (PC-HAs) are a class of oxidized PCs derived from lipid peroxidation of arachidonate or linoleate at the sn-2 position to form terminal γ-hydroxy, α-, and β-unsaturated aldehydes. The aim of this study was to characterize some of their biological propert...
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| Published in | Arteriosclerosis, thrombosis, and vascular biology Vol. 23; no. 2; pp. 275 - 282 |
|---|---|
| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Philadelphia, PA
American Heart Association, Inc
01.02.2003
Hagerstown, MD Lippincott |
| Subjects | |
| Online Access | Get full text |
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| Abstract | OBJECTIVE—Phosphatidylcholine hydroxyalkenals (PC-HAs) are a class of oxidized PCs derived from lipid peroxidation of arachidonate or linoleate at the sn-2 position to form terminal γ-hydroxy, α-, and β-unsaturated aldehydes. The aim of this study was to characterize some of their biological properties, ascertain the mechanism of their action, and assess whether they have in vivo relevance.
METHODS AND RESULTS—Combinations of cell biological approaches with radiolabels, mass spectroscopy, and immunochemical as well as immunohistochemical techniques were used to show that PC-HAs reduce the proteolytic degradation by mouse peritoneal macrophages (MPMs) of internalized macromolecules, such as maleylated bovine serum albumin, and that the activity of the lysosomal protease, cathepsin B, in MPMs form Michael adducts with MPM proteins and with N-acetylated cysteine in vitro form pyrrole adducts with MPM proteins and reduce the maturation of Rab5a, thereby impairing phagosome-lysosome fusion (maturation) in phagocytes; they are present unbound and as pyrrole adducts in human atherosclerotic lesions.
CONCLUSIONS—PC-HAs are present in vivo and possess multiple functions characteristic of oxidized LDL and 4-hydroxynonenal. |
|---|---|
| AbstractList | OBJECTIVE—Phosphatidylcholine hydroxyalkenals (PC-HAs) are a class of oxidized PCs derived from lipid peroxidation of arachidonate or linoleate at the sn-2 position to form terminal γ-hydroxy, α-, and β-unsaturated aldehydes. The aim of this study was to characterize some of their biological properties, ascertain the mechanism of their action, and assess whether they have in vivo relevance.
METHODS AND RESULTS—Combinations of cell biological approaches with radiolabels, mass spectroscopy, and immunochemical as well as immunohistochemical techniques were used to show that PC-HAs reduce the proteolytic degradation by mouse peritoneal macrophages (MPMs) of internalized macromolecules, such as maleylated bovine serum albumin, and that the activity of the lysosomal protease, cathepsin B, in MPMs form Michael adducts with MPM proteins and with N-acetylated cysteine in vitro form pyrrole adducts with MPM proteins and reduce the maturation of Rab5a, thereby impairing phagosome-lysosome fusion (maturation) in phagocytes; they are present unbound and as pyrrole adducts in human atherosclerotic lesions.
CONCLUSIONS—PC-HAs are present in vivo and possess multiple functions characteristic of oxidized LDL and 4-hydroxynonenal. OBJECTIVE: Phosphatidylcholine hydroxyalkenals (PC-HAs) are a class of oxidized PCs derived from lipid peroxidation of arachidonate or linoleate at the sn-2 position to form terminal gamma-hydroxy, alpha-, and beta-unsaturated aldehydes. The aim of this study was to characterize some of their biological properties, ascertain the mechanism of their action, and assess whether they have in vivo relevance. METHODS AND RESULTS: Combinations of cell biological approaches with radiolabels, mass spectroscopy, and immunochemical as well as immunohistochemical techniques were used to show that PC-HAs reduce the proteolytic degradation by mouse peritoneal macrophages (MPMs) of internalized macromolecules, such as maleylated bovine serum albumin, and that the activity of the lysosomal protease, cathepsin B, in MPMs form Michael adducts with MPM proteins and with N-acetylated cysteine in vitro form pyrrole adducts with MPM proteins and reduce the maturation of Rab5a, thereby impairing phagosome-lysosome fusion (maturation) in phagocytes; they are present unbound and as pyrrole adducts in human atherosclerotic lesions. CONCLUSIONS: PC-HAs are present in vivo and possess multiple functions characteristic of oxidized LDL and 4-hydroxynonenal. Objective— Phosphatidylcholine hydroxyalkenals (PC-HAs) are a class of oxidized PCs derived from lipid peroxidation of arachidonate or linoleate at the sn -2 position to form terminal γ-hydroxy, α-, and β-unsaturated aldehydes. The aim of this study was to characterize some of their biological properties, ascertain the mechanism of their action, and assess whether they have in vivo relevance. Methods and Results— Combinations of cell biological approaches with radiolabels, mass spectroscopy, and immunochemical as well as immunohistochemical techniques were used to show that PC-HAs reduce the proteolytic degradation by mouse peritoneal macrophages (MPMs) of internalized macromolecules, such as maleylated bovine serum albumin, and that the activity of the lysosomal protease, cathepsin B, in MPMs form Michael adducts with MPM proteins and with N -acetylated cysteine in vitro form pyrrole adducts with MPM proteins and reduce the maturation of Rab5a, thereby impairing phagosome-lysosome fusion (maturation) in phagocytes; they are present unbound and as pyrrole adducts in human atherosclerotic lesions. Conclusions— PC-HAs are present in vivo and possess multiple functions characteristic of oxidized LDL and 4-hydroxynonenal. Phosphatidylcholine hydroxyalkenals (PC-HAs) are a class of oxidized PCs derived from lipid peroxidation of arachidonate or linoleate at the sn-2 position to form terminal gamma-hydroxy, alpha-, and beta-unsaturated aldehydes. The aim of this study was to characterize some of their biological properties, ascertain the mechanism of their action, and assess whether they have in vivo relevance. Combinations of cell biological approaches with radiolabels, mass spectroscopy, and immunochemical as well as immunohistochemical techniques were used to show that PC-HAs reduce the proteolytic degradation by mouse peritoneal macrophages (MPMs) of internalized macromolecules, such as maleylated bovine serum albumin, and that the activity of the lysosomal protease, cathepsin B, in MPMs form Michael adducts with MPM proteins and with N-acetylated cysteine in vitro form pyrrole adducts with MPM proteins and reduce the maturation of Rab5a, thereby impairing phagosome-lysosome fusion (maturation) in phagocytes; they are present unbound and as pyrrole adducts in human atherosclerotic lesions. PC-HAs are present in vivo and possess multiple functions characteristic of oxidized LDL and 4-hydroxynonenal. OBJECTIVEPhosphatidylcholine hydroxyalkenals (PC-HAs) are a class of oxidized PCs derived from lipid peroxidation of arachidonate or linoleate at the sn-2 position to form terminal gamma-hydroxy, alpha-, and beta-unsaturated aldehydes. The aim of this study was to characterize some of their biological properties, ascertain the mechanism of their action, and assess whether they have in vivo relevance. METHODS AND RESULTSCombinations of cell biological approaches with radiolabels, mass spectroscopy, and immunochemical as well as immunohistochemical techniques were used to show that PC-HAs reduce the proteolytic degradation by mouse peritoneal macrophages (MPMs) of internalized macromolecules, such as maleylated bovine serum albumin, and that the activity of the lysosomal protease, cathepsin B, in MPMs form Michael adducts with MPM proteins and with N-acetylated cysteine in vitro form pyrrole adducts with MPM proteins and reduce the maturation of Rab5a, thereby impairing phagosome-lysosome fusion (maturation) in phagocytes; they are present unbound and as pyrrole adducts in human atherosclerotic lesions. CONCLUSIONSPC-HAs are present in vivo and possess multiple functions characteristic of oxidized LDL and 4-hydroxynonenal. |
| Author | Hoff, Henry F Salomon, Robert L Wu, Zhiping O’Neil, June Hoppe, George |
| AuthorAffiliation | From the Department of Cell Biology (H.F.H., J.O., Z.W., G.H.), Lerner Research Institute, Cleveland Clinic Foundation, and the Department of Chemistry (R.L.S.), Case Western Reserve University, Cleveland, Ohio |
| AuthorAffiliation_xml | – name: From the Department of Cell Biology (H.F.H., J.O., Z.W., G.H.), Lerner Research Institute, Cleveland Clinic Foundation, and the Department of Chemistry (R.L.S.), Case Western Reserve University, Cleveland, Ohio |
| Author_xml | – sequence: 1 givenname: Henry surname: Hoff middlename: F fullname: Hoff, Henry F organization: From the Department of Cell Biology (H.F.H., J.O., Z.W., G.H.), Lerner Research Institute, Cleveland Clinic Foundation, and the Department of Chemistry (R.L.S.), Case Western Reserve University, Cleveland, Ohio – sequence: 2 givenname: June surname: O’Neil fullname: O’Neil, June – sequence: 3 givenname: Zhiping surname: Wu fullname: Wu, Zhiping – sequence: 4 givenname: George surname: Hoppe fullname: Hoppe, George – sequence: 5 givenname: Robert surname: Salomon middlename: L fullname: Salomon, Robert L |
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| Keywords | Human biochemical adducts Pathophysiology RabS Rodentia atherosclerotic lesions Phospholipid Cardiovascular disease Biological activity Vascular disease Degradation Vertebrata macrophages Mammalia Mouse Macromolecule Animal intracellular degradation Atherosclerosis Phosphatidylcholine Oxidation oxidized phospholipids Macrophage |
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| Snippet | OBJECTIVE—Phosphatidylcholine hydroxyalkenals (PC-HAs) are a class of oxidized PCs derived from lipid peroxidation of arachidonate or linoleate at the sn-2... Phosphatidylcholine hydroxyalkenals (PC-HAs) are a class of oxidized PCs derived from lipid peroxidation of arachidonate or linoleate at the sn-2 position to... Objective— Phosphatidylcholine hydroxyalkenals (PC-HAs) are a class of oxidized PCs derived from lipid peroxidation of arachidonate or linoleate at the sn -2... OBJECTIVE: Phosphatidylcholine hydroxyalkenals (PC-HAs) are a class of oxidized PCs derived from lipid peroxidation of arachidonate or linoleate at the sn-2... OBJECTIVEPhosphatidylcholine hydroxyalkenals (PC-HAs) are a class of oxidized PCs derived from lipid peroxidation of arachidonate or linoleate at the sn-2... |
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| SubjectTerms | Acetylcysteine - chemistry Acetylcysteine - metabolism Aldehydes - chemistry Aldehydes - immunology Aldehydes - metabolism Animals Arteriosclerosis - pathology Atherosclerosis (general aspects, experimental research) Biological and medical sciences Biological Transport Blood and lymphatic vessels Cardiology. Vascular system Cathepsin B - antagonists & inhibitors Cholesterol Esters - chemistry Cholesterol Esters - metabolism Chromatography, Liquid Humans Intracellular Membranes - metabolism Lipoproteins, LDL - chemistry Lipoproteins, LDL - metabolism Lysine - chemistry Lysine - immunology Lysosomes - chemistry Lysosomes - enzymology Lysosomes - metabolism Macrophages, Peritoneal - chemistry Macrophages, Peritoneal - enzymology Macrophages, Peritoneal - metabolism Medical sciences Mice Oxidation-Reduction Phosphatidylcholines - chemistry Phosphatidylcholines - metabolism Phospholipids - chemistry Phospholipids - immunology Phospholipids - metabolism Pyrroles - chemistry Pyrroles - immunology Spectrometry, Mass, Electrospray Ionization |
| Title | Phospholipid Hydroxyalkenals: Biological and Chemical Properties of Specific Oxidized Lipids Present in Atherosclerotic Lesions |
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