Literature DB >> 4010487

Preparation of hydroperoxy and hydroxy derivatives of rat liver phosphatidylcholine and phosphatidylethanolamine.

J Terao, I Asano, S Matsushita.   

Abstract

A convenient method for the preparation of hydroperoxy and hydroxy derivatives of phosphatidylcholine (PC) and phosphatidylethanolamine (PE) is described. PC and PE obtained from rat liver were oxidized with singlet oxygen by using methylene blue as the photosensitizer, and their hydroperoxides were isolated with the aid of reverse phase liquid chromatography. The hydroxy derivatives were obtained by reducing the hydroperoxides with sodium borohydride. The results of gas chromatography mass spectrometry revealed that hydroxy fatty acid components of the hydroxy derivatives were derived from isomeric hydroperoxides of oleic acid, linoleic acid, arachidonic acid and docosahexanoic acid. Normal phase high performance liquid chromatography did not separate the hydroperoxy and hydroxy derivatives from the respective unoxidized phospholipids, although unoxidized PC and PE were separated from each other. However, the hydroperoxy and hydroxy derivatives could be distinguished from unoxidized phospholipid species on reversed phase thin layer chromatography.

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Year:  1985        PMID: 4010487     DOI: 10.1007/bf02534264

Source DB:  PubMed          Journal:  Lipids        ISSN: 0024-4201            Impact factor:   1.880


  16 in total

1.  Reversed-phase partition thin-layer chromatography of rat liver lecithins to yield eight simple phosphatidyl cholines.

Authors:  G A Arvidson
Journal:  J Lipid Res       Date:  1967-03       Impact factor: 5.922

2.  Lipid peroxidation damage to cell components.

Authors:  A L Tappel
Journal:  Fed Proc       Date:  1973-08

3.  Reactivity of cholesterol and some fatty acids toward singlet oxygen.

Authors:  F H Doleiden; S R Fahrenholtz; A A Lamola; A M Trozzolo
Journal:  Photochem Photobiol       Date:  1974-12       Impact factor: 3.421

4.  High-performance liquid chromatographic separation and photometric detection of phospholipids.

Authors:  W M Hax; W S van Kessel
Journal:  J Chromatogr       Date:  1977-11-11

5.  Purification from pig liver of a protein which protects liposomes and biomembranes from peroxidative degradation and exhibits glutathione peroxidase activity on phosphatidylcholine hydroperoxides.

Authors:  F Ursini; M Maiorino; M Valente; L Ferri; C Gregolin
Journal:  Biochim Biophys Acta       Date:  1982-02-15

6.  The influence of phospholipase A2 and glutathione peroxidase on the elimination of membrane lipid peroxides.

Authors:  A Sevanian; S F Muakkassah-Kelly; S Montestruque
Journal:  Arch Biochem Biophys       Date:  1983-06       Impact factor: 4.013

7.  Non-reactivity of the selenoenzyme glutathione peroxidase with enzymatically hydroperoxidized phospholipids.

Authors:  A Grossmann; A Wendel
Journal:  Eur J Biochem       Date:  1983-10-03

8.  Autoxidation of phosphatidylcholine liposomes.

Authors:  G S Wu; R A Stein; J F Mead
Journal:  Lipids       Date:  1982-06       Impact factor: 1.880

9.  Glutathione-dependent inhibition of lipid peroxidation by a soluble, heat-labile factor in animal tissues.

Authors:  D D Gibson; K R Hornbrook; P B McCay
Journal:  Biochim Biophys Acta       Date:  1980-12-05

10.  High performance liquid chromatographic separation and direct ultraviolet detection of phospholipids.

Authors:  W S Van Kessel; W M Hax; R A Demel; J De Gier
Journal:  Biochim Biophys Acta       Date:  1977-03-25
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  12 in total

1.  Synthesis of a phosphatidyl derivative of vitamin E and its antioxidant activity in phospholipid bilayers.

Authors:  T Koga; A Nagao; J Terao; K Sawada; K Mukai
Journal:  Lipids       Date:  1994-02       Impact factor: 1.880

2.  Effect of dietary restriction on age-related increase of liver susceptibility to peroxidation in rats.

Authors:  T I Jeon; B O Lim; B P Yu; Y Lim; E J Jeon; D K Park
Journal:  Lipids       Date:  2001-06       Impact factor: 1.880

3.  The mechanism of Fe(2+)-initiated lipid peroxidation in liposomes: the dual function of ferrous ions, the roles of the pre-existing lipid peroxides and the lipid peroxyl radical.

Authors:  L Tang; Y Zhang; Z Qian; X Shen
Journal:  Biochem J       Date:  2000-11-15       Impact factor: 3.857

4.  Dynamics of iron-ascorbate-induced lipid peroxidation in charged and uncharged phospholipid vesicles.

Authors:  K Fukuzawa; T Seko; K Minami; J Terao
Journal:  Lipids       Date:  1993-06       Impact factor: 1.880

5.  Electrochemical detection of phospholipid hydroperoxides in reverse-phase high performance liquid chromatography.

Authors:  K Yamada; J Terao; S Matsushita
Journal:  Lipids       Date:  1987-02       Impact factor: 1.880

6.  Effect of d-alpha-tocopherol analogues on lipoxygenase-dependent peroxidation of phospholipid-bile salt micelles.

Authors:  H Arai; A Nagao; J Terao; T Suzuki; K Takama
Journal:  Lipids       Date:  1995-02       Impact factor: 1.880

7.  Combination of TLC blotting and gas chromatography-mass spectrometry for analysis of peroxidized cholesterol.

Authors:  Yuko Minami; Sayuri Yokoi; Mari Setoyama; Noriko Bando; Sayaka Takeda; Yoshichika Kawai; Junji Terao
Journal:  Lipids       Date:  2007-08-15       Impact factor: 1.880

8.  Limitations of the method using peroxidase activity of hemoglobin for detecting lipid hydroperoxides.

Authors:  S S Shibata; J Terao; S Matsushita
Journal:  Lipids       Date:  1986-12       Impact factor: 1.880

9.  Lipidomic analysis of glycerolipid and cholesteryl ester autooxidation products.

Authors:  Arnis Kuksis; Jukka-Pekka Suomela; Marko Tarvainen; Heikki Kallio
Journal:  Mol Biotechnol       Date:  2009-03-03       Impact factor: 2.695

10.  Plasma HDL reduces nonesterified fatty acid hydroperoxides originating from oxidized LDL: a mechanism for its antioxidant ability.

Authors:  Mari Kotosai; Sachiko Shimada; Mai Kanda; Namiko Matsuda; Keiko Sekido; Yoshibumi Shimizu; Akira Tokumura; Toshiyuki Nakamura; Kaeko Murota; Yoshichika Kawai; Junji Terao
Journal:  Lipids       Date:  2013-03-14       Impact factor: 1.880
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