PEROXIDASE-LIKE ACTIVITY OF LIPOXYGENASES - DIFFERENT SUBSTRATE-SPECIFICITY OF POTATO 5-LIPOXYGENASE AND SOYBEAN 15-LIPOXYGENASE AND PARTICULAR AFFINITY OF VITAMIN-E DERIVATIVES FOR THE 5-LIPOXYGENASE

被引：28

作者：

CUCUROU, C ^{[1
]}

BATTIONI, JP ^{[1
]}

DANIEL, R ^{[1
]}

MANSUY, D ^{[1
]}

机构：

[1] UNIV PARIS 05,CHIM & BIOCHIM PHARMACOL & TOXICOL LAB,CNRS,URA 400,F-75270 PARIS 06,FRANCE

来源：

BIOCHIMICA ET BIOPHYSICA ACTA | 1991年 / 1081卷 / 01期

关键词：

5-LIPOXYGENASE; 15-LIPOXYGENASE; VITAMIN-E; HYDROPEROXYOCTADECADIENOIC ACID; PEROXIDASE; XENOBIOTIC OXIDATION;

D O I：

10.1016/0005-2760(91)90256-H

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Potato 5-lipoxygenase (5-PLO) catalyzes the reduction of 13(S)-hydroperoxy-9Z,11E-octadecadienoic acid (13-HPOD) in the presence of vitamin E. 1 mol of vitamin E is required to consume 2 mol of 13-HPOD. The mechanism of the 5-PLO-catalyzed oxidation of vitamin E by 13-HPOD is similar to that previously established for the soybean 15-lipoxygenase (L-1)-catalyzed oxidation of phenidone by 13-HPOD, and seems to involve a one-electron reduction of the O-O bond of 13-HPOD. 5-PLO and L-1 exhibit very different substrate specificities and pH profiles for their peroxidase-like activity. Actually, among the 20 compounds containing various reducible functions and the 10 derivatives of vitamin E which have been studied, only four products containing hydrophobic long chains, ascorbic acid 6-palmitate, the trolox esters of octanol and undecanol, and vitamin E exhibit high peroxidase-like activities for 5-PLO. On the contrary, much more compounds, even not very hydrophobic, are good substrates for the peroxidase-like activity of L-1.

引用

页码：99 / 105

页数：7

共 28 条

[1] Axelrod B., 1981, METHODS ENZYMOLOGY, P441, DOI DOI 10.1016/0076-6879(81)71055-3
[2] CHIRAL EFFECTS ON THE C-13 RESONANCES OF ALPHA-TOCOPHEROL AND RELATED-COMPOUNDS - A NOVEL ILLUSTRATION OF NEWMANS RULE OF 6
BROWNSTEIN, S
BURTON, GW
HUGHES, L
INGOLD, KU
[J]. JOURNAL OF ORGANIC CHEMISTRY, 1989, 54 (03) : 560 - 569
[3] AUTOXIDATION OF BIOLOGICAL MOLECULES .4. MAXIMIZING THE ANTIOXIDANT ACTIVITY OF PHENOLS
BURTON, GW
DOBA, T
GABE, EJ
HUGHES, L
LEE, FL
PRASAD, L
INGOLD, KU
[J]. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1985, 107 (24) : 7053 - 7065
[4] INHIBITION-KINETICS OF CHAIN-BREAKING PHENOLIC ANTIOXIDANTS IN SDS MICELLES - EVIDENCE THAT INTERMICELLAR DIFFUSION RATES MAY BE RATE-LIMITING FOR HYDROPHOBIC INHIBITORS SUCH AS ALPHA-TOCOPHEROL
CASTLE, L
PERKINS, MJ
[J]. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1986, 108 (20) : 6381 - 6382
[5] INHIBITION OF SOYBEAN LIPOXYGENASE-1 BY N-ALKYLHYDROXYLAMINES
CLAPP, CH
BANERJEE, A
ROTENBERG, SA
[J]. BIOCHEMISTRY, 1985, 24 (08) : 1826 - 1830
[6] ENZYMATIC LIPOXYGENATION OF ARACHIDONIC-ACID - MECHANISM, INHIBITION, AND ROLE IN EICOSANOID BIOSYNTHESIS
COREY, EJ
[J]. PURE AND APPLIED CHEMISTRY, 1987, 59 (03) : 269 - 278
[7] HEXANAL PHENYLHYDRAZONE IS A MECHANISM-BASED INACTIVATOR OF SOYBEAN LIPOXYGENASE-1
GALEY, JB
BOMBARD, S
CHOPARD, C
GIRERD, JJ
LEDERER, F
THANG, DC
NAM, NH
MANSUY, D
CHOTTARD, JC
[J]. BIOCHEMISTRY, 1988, 27 (03) : 1058 - 1066
[8] RADICAL-ADDITION OF LINOLEIC HYDROPEROXIDES TO ALPHA-TOCOPHEROL OR ANALOGOUS HYDROXYCHROMAN
GARDNER, HW
GRAMS, GW
ESKINS, K
INGLETT, GE
[J]. LIPIDS, 1972, 7 (05) : 324 - &
[9] STEADY-STATE KINETICS OF LIPOXYGENASE OXYGENATION OF UNSATURATED FATTY-ACIDS
GIBIAN, MJ
GALAWAY, RA
[J]. BIOCHEMISTRY, 1976, 15 (19) : 4209 - 4214
[10] GWEBU ET, 1980, RES COMMUN CHEM PATH, V28, P361

← 1 2 3 →