APPARENT HYDROXYL RADICAL GENERATION WITHOUT TRANSITION-METAL CATALYSIS AND TYROSINE NITRATION DURING OXIDATION OF THE ANTI-TUBERCULAR DRUG, ISONICOTINIC-ACID HYDRAZIDE

被引：17

作者：

VANZYL, JM ^{[1
]}

VANDERWALT, BJ ^{[1
]}

机构：

[1] UNIV STELLENBOSCH,SCH MED,DEPT PHARMACOL,TYGERBERG 7505,SOUTH AFRICA

来源：

BIOCHEMICAL PHARMACOLOGY | 1994年 / 48卷 / 11期

基金：

英国医学研究理事会;

关键词：

ISONIAZID; PEROXYNITRITE; PHYTIC ACID; CATALASE;

D O I：

10.1016/0006-2952(94)90502-9

中图分类号：

R9 [药学];

学科分类号：

1007 ;

摘要：

Aromatic hydroxylation and formation of thiobarbituric acid-reactive substances occurred in a mixture of isonicotinic acid hydrazide (isoniazid) and catalase. Since these reactions were stimulated by phytic acid (a potent metal chelator), rather than inhibited, transition metal-catalysed hydroxyl radical generation was not implicated. Hydroxylation also occurred with isoniazid and phytic acid in the absence of catalase, albeit to a lesser extent. The independent effects of catalase and phytic acid are related to their abilities to catalyse isoniazid oxidation. In the presence of tyrosine, both the isoniazid/phytic acid system and authentic peroxynitrite generated dityrosine. Authentic peroxynitrite, as well as a phytic acid-mediated isoniazid oxidation product, have absorbance maxima at 302 nm. The yield of this isoniazid-derived product increased with pH and in the presence of a superoxide-generating system. A good correlation existed between absorbance at 302 nm and aromatic hydroxylation. Acid-induced decomposition of the 302 nm absorbance in the presence of superoxide dismutase led to the formation of a product absorbing in the same region as peroxynitrite-modified superoxide dismutase (350 nm at acid pH). Catalase catalysed peroxynitrite-mediated, as well as isoniazid/phytic acid-mediated tyrosine nitration, which was accompanied by Compound II formation (ferryl-catalase) in both cases. We postulate that peroxynitrite or a similar species is formed during isoniazid oxidation.

引用

页码：2033 / 2042

页数：10

共 36 条

[1]

BASSON K, 1991, S AFR J SCI, V87, P507

[2] APPARENT HYDROXYL RADICAL PRODUCTION BY PEROXYNITRITE - IMPLICATIONS FOR ENDOTHELIAL INJURY FROM NITRIC-OXIDE AND SUPEROXIDE [J].

BECKMAN, JS ;

BECKMAN, TW ;

CHEN, J ;

MARSHALL, PA ;

FREEMAN, BA .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1990, 87 (04) :1620-1624

[3] KINETICS OF SUPEROXIDE DISMUTASE-CATALYZED AND IRON-CATALYZED NITRATION OF PHENOLICS BY PEROXYNITRITE [J].

BECKMAN, JS ;

ISCHIROPOULOS, H ;

ZHU, L ;

VANDERWOERD, M ;

SMITH, C ;

CHEN, J ;

HARRISON, J ;

MARTIN, JC ;

TSAI, M .

ARCHIVES OF BIOCHEMISTRY AND BIOPHYSICS, 1992, 298 (02) :438-445

[4] MAGNETIC CIRCULAR-DICHROISM STUDIES ON THE ELECTRONIC CONFIGURATION OF CATALASE COMPOUND-I AND COMPOUND-II [J].

BROWETT, WR ;

STILLMAN, MJ .

BIOCHIMICA ET BIOPHYSICA ACTA, 1980, 623 (01) :21-31

[5] PURIFICATION AND PROPERTIES OF PEROXIDASE IN MYCOBACTERIUM-TUBERCULOSIS H37RV AND ITS POSSIBLE ROLE IN MECHANISM OF ACTION OF ISONICOTINIC-ACID HYDRAZIDE [J].

DEVI, BG ;

SHAILA, MS ;

RAMAKRISHNAN, T ;

GOPINATHAN, KP .

BIOCHEMICAL JOURNAL, 1975, 149 (01) :187-197

[6] IRON RELEASE AND MEMBRANE DAMAGE IN ERYTHROCYTES EXPOSED TO OXIDIZING-AGENTS, PHENYLHYDRAZINE, DIVICINE AND ISOURAMIL [J].

FERRALI, M ;

SIGNORINI, C ;

CICCOLI, L ;

COMPORTI, M .

BIOCHEMICAL JOURNAL, 1992, 285 :295-301

[7]

FLORIS R, 1993, EUR J BIOCHEM, V215, P767, DOI 10.1111/j.1432-1033.1993.tb18091.x

[8] ANTIOXIDANT FUNCTIONS OF PHYTIC ACID [J].

GRAF, E ;

EATON, JW .

FREE RADICAL BIOLOGY AND MEDICINE, 1990, 8 (01) :61-69

[9] FERROUS-SALT-PROMOTED DAMAGE TO DEOXYRIBOSE AND BENZOATE - THE INCREASED EFFECTIVENESS OF HYDROXYL-RADICAL SCAVANGERS IN THE PRESENCE OF EDTA [J].

GUTTERIDGE, JMC .

BIOCHEMICAL JOURNAL, 1987, 243 (03) :709-714

[10] THE NITRATION AND HYDROXYLATION OF AROMATIC COMPOUNDS BY PERNITROUS ACID [J].

HALFPENNY, E ;

ROBINSON, PL .

JOURNAL OF THE CHEMICAL SOCIETY, 1952, (MAR) :939-946

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