BIOTRANSFORMATION OF CAFFEINE IN HUMAN LIVER-MICROSOMES FROM FETUSES, NEONATES, INFANTS AND ADULTS

被引：72

作者：

CAZENEUVE, C

PONS, G

REY, E

TRELUYER, JM

CRESTEIL, T

THIROUX, G

DATHIS, P

OLIVE, G

机构：

[1] HOP ST VINCENT DE PAUL,DEPT PHARMACOL PERINATALE & PEDIAT,F-75674 PARIS 14,FRANCE

[2] FAC MED NECKER ENFANTS MALAD,INSERM,U75,PARIS,FRANCE

[3] HOP BOCAGE,DIJON,FRANCE

来源：

BRITISH JOURNAL OF CLINICAL PHARMACOLOGY | 1994年 / 37卷 / 05期

关键词：

CAFFEINE METABOLISM; HUMAN MICROSOMES; MATURATION;

D O I：

10.1111/j.1365-2125.1994.tb05706.x

中图分类号：

R9 [药学];

学科分类号：

1007 ;

摘要：

1 Caffeine metabolism was studied in human liver microsomes from foetuses (n = 10), neonates (n = 10), infants (n = 9) and adults (n = 5). Caffeine and its metabolites, 1-3-7-trimethyluric acid, paraxanthine, theophylline and theobromine, were assayed by h.p.l.c. Methoxyresorufin-O-demethylase activity (MEROD) was determined and immunoquantifiable levels of CYP1A2 were measured. 2 The formation of the dimethylxanthines by N-3, N-7 or N-1-demethylation was significantly less in foetuses, neonates and infants than in adults, as shown previously in vivo. The formation of 1-3-7-trimethyluric acid (C-8-hydroxylation) was not significantly different between age groups. The production of total dimethylxanthines, paraxanthine and theophylline increased significantly with age within the neonate-infant group over at least the 0-300 day range (r(s) = 0.739, 0.667, 0.682, respectively). These data differ from those reported in vivo which suggested that N-3 and N-7-demethylations matured at about 120 days. The difference in maturational profiles of each metabolic pathway suggests that the reactions depend on different isoenzymes. The delay in the maturation of N-1 compared with N-3 and N-7-demethylation is in agreement with previous in vivo data.

引用

页码：405 / 412

页数：8

共 23 条

[1] COMPARISON OF CAFFEINE METABOLISM BY SLICES, MICROSOMES AND HEPATOCYTE CULTURES FROM ADULT HUMAN-LIVER
BERTHOU, F
RATANASAVANH, D
RICHE, C
PICART, D
VOIRIN, T
GUILLOUZO, A
[J]. XENOBIOTICA, 1989, 19 (04) : 401 - 417
[2] BERTHOU F, 1991, DRUG METAB DISPOS, V19, P561
[3] CAFFEINE AND THEOPHYLLINE METABOLISM IN NEWBORN AND ADULT HUMAN HEPATOCYTES - COMPARISON WITH ADULT-RAT HEPATOCYTES
BERTHOU, F
RATANASAVANH, D
ALIX, D
CARLHANT, D
RICHE, C
GUILLOUZO, A
[J]. BIOCHEMICAL PHARMACOLOGY, 1988, 37 (19) : 3691 - 3700
[4] HUMAN CYTOCHROME P-450PA (P-450IA2), THE PHENACETIN O-DEETHYLASE, IS PRIMARILY RESPONSIBLE FOR THE HEPATIC 3-DEMETHYLATION OF CAFFEINE AND N-OXIDATION OF CARCINOGENIC ARYLAMINES - (AROMATIC-AMINES HETEROCYCLIC AMINES CARCINOGEN METABOLISM)
BUTLER, MA
IWASAKI, M
GUENGERICH, FP
KADLUBAR, FF
[J]. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1989, 86 (20) : 7696 - 7700
[5] CAMPBELL ME, 1987, DRUG METAB DISPOS, V15, P237
[6] MATURATION OF CAFFEINE METABOLIC PATHWAYS IN INFANCY
CARRIER, O
PONS, G
REY, E
RICHARD, MO
MORAN, C
BADOUAL, J
OLIVE, G
[J]. CLINICAL PHARMACOLOGY & THERAPEUTICS, 1988, 44 (02) : 145 - 151
[7] IMMUNOQUANTIFICATION OF EPOXIDE HYDROLASE AND CYTOCHROME-P-450 ISOZYMES IN FETAL AND ADULT HUMAN-LIVER MICROSOMES
CRESTEIL, T
BEAUNE, P
KREMERS, P
CELIER, C
GUENGERICH, FP
LEROUX, JP
[J]. EUROPEAN JOURNAL OF BIOCHEMISTRY, 1985, 151 (02): : 345 - 350
[8] VARIABILITY IN CAFFEINE METABOLISM
GRANT, DM
TANG, BK
KALOW, W
[J]. CLINICAL PHARMACOLOGY & THERAPEUTICS, 1983, 33 (05) : 591 - 602
[9] BIOTRANSFORMATION OF CAFFEINE BY MICROSOMES FROM HUMAN-LIVER - KINETICS AND INHIBITION STUDIES
GRANT, DM
CAMPBELL, ME
TANG, BK
KALOW, W
[J]. BIOCHEMICAL PHARMACOLOGY, 1987, 36 (08) : 1251 - 1260
[10] KALOW W, 1985, ARZNEIMITTEL-FORSCH, V35, P319

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