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1.
IARC Sci Publ ; (77): 297-318, 1986.
Article in English | MEDLINE | ID: mdl-3596717

ABSTRACT

This study discusses the background, biological basis, development characteristics, application and evaluation of six physiologically based multicompartment models that describe the absorption, distribution and elimination of hexachlorobenzene (HCB) in growing rats and growing humans. The models for rats and for humans have similar structures but differ in specific physiological parameters. The goal of the modelling effort was to obtain toxicological information about HCB based on its pharmacokinetics. Comparisons were made between estimated tissue concentrations based on the rat models and observed tissue distributions based on pharmacokinetic animal studies with HCB, using both chronic and single-dose studies. The estimates from the female model agreed reasonably well with experimental results, and estimated a long half-life of approximately 180 days in all tissues; it did not, however, duplicate the biphasic tissue efflux of HCB that has been reported in the literature. The male model estimated a half-life of approximately 55 days in all tissues, shorter than that observed experimentally. The estimated yield of metabolites agreed well with values reported in the literature. A pregnancy and offspring model predicted minimal transfer of HCB to the fetal compartment during gestation and extensive mobilization of HCB to the offspring during lactation. This agrees with results reported in the literature. Correlations were obtained between experimentally observed liver toxicity and estimated yield of metabolites; between experimentally observed effects on the central nervous system and estimated HCB concentrations in the brain; and between experimentally observed offspring mortality and estimated extent of lactational HCB transfer. This paper also discusses the effects on tissue concentrations and half-lives of trapping HCB in the intestines by sequestering a large portion of it there. Various characteristics of the human models are discussed. The female model has a biphasic elimination pattern, the second elimination phase having a half-life of greater than 200 days. The pregnancy and offspring model projects extensive transfer of HCB via the milk to the nursing offspring, which correlates with the greater mortality of nursing infants whose mothers were exposed to HCB in Turkey.


Subject(s)
Chlorobenzenes/metabolism , Hexachlorobenzene/metabolism , Models, Biological , Animals , Digestive System/metabolism , Dose-Response Relationship, Drug , Female , Fetus/drug effects , Hexachlorobenzene/toxicity , Humans , Kinetics , Lactation , Liver/drug effects , Pregnancy , Rats , Rats, Inbred Strains
2.
Prog Clin Biol Res ; 158: 215-33, 1984.
Article in English | MEDLINE | ID: mdl-6396646

ABSTRACT

The human disposition of caffeine, theophylline, and theobromine is essentially characterized by rapid and complete gastrointestinal absorption; minimal first pass metabolism; distribution throughout the total body water; extensive and, in the case of caffeine almost complete, biotransformation in the liver; and elimination of metabolites from the body via the kidneys. Methylxanthine metabolism is affected by such factors as diet, smoking, pregnancy, use of oral contraceptives, age, and disease state. These factors have been studied extensively in relationship to caffeine disposition, less so for theophylline, and minimally for theobromine as well as the metabolites of these compounds, in particular paraxanthine and the diaminouracils. The facts that the loss of the 3-methyl group from caffeine to form 1,7-dimethylxanthine (paraxanthine) is the preferential path of metabolism in humans and that an acetylated diaminouracil is one of the major end-products of caffeine metabolism would indicate the need for additional studies of these compounds. The variability often associated with caffeine disposition may be in part genetic in origin since the population is generally biomodally distributed in its ability to acetylate molecules possessing an amino functional group. In addition, caffeine metabolism may be useful as a diagnostic tool to determine an individual's ability to acetylate and thus eliminate potentially harmful compounds from the body, as well as a measure of liver function in terms of enzymatic metabolizing ability.


Subject(s)
Caffeine/metabolism , Theobromine/metabolism , Theophylline/metabolism , Contraceptives, Oral , Female , Humans , Intestinal Absorption , Kinetics , Male , Tissue Distribution
4.
Drug Metab Dispos ; 11(3): 206-10, 1983.
Article in English | MEDLINE | ID: mdl-6135577

ABSTRACT

A major caffeine metabolite (A1) has been isolated from human urine by a combination of solvent extraction, reverse phase high-pressure liquid chromatography, and silica gel open column chromatography. The chromatographic and spectral properties of A1 are identical with an authentic sample of 5-acetylamino-6-amino-3-methyluracil. A stable isotope-labeling study, in which [2-14C]caffeine in a 1:1 mixture of unlabeled caffeine and [1,3-15N-8-13C] caffeine was administered to subjects, demonstrated that the C-8 carbon of caffeine was lost during the biotransformation to A1. Thus, the acetyl group in A1 does not originate from caffeine. The 1:1 ratio of the mass spectral ions for A1 isolated from the stable isotope study and the specific activity of A1 support caffeine as the principal source of A1. A related metabolite (A2) was too labile for complete purification and structural identification. The chromatographic and mass spectral properties of the degradation product of A2 were identical with those of A1.


Subject(s)
Caffeine/urine , Biotransformation , Chromatography, Gel , Chromatography, High Pressure Liquid/methods , Chromatography, Thin Layer , Electrophoresis , Humans
5.
Drug Metab Dispos ; 10(4): 417-23, 1982.
Article in English | MEDLINE | ID: mdl-6126344

ABSTRACT

Radiolabeled caffeine was administered orally at 5 mg/kg to adult, male volunteers. Blood, saliva, expired CO2, urine, and feces were collected and analyzed for total radiolabeled equivalents, caffeine, and its metabolites. High-performance liquid chromatography (HPLC) was the principal technique used to separate caffeine and the various metabolites with quantitation by liquid-scintillation counting. The half-life of caffeine in both serum and saliva was approximately 3 hr, with the concentration of caffeine in the saliva samples ranging from 65 to 85% of that found in the serum samples. The major metabolites found in serum and saliva were the dimethylxanthines. In the course of separating the urinary metabolites, our HPLC system partially resolved two unidentified polar metabolites arising from radiolabeled caffeine. The major component corresponded to 5-acetylamino-6-amino-3-methyluracil and in our subjects ranged from 7 to 35% of the administered dose. The other principal urinary metabolites were 1-methylxanthine at approximately 18% of the administered dose and 1-methyluric acid at 15%. The fecal samples contained approximately 5% of the dose, mainly as uric acid compounds which retained the 1-methyl group. In this study we accounted for approximately 90% of the administered radiolabeled dose and identified greater than 95% of the urinary radioactivity as specific metabolites.


Subject(s)
Caffeine/analogs & derivatives , Caffeine/metabolism , Administration, Oral , Adult , Biotransformation , Carbon Radioisotopes , Chromatography, High Pressure Liquid , Feces/analysis , Humans , Kinetics , Male , Saliva/metabolism
6.
Cancer Res ; 42(2): 627-32, 1982 Feb.
Article in English | MEDLINE | ID: mdl-7055806

ABSTRACT

The physiological disposition of N-(phosphonacetyl)-L-aspartate (NSC 224131; PALA), a potent inhibitor of aspartate transcarbamylase, has been studied in mouse, rat, dog, and monkey after administration of [14C]PALA at 120 mg/sq m i.v. or p.o. Concentrations of PALA equivalents in plasma, urine, and feces were determined radiochemically, and urine was analyzed chromatographically for PALA. The disposition of PALA equivalents in mouse tissues was determined radioautographically. After i.v. administration, PALA was rapidly (half-time, approximately 1 hr) and extensively (up to 80% of the dose) excreted in the urine of all species. Less than 5% was excreted in the feces. Only PALA was found in the urine of all four species, indicating that the metabolism of PALA, if it occurs at all, is insignificant. PALA equivalents were poorly taken up by mouse tumors and tissues, except kidney, bone, and to a lesser extent, skin and lung, and were rapidly and extensively cleared from all except bone. No differences were apparent in the uptake of PALA equivalents by Lewis lung carcinoma (sensitive to PALA treatment) and L1210 lymphocytic leukemia (insensitive). The pharmacokinetics of PALA in the plasma of rat, dog, and monkey, as well as mouse, were inconsistent with deposition of PALA in tissues and more consistent with the probable distribution of PALA into extracellular water. PALA equivalents were eliminate from all species at a rate (half-time, 1 to 1.5 hr) reflecting the rate of urinary excretion of the drug and at a secondary slower rate probably reflecting the rate of release of bound PALA from sites such as aspartate transcarbamylase. PALA was poorly absorbed into the systemic circulation when administered p.o., in that mouse, rat, and monkey excreted less than 5% of the dose in the urine after p.o. administration. These data on the physiological disposition of PALA explain why high doses of the drug have to be administered to achieve therapeutic and toxic effects, despite the inhibitory potency of the drug on aspartate transcarbamylase. They indicate that PALA will be ineffective administered p.o. and might be contraindicated in patients with impaired renal function and that the kinetics of aspartate transcarbamylase-bound drug is probably more important in determining dose scheduling than the kinetics of free PALA.


Subject(s)
Aspartic Acid/analogs & derivatives , Organophosphorus Compounds/metabolism , Phosphonoacetic Acid/metabolism , Administration, Oral , Animals , Aspartate Carbamoyltransferase/metabolism , Aspartic Acid/blood , Aspartic Acid/metabolism , Aspartic Acid/urine , Autoradiography , Biological Availability , Dogs , Feces/analysis , Female , Half-Life , Injections, Intravenous , Kinetics , Macaca mulatta , Male , Mice , Mice, Inbred Strains , Phosphonoacetic Acid/analogs & derivatives , Phosphonoacetic Acid/blood , Phosphonoacetic Acid/urine , Rats , Rats, Inbred Strains , Tissue Distribution
12.
Am J Clin Nutr ; 32(4): 834-45, 1979 Apr.
Article in English | MEDLINE | ID: mdl-219678

ABSTRACT

Rhesus monkeys (seven females and six males) were fed ad libitum a diet comparable to that consumed by humans, containing 25% by weight fat (40% of calories) and 0.15% cholesterol (0.3 mg/kcal) for 12 months (phase 1). From the 13th month all monkeys were continued on the diet while four females and three males were given 50% coffee as their fluid intake and the remainder were water controls (phase 2). Major changes in total plasma lipids and lipoprotein profiles occurred within 3 months and generally plateaued thereafter. Total plasma protein remained constant while total plasma cholesterol, phospholipids, triglycerides, and free fatty acid levels increased. After the initiation of coffee, there was no difference between the diet-water group and the diet-coffee group with respect to total protein and lipids in plasma. Total concentrations of plasma lipoproteins varied throughout the study. The pre-beta (very low density lipoproteins) fraction remained constant while the beta (low density lipoprotein) and alpha (high density lipoprotein) fractions, along with their major components, increased within 3 to 6 months, then fluctuated in absolute weight thereafter. The introduction of 50% coffee was without effect on the dynamic changes in these fractions as fluctuations were found in both groups and to the same magnitude. This leads the authors to suspect that such variations are "normal" or are in response to the diet per se. The atherogenic diet induced fatty streaks in the aortas of all monkeys to a greater extent in males than females. However, there were no gross differences in the quantity or distribution of the streaks between control and coffee-drinking monkeys.


Subject(s)
Aortic Diseases/etiology , Arteriosclerosis/etiology , Coffee , Lipids/blood , Lipoproteins/blood , Alanine Transaminase/blood , Animals , Aorta, Abdominal , Aorta, Thoracic , Aspartate Aminotransferases/blood , Cholesterol/blood , Coffee/adverse effects , Diet, Atherogenic , Female , Haplorhini , Lipoproteins, HDL/blood , Lipoproteins, LDL/blood , Lipoproteins, VLDL/blood , Macaca mulatta , Male , Phospholipids/blood , Triglycerides/blood
13.
Cancer Biochem Biophys ; 3(4): 163-8, 1979.
Article in English | MEDLINE | ID: mdl-552904

ABSTRACT

The binding characteristics of the cancer chemotherapeutic Cain's quinolinium 6-amino-1-ethyl-4-[p-[[p-[(1-ethylpyridinium-4-yl) amino] phenyl] carbamoyl]-anilino]-quinolinium dibromide (NSC 113089) to lipid extracts from rat kidney, liver, heart and skeletal muscle has been studied. Such binding is saturable with an apparent KD congruent to 1.6 microM. Drug binding to the lipid extracts is displaceable by spermine, spermidine, calcium ions and protons. Spermine is the best displacing agent, achieving half drug displacement from the lipid extracts at approximately 6.3 microM regardless of tissue. The inability of the displacing agents to displace all the NSC 113089 bound to the lipid extracts as well as differences in the amount of agent bound to as compared to amount of drug displaced from the lipid extracts indicate that a number of drug binding sites may be present in the lipid extracts. The similarities of drug binding by rat tissue lipids to similar lipids extracted from normal animal and tumor tissues is discussed.


Subject(s)
Lipid Metabolism , Quinolinium Compounds/metabolism , Animals , Binding Sites , Calcium/pharmacology , Female , Kidney/metabolism , Kinetics , Liver/metabolism , Male , Muscles/metabolism , Myocardium/metabolism , Rats , Spermidine/pharmacology , Spermine/pharmacology
14.
Drug Metab Dispos ; 6(5): 542-8, 1978.
Article in English | MEDLINE | ID: mdl-30603

ABSTRACT

The two major metabolites of ellipticine (NSC 71795) were isolated from rat bile by a combination of solvent extraction, partition column chromatography, and reverse phase high-performance liquid chromatography. Purification and structural elucidation of the bile products were aided by administration of the drug with a dual label (14C and 2H). The two metabolites were shown to be the sulfate and glucuronide conjugates of 9-hydroxyellipticine by chemical, enzymatic, and mass-spectral fragmentation comparison with synthetic and enzymatically prepared reference compounds.


Subject(s)
Alkaloids/metabolism , Bile/metabolism , Ellipticines/metabolism , Animals , Chemical Phenomena , Chemistry , Chromatography , Glucuronates/metabolism , Hydroxylation , Male , Rats , Spectrum Analysis , Sulfates/metabolism
15.
Cancer Treat Rep ; 62(7): 1025-32, 1978 Jul.
Article in English | MEDLINE | ID: mdl-80268

ABSTRACT

The pharmacokinetics of 5-azacytidine (5-azaCR) and tetrahydrouridine (THU) were considered in evaluating the effect of THU on chemotherapy with 5-azaCR in L1210 leukemia mice. The administration of three different dose levels of THU and 5-azaCR ip in either a 6- or 72-hour infusion gave minimal increases in therapeutic effect. At the high-dose combinations (except in the 72-hour infusion), THU appeared to enhance toxicity. Toxicity, however, occurred only after exceeding a theoretic plasma concentration for 5-azaCR of 61 microgram/ml. THU was effective in increasing the excretion of 5-azaCR by sixfold and in altering its urinary metabolites when given simultaneously with or up to 1 hour prior to 5-azaCR.


Subject(s)
Azacitidine/metabolism , Leukemia L1210/drug therapy , Tetrahydrouridine/metabolism , Uridine/analogs & derivatives , Animals , Azacitidine/administration & dosage , Azacitidine/therapeutic use , Drug Therapy, Combination , Female , Infusions, Parenteral , Injections, Intraperitoneal , Mice , Tetrahydrouridine/administration & dosage , Tetrahydrouridine/therapeutic use
20.
Cancer Chemother Rep ; 56(3): 315-20, 1972 Jun.
Article in English | MEDLINE | ID: mdl-19051489

ABSTRACT

Daunomycin (D1) was quantitatively converted to a metabolite, D2 (> 98% conversion), by an aerobic, cell-free system containing nicotinamide adenine dinucleotide phosphate, reduced form (NADPH) and the 100,000 x g supernatant fluid of rat kidneys. Under lowered oxygen concentrations, cell homogenates plus NADPH converted D, quantitatively to an unknown metabolite, D(x), with D2 as a possible intermediate. The chromatographic properties of D(x) differed from those of D2 and the aglycones of D1 and D2 (D4 and D3 respectively). Sufficient quantities of D2 and D(x) were prepared using NADPH-supplemented cell-free preparations from the kidneys of rats to assay their chemotherapeutic activity in vivo. The metabolite D2 was as effective as daunomycin (D1) against P388 leukemic cells growing in mice, but only one sixth as active against L1210 leukemic cells growing in suspension culture. The metabolite D(x) was much less active than either D2 or D1 when assayed against L1210 cells growing in culture and was inactive against P388 cells growing in mice.


Subject(s)
Antibiotics, Antineoplastic/pharmacokinetics , Daunorubicin/pharmacokinetics , Kidney/drug effects , Animals , Biological Assay , Cell Line, Tumor , Humans , In Vitro Techniques , Kidney/metabolism , Mice , Models, Biological , NADP/metabolism , Neoplasm Transplantation , Oxygen/metabolism , Rats , Rats, Sprague-Dawley , Time Factors
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