Detection of carcinogen-DNA adducts in exfoliated urothelial cells of cigarette smokers: association with smoking, hemoglobin adducts, and urinary mutagenicity.

The presence of covalent modifications in DNA obtained from exfoliated urothelial cells of smokers and nonsmokers was determined using 32P postlabeling methods. Urine and blood samples were procured from 73 persons. Cells were removed from the urine by filtration. DNA was isolated using an enzyme-solvent extraction method and then coprecipitated with glycogen. Sufficient DNA to detect 1 carcinogen-DNA adduct/10(9) normal nucleotides was obtained from 40 of the 73 samples. DNA was hydrolyzed to 3'-phosphodeoxynucleotides and then 32P postlabeled under conditions of excess [32P]ATP. Carcinogen-DNA adducts were resolved using anion-exchange thin-layer chromatography and visualized by autoradiography; film exposures lasted as long as 7 days. Twelve different carcinogen-DNA adducts and a diagonal zone of radioactivity could be found, but no sample contained all adducts. At least four adducts appeared to be cigarette smoking related. These adducts were from 2 to 20 times higher in the smokers than the nonsmokers. Two carcinogen-DNA adducts were qualitatively very similar to adducts described earlier in a study of human bladder biopsies. One of these corresponded to N-(deoxyguanosin-8-yl)-4-aminobiphenyl. Adducts were correlated significantly with the levels of 4-aminobiphenyl hemoglobin adducts and number of cigarettes smoked. In addition, levels of the putative N-(deoxyguanosin-8-yl)-4-aminobiphenyl adduct and a measure of total adducts were correlated with the mutagenic activity of the individual's urine. These data suggest that noninvasive, biological monitoring techniques can be applied to the study of carcinogen-DNA adducts in humans at high risk for bladder cancer.     

Detection and quantitation of dG-AAI and dA-AAI adducts by 32P-postlabeling methods in urothelium and exfoliated cells in urine of rats treated with aristolochic acid I.

Analysis of aristolochic acid I (AAI)-DNA adducts in exfoliated cells in urine, urothelium and entire urinary bladder were studied after oral administration of five daily doses (10 mg/kg body wt) AAI for 3 months to rats. The two major adducts excreted in urine are presumably identical to the two main adducts formed in vitro and in vivo in different organs in the rat, which have previously been characterized in vitro as 7(-deoxyguanosin-N2-yl)-aristolactam I and 7(-deoxyadenosin-N6-yl)-aristolactam I. Urine samples were collected on dry-ice, subsequently pooled and purified according to the protocol of Kadlubar and co-workers. DNA was isolated, digested and AAI-DNA adducts of exfoliated cells in urine and urothelium of rats were detected and quantitated by enhancement methods of the 32P-postlabeling assay, namely nuclease P1 enrichment or butanol extraction. Autoradiograms indicated that adduct patterns in DNA derived from exfoliated cells in urine were very similar to those obtained from DNA isolated from tissues. Quantitative analysis of adducts revealed adduct levels declining for both adducts from DNA isolated from urothelium to DNA isolated from the entire urinary bladder to DNA isolated from exfoliated cells in urine. In general, count rates of two predominant AAI adducts were enhanced by butanol extraction approximately 3- to 8-fold when compared with the nuclease P1 digestion technique. The identity of the two major adducts was confirmed by co-chromatography with eluted spots from in vivo adducts by comparing mobilities on poly-(ethyleneimine)-cellulose plates. Microbiological investigations of the urine revealed no gross contamination with bacteria, so that the isolated DNA supposedly originated from exfoliated urothelial cells. This study indicates that 32P-postlabeling analysis can be used to monitor non-invasively the formation of carcinogen-DNA adducts in animals or humans exposed to carcinogens.     

Frequency of urination and its effects on metabolism, pharmacokinetics, blood hemoglobin adduct formation, and liver and urinary bladder DNA adduct levels in beagle dogs given the carcinogen 4-aminobiphenyl

The human urinary bladder carcinogen, 4-aminobiphenyl (ABP), is known to undergo hepatic metabolism to an N-hydroxy arylamine and its corresponding N-glucuronide. It has been proposed that these metabolites are both transported through the blood via renal filtration to the urinary bladder lumen where acidic pH can facilitate the hydrolysis of the N-glucuronide and enhance the conversion of N-hydroxy-4-aminobiphenyl (N-OH-ABP) to a reactive electrophile that will form covalent adducts with urothelial DNA. Blood ABP-hemoglobin adducts, which have been used to monitor human exposure to ABP, are believed to be formed by reactions within the erythrocyte involving N-OH-ABP that has entered the circulation from the liver or from reabsorption across the urothelium. To test these hypotheses directly, experimental data were obtained from female beagles given [3H]ABP (p.o., i.v., or intraurethrally). [3H]N-OH-ABP (i.v. or intraurethrally), or [3H]N-OH-ABP N-glucuronide (i.v.). Analyses included determinations of total ABP in whole blood and plasma, ABP-hemoglobin adducts in blood erythrocytes, ABP and N-OH-ABP levels (free and N-glucuronide) in urine, urine pH, frequency of urination (controlled by urethral catheter), rates of reabsorption of ABP and N-OH-ABP across the urothelium, and apparent volumes of distribution in the blood/tissue compartment. The major ABP-DNA adduct, N-(guan-8-yl)-4-aminobiphenyl, was also measured in urothelial and liver DNA using a sensitive immunochemical method. An analog/digital hybrid computer was then utilized to construct a multicompartmental pharmacokinetic model for ABP and its metabolites that separates: (a) absorption; (b) hepatic metabolism and distribution in blood and tissues; (c) ABP-hemoglobin adduct formation; (d) hydrolysis and reabsorption in the urinary bladder lumen; and (e) excretion. Using this model, cumulative exposure of the urothelium to free N-OH-ABP was simulated from the experimental data and used to predict ABP-DNA adduct formation in the urothelium. The results indicated that exposure to N-OH-ABP and subsequent ABP-DNA adduct formation are directly dependent on voiding frequency and to a lesser extent on urine pH. This was primarily due to the finding that, after p.o. dosing of ABP to dogs, the major portion of the total N-OH-ABP entering the bladder lumen was free N-OH-ABP (0.7% of the dose), with much lower amounts as the acid-labile N-glucuronide (0.3% of the dose).(ABSTRACT TRUNCATED AT 400 WORDS)     

DNA adducts in urothelial cells: Relationship with biomarkers of exposure to arylamines and polycyclic aromatic hydrocarbons from tobacco smoke

Markers of exposure to polycyclic aromatic hydrocarbons (urinary 1-hydroxypyrene-glucuronide) and aromatic amines (4-aminobiphenyl-hemoglobin adducts), as well as urinary mutagenicity, were measured in 47 healthy smokers and 50 non-smokers. DNA adducts were determined by P32-postlabeling in the exfoliated bladder cells of 39 healthy subjects. Both 1-hydroxypyrene-glucuronide (1-OHPG) and 4-aminobiphenyl adducts (4-ABP-Hb) were associated with smoking habits, but only 4-ABP-Hb adducts were associated with consumption of black, air-cured tobacco. The levels of 2 DNA adducts (numbers 2 and 4) in urothelial cells were clearly associated with 4-ABP-Hb adducts, in all subjects and in smokers. Levels of one of these DNA adducts (number 2) were also associated with 1-hydroxypyrene-glucuronide in urines, but in smokers the association was not statistically significant. Overall, these observations constitute further evidence of a role of arylamines in tobacco-induced bladder cancer. © 1996 Wiley-Liss, Inc.     

Removal of arylamine-DNA adducts in cultured epithelial-cells of rat and human urinary-bladder and mammary-gland

Primary mammary and urinary bladder epithelial cells of the rat, and the human urothelial cell line HCV-29 and mammary cell line MCF-10A were incubated for 3 h with 10 mM hydroxyurea and N-hydroxy-N-acetyl-2-aminofluorene, N-hydroxy-N-acetyl-4-aminobiphenyl or N-hydroxy-3,2'-dimethyl-4-aminobiphenyl. DNA adducts of these carcinogens were detected in the nuclei of all cells, except MCF-10A, semi-quantitatively with a novel immunohistochemical-microdensitometric method. The loss of these adducts in these cells was biphasic and was relatively greater between 0 and 24 h than between 24 and 48 h. The half-life of the adducts of all 3 carcinogens was approximately 20 h. The adduct loss is consistent with repair detected by an unscheduled DNA synthesis system reported previously. These results demonstrate that nonacetylated aromatic amine-DNA adducts can be repaired in the target cells for aromatic amine-induced carcinogenesis.     

Carcinogen-DNA adducts in cultures of rat and human hepatocytes.

Exposure to chemical carcinogens can often be identified by detection of DNA adduct lesions. Primary cultures of isolated rat and human hepatocytes were exposed to 2-acetyl-aminofluorene (AAF), 4-aminobiphenyl (ABP), or benzo[a]pyrene (BP). The isolated DNA from the exposed cells was analyzed using the 32P-post-labeling assay. A greater total of carcinogen-DNA adducts, 2-12-fold, were observed in human hepatocytes than rat hepatocytes at the same concentrations. The predominant DNA adducts for each carcinogen were the same between rat and human cells. The N-(deoxyguanosin-8-yl)-2-aminofluorene (dG-C8-AF) was the major AAF-DNA adduct. The N-(deoxyguanosin-8-yl)-4-aminobiphenyl (dG-C8-ABP) was the major ABP-DNA adduct. In the rat N2-[10 beta-(7 beta, 8 alpha, 9 alpha-trihydroxy-7,8,9,10-tetrahydrobenzo[a]pyrene)yl] deoxyguanosine (dG-N2-BP) and two unidentified adducts were nearly equivalent in amount, while the major BP-DNA adducts in the humans was the dG-N2-BP. The rat hepatocyte in vitro results are comparable to the predominant adducts found with rats exposed in vivo. The two different cultures of human hepatocytes demonstrated qualitative and quantitative differences in specific DNA adducts from rat hepatocytes. This study and others using human hepatocyte cultures demonstrate that this in vitro system can provide useful information for assessing human carcinogenic hazards.     

Acrolein- and 4-Aminobiphenyl-DNA adducts in human bladder mucosa and tumor tissue and their mutagenicity in human urothelial cells

Tobacco smoke (TS) is a major cause of human bladder cancer (BC). Two components in TS, 4-aminobiphenyl (4-ABP) and acrolein, which also are environmental contaminants, can cause bladder tumor in rat models. Their role in TS related BC has not been forthcoming. To establish the relationship between acrolein and 4-ABP exposure and BC, we analyzed acrolein-deoxyguanosine (dG) and 4-ABP-DNA adducts in normal human urothelial mucosa (NHUM) and bladder tumor tissues (BTT), and measured their mutagenicity in human urothelial cells. We found that the acrolein-dG levels in NHUM and BTT are 10-30 fold higher than 4-ABP-DNA adduct levels and that the acrolein-dG levels in BTT are 2 fold higher than in NHUM. Both acrolein-dG and 4-ABP-DNA adducts are mutagenic; however, the former are 5 fold more mutagenic than the latter. These two types of DNA adducts induce different mutational signatures and spectra. We found that acrolein inhibits nucleotide excision and base excision repair and induces repair protein degradation in urothelial cells. Since acrolein is abundant in TS, inhaled acrolein is excreted into urine and accumulates in the bladder and because acrolein inhibits DNA repair and acrolein-dG DNA adducts are mutagenic, we propose that acrolein is a major bladder carcinogen in TS.     

Use of the 32P-postlabelling assay to study transplacental carcinogens and transplacental carcinogenesis

The formation of DNA adducts represents a key step in the postnatal initiation of the carcinogenic process. Little is known as yet about the role of prenatally induced adducts in transplacental carcinogenesis in offspring. Measurement of transplacental DNA damage in fetal organs of experimental animals has been difficult in the past because of the small amounts of DNA available and low adduct levels. In principle, these difficulties have been overcome by the recent development of a highly sensitive 32P-postlabelling assay which can be applied to a large number of DNA adducts of diverse structure and requires only microgram amounts of DNA for analysis. In this assay, tissue DNA is degraded to mononucleotides; these are enzymatically 32P-labelled via T4 polynucleotide kinase-catalysed [32P]phosphate transfer from [gamma--32P]ATP, to form 5'--32P-labelled 3',5'-bisphosphate derivatives; the labelled products are separated into normal and adducted [32P]nucleotides and quantified by thin-layer chromatography, autoradiography and scintillation (Cerenkov) counting. This technique allows the detection and quantitation of one adduct in 10(8)-10(10) DNA nucleotides (approximately 1-100 adducts/mammalian genome) using a 10-micrograms DNA sample and has been applied in studies of adduct formation from transplacental carcinogens in fetal and adult rodent tissues. In this paper, we review application of 32P-postlabelling to DNA adducts formed with transplacental or suspected transplacental carcinogens in fetal and maternal tissues. The carcinogens studied include diethylstilboestrol (DES), benzo[a]pyrene, safrole, 4-aminobiphenyl and 4-nitroquinoline-1-oxide, as well as cigarette smoke condensate. In DNA of DES-exposed hamsters, one major and several minor adduct spots were observed, which were absent from vehicle controls. A characteristic adduct, which resembled the major hamster adduct chromatographically, was detected in all exposed mouse tissue, except fetal kidney. Chronic administration of low doses of DES to male Syrian hamsters led to an entirely different pattern of adducts in kidney DNA, the target organ of carcinogenesis. These adducts did not contain covalently bound oestrogen moieties and appeared to be formed indirectly: oestrogen appeared to induce or enhance the synthesis of an endogenous electrophilic metabolite reacting with DNA. Thus, multiple mechanisms exist by which DES can damage DNA. Additional work using 32P-postlabelling has shown that non-hormonal genotoxicants (e.g., benzo[a]pyrene, safrole, 4-aminobiphenyl, 4-nitroquinoline-1-oxide) and cigarette smoke condensate given to pregnant mice can induce specific DNA adduct profiles in fetal tissues.(ABSTRACT TRUNCATED AT 400 WORDS)     

Epidemiological models of carcinogenesis: the example of bladder cancer.

Epidemiological studies have clearly shown that smokers have an increased risk of bladder cancer. Chemical, biochemical, and molecular investigations indicate that such risk might be due to aromatic amines which are present in tobacco smoke. In particular, collaborative studies have shown that smokers have increased levels of hemoglobin-4-aminobiphenyl adducts in their blood and that these levels show a dose-response relationship and an association with the most carcinogenic variety of tobacco, air-cured or black tobacco. Adduct concentrations were also modulated by the genetically based slow acetylator phenotype. In addition, investigations in dogs and humans have described a DNA adduct in bladder biopsies and in exfoliated bladder cells that is a derivative of 4-aminobiphenyl. This paper summarizes the epidemiological, biochemical, and molecular evidence concerning the possible mechanisms of bladder cancer induction in smokers and in occupationally exposed workers. The case of bladder cancer is an example of integration between epidemiological studies, mathematical modeling, and laboratory investigations aiming at the elucidation of mechanisms of carcinogenesis.     

Detection and quantification of 4-ABP adducts in DNA from bladder cancer patients

We analyzed bladder DNA from 27 cancer patients for dG-C8-4-aminobiphenyl (dG-C8-ABP) adducts using the liquid chromatography tandem mass spectrometry method with a 700 attomol (1 adduct in 10(9) bases) detection limit. Hemoglobin (Hb) 4-aminobiphenyl (4-ABP) adduct levels were measured by gas chromatography-mass spectrometry. After isolation of dG-C8-ABP by immunoaffinity chromatography and further purification, deuterated (d9) dG-C8-ABP (MW=443 Da) was added to each sample. Structural evidence and adduct quantification were determined by selected reaction monitoring, based on the expected adduct ion [M+H+]+1, at m/z 435 with fragmentation to the product ion at m/z 319, and monitoring of the transition for the internal standard, m/z 444-->328. The method was validated by analysis of DNA (100 microg each) from calf thymus; livers from ABP-treated and untreated rats; human placentas; and TK6 lymphoblastoid cells. Adduct was detected at femtomol levels in DNA from livers of ABP-treated rats and calf thymus, but not in other controls. The method was applied to 41 DNA samples (200 microg each) from 27 human bladders; 28 from tumor and 14 from surrounding non-tumor tissue. Of 27 tissues analyzed, 44% (12) contained 5-80 dG-C8-ABP adducts per 10(9) bases; only 1 out of 27 (4%) contained adduct in both tumor and surrounding tissues. The Hb adduct was detected in samples from all patients, at levels of 12-1960 pg per gram Hb. There was no correlation between levels of DNA and Hb adducts. The presence of DNA adducts in 44% of the subjects and high levels of Hb adducts in these non-smokers indicate environmental sources of exposure to 4-ABP.     

32P-postlabelling analysis of DNA adducts in the skin of mice treated with petrol and diesel engine lubricating oils and exhaust condensates

Samples of unused or used petrol and diesel engine lubricating oils were applied to the shaved dorsal skin of 4- to 6-week-old male Parkes mice, either as a single treatment (50 microliters/mouse) or as four consecutive daily treatments (50 microliters/application). DNA isolated from the skin 24 h after the final treatment was digested to 3'-mononucleotides and analysed by 32P-postlabelling for the presence of aromatic adducts. Enhancement of sensitivity using butanol extraction or nuclease P1 digestion of the DNA hydrolysates led to the detection of up to eight adduct spots on polyethyleneimine-cellulose thin-layer chromatograms with samples of DNA from skin treated with used engine oils, at levels of 40-150 amol total adducts/micrograms DNA. Multiple treatments with the used oils gave rise to similar patterns of adducts in lung DNA. A single treatment of mouse skin with petrol engine exhaust condensate (50 microliters), or diesel engine exhaust condensate (50 microliters), containing 20 and 46 micrograms benzo[a]pyrene (BaP)/g respectively, gave rise to approximately 75 amol total adducts/micrograms DNA in skin. A significant proportion, 31 and 48% respectively, of the adducts formed by the petrol and diesel engine exhaust condensates co-chromatographed with the major BaP-DNA adduct, but with the used engine oils, only petrol engine oil, and not diesel engine oil, produced significant amounts of an adduct (22% of total) that corresponded to the BaP-DNA adduct.     

Assessment of exposure and susceptibility to aromatic amine carcinogens

As a consequence of human exposure to carcinogenic aromatic amines, biochemical approaches to risk assessment have emphasized metabolic determinants of individual susceptibility and quantification of arylamine-macromolecular adducts. A known genetic polymorphism in humans, hepatic arylamine acetyltransferase activity, has been associated with differences in individual susceptibility to urinary bladder (slow acetylators) and colorectal (rapid acetylators) cancers. Similarly, the high specificity of an inducible human cytochrome P450 towards the N-oxidation of 4-aminobiphenyl and other aromatic amines is consistent with metabolic differences that can be used to predict relative human risk. Exposure to aromatic amines has also been documented, primarily by quantification of adducts with protein or DNA. Using 32P-postlabelling methods and a competitive avidin/biotin-amplified enzyme-linked immunoassay, we have estimated 4-aminobiphenyl-DNA adduct levels in surgical samples of human peripheral lung and urinary bladder epithelium and report values ranging from 2 to 97 adducts per 10(8) nucleotides.     

DNA adduct formation and tumorigenesis in mice during the chronic administration of 4-aminobiphenyl at multiple dose levels

Recent studies have demonstrated the presence of DNA adductsfrom 4-aminobiphenyl (4-ABP) in the bladder cells of humans;however, the correlation between the concentration of theseadducts and the tumorigenic response is not clear. To help elucidatethis relationship, we have investigated DNA adduct formationin experimental animals continuously administered 4-ABP. Maleand female BALB/c mice were treated for 28 days with 4-ABP hydro-chloridein their drinking water. DNA adducts in target tissues (liverof females and bladder of males) were identified and quantifiedby ³²P-postlabeling analyses and radio-immunoassays. These resultswere compared to previously reported tumor incidences obtainedfrom the lifetime administration of 4-ABP hydrochloride. Themajor adduct observed in both tissues was N-(deoxyguanosin-8-yl)-4-ABP.In the bladders of both sexes and the livers of female mice,adduct levels increased with dose at low doses, but saturationwas observed at high doses. In the livers of males, the adductlevels were linearly correlated with dose throughout the entiredose range. A comparison between DNA adducts and tumorigenesisindicated a linear correlation between adduct levels and theincidence of liver tumors in female mice. In the bladders ofmale mice, however, the relationship was markedly nonlinear.These data suggest that adduct formation alone is insufficientfor tumorigenesis in the bladder and that other factors suchas cell proliferation are necessary for tumor production.     

Hemoglobin adducts of 4-aminobiphenyl in smokers and nonsmokers

A quantitative method has been developed for the analysis of 4-aminobiphenyl (4-ABP) covalently bound as the sulfinic acid amide to the 93 beta cysteine of human hemoglobin. The method uses mild basic hydrolysis of hemoglobin to release the parent amine, derivatization to form the pentafluoropropionamide, and capillary gas chromatography with detection by negative-ion chemical ionization mass spectrometry. The method is precise and gives reproducible results on multiple blood samples taken from individuals over 48 h. Application of this method to blood samples from cigarette smokers and nonsmokers revealed consistently higher adduct levels in smokers. The mean value for smokers was 154 pg 4-ABP per g Hb compared to 28 pg/g Hb for nonsmokers, with no overlap of adduct levels between the two groups. Studies on quitting smokers revealed that adduct levels declined over a period of 6-8 weeks to nonsmoker levels. The finding of 4-ABP adducts in all nonsmokers was not anticipated but is consistent with low-level ubiquitous contamination of air, food, or water. In other animals sampled, rats and dogs had measurable adduct levels, but monkeys and fish did not. The hemoglobin adduct of 4-ABP is the product of a series of reactions between the hemoprotein and N-hydroxy-4-ABP. The formation of hydroxylamines from carcinogenic aromatic amines and their subsequent reactions with DNA are generally thought to be critical events in the initiation of bladder tumors. We suggest that the observed hemoglobin adduct levels formed by this proximate carcinogen will reflect the extent to which these steps have occurred. This is the first report of 4-ABP adducts in human blood.     

Storage phosphor imaging technique for detection and quantitation of DNA adducts measured by the 32P-postlabeling assay.

The 32P-postlabeling method has found wide application as a sensitive technique for detecting the presence of a broad range of bulky aromatic compounds covalently bound to DNA. In this method, the modified DNA is enzymatically degraded to 3'-mononucleotides and labeled with [32P]-phosphate at the 5'-position using [gamma-32P]ATP and T4 polynucleotide kinase. The 32P-labeled DNA digest is then chromatographed in two dimensions on polyethyleneimine - cellulose thin-layer plates. Screen-enhanced autoradiography is used to locate the presence of the radiolabeled adducts on the chromatogram, and the radioactive areas are generally excised and quantitated by liquid scintillation spectrometry. However, on a chromatogram with multiple adducts, it can be difficult to quantitative partially resolved adducts and evaluated background radioactivity levels. We have evaluated the use of storage phosphor imaging techniques to quantitate and map the radioactivity on chromatograms generated by the 32P-postlabeling method. The results showed that storage phosphor imaging was approximately 10 times more sensitive than screen-enhanced autoradiography at -80 degrees C for the detection of 32P, exhibits a greater linear range of response, has a resolution that compares favorably to film and has a lower background than does liquid scintillation spectrometry. Further, the generation of a digitized record of the distribution and intensity of radioactivity allows for computer-assisted assessment of adduct profiles and can facilitate quantitation of individual adducts and radioactive zones comprised of multiple overlapping adducts in complex chromatograms. Additionally, the permanent record created by the imaging technology permits facile retrospective analysis of samples, whereas with autoradiography and liquid scintillation spectrometry reanalysis of a replicate sample is required.     

4-Aminobiphenyl hemoglobin adducts in fetuses exposed to the tobacco smoke carcinogen in utero

Maternal-fetal exchange of a potent tobacco-related human carcinogen, 4-aminobiphenyl, was studied in smoking (n = 14) and nonsmoking (n = 38) pregnant women. N-Hydroxy-4-aminobiphenyl, the active metabolite of 4-aminobiphenyl, forms chemical addition products (adducts) with hemoglobin. Levels of 4-aminobiphenyl hemoglobin adducts were measured in maternal-fetal paired blood samples obtained from smoking and nonsmoking women during labor and delivery. Carcinogen-hemoglobin adducts were detected in all maternal and fetal blood samples. Levels of such adducts were significantly higher (P less than .001) in maternal and fetal blood samples from smokers: the mean 4-aminobiphenyl hemoglobin adduct level was 92 +/- 54 pg/g of hemoglobin in blood samples from fetuses of smokers, and 17 +/- 13 pg/g of hemoglobin in blood samples from fetuses of nonsmokers; the mean maternal 4-aminobiphenyl hemoglobin adduct level was 183 +/- 108 pg/g of hemoglobin in smokers, and 22 +/- 8 pg/g of hemoglobin in nonsmokers. Fetal carcinogen-adduct levels were consistently lower than maternal levels: the mean maternal to fetal ratio was 2.4 +/- 1.1 in smokers and 1.9 +/- .98 in nonsmokers. Fetal 4-aminobiphenyl hemoglobin adduct levels were strongly associated (correlation coefficient [r2] = .51, P = .002) with maternal 4-aminobiphenyl hemoglobin adduct levels when paired samples from smoking mothers were analyzed. A measure of third-trimester tobacco smoke exposure based on number of cigarettes smoked per day, amount of each cigarette smoked, and depth of inhalation was associated (r2 = .59, P = .029) with maternal 4-aminobiphenyl levels but not with fetal 4-aminobiphenyl levels. This study demonstrates that a potent tobacco-related carcinogen, 4-aminobiphenyl, or its active metabolite, N-hydroxy-4-aminobiphenyl, crosses the human placenta and binds to fetal hemoglobin in concentrations that are significantly higher in smokers than in nonsmokers.     

DNA adducts in tumour, normal peripheral lung and bronchus, and peripheral blood lymphocytes from smoking and non-smoking lung cancer patients: correlations between tissues and detection by 32P-postlabelling and immunoassay

Smoking is a major risk factor for lung cancer. This comparative study of smoking-related carcinogen-DNA adducts in pulmonary tissues and peripheral blood lymphocytes aims to further explore the primary DNA damaging processes by cigarette smoke in target and surrogate tissues. Samples of tumour and normal peripheral lung tissue, normal bronchial tissue and peripheral blood lymphocytes were obtained from a total of 85 lung cancer patients who underwent lung resection. Bulky DNA adducts were determined by 32P-postlabelling, and polycyclic aromatic hydrocarbon (PAH)-DNA adducts were detected by (+/-)-7beta, 8alpha-dihydroxy-9alpha,10alpha-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene-DNA chemiluminescence immunoassay (BPDE-DNA CIA) in smaller subsets of tissue samples subject to availability of DNA. Bulky DNA adduct levels ranged between 0.3 and 27.8 adducts/10(8) nucleotides (nt) with mean adduct levels between 2.8 and 11.5 adducts/10(8) nt. Mean PAH-DNA adduct levels were 2.6-6.2 adducts/10(8) nt. Significantly higher bulky DNA adduct levels were detected in smokers' lungs as compared with non-smokers' (P < 0.02). PAH-DNA adduct levels appeared higher in the lungs of smokers compared with non-smokers but the difference was not significant. Lung tumour contained on average a 50% lower DNA adduct level compared with normal lung tissue. A statistically significant positive correlation was found between the DNA adduct levels of the corresponding tumour and normal lung tissue samples in both smokers and non-smokers using both methodologies. Bulky DNA adduct levels in normal lung and blood lymphocytes correlated significantly in non-smokers only (r = 0.55, P = 0.023). In lung tumour DNA samples there was a weak correlation between values obtained by 32P-postlabelling and by the BPDE-DNA immunoassay (r = 0.27, P = 0.054). However, with normal lung DNA samples, values obtained by the two assays did not correlate.     

Polycyclic aromatic hydrocarbon exposure, urinary mutagenicity, and DNA adducts in rubber manufacturing workers.

OBJECTIVES: Several studies have suggested that genotoxic risks might still be present in the contemporary rubber manufacturing industry. Previously, we observed elevated levels of urinary mutagenicity and bladder DNA adducts in rubber workers. Presently, we investigated whether DNA adducts in peripheral blood mononuclear cells (PBMC) and/or urothelial cells may be caused by polycyclic aromatic hydrocarbons or other genotoxic compounds. METHODS: Spot urine samples from 116 rubber manufacturing workers were collected on Sunday and during the workweek (post-shift) to determine 1-hydroxypyrene and mutagenicity levels. For 52 nonsmokers, urothelial cell DNA adducts and PBMC DNA adducts were measured additionally. RESULTS: Urinary 1-hydroxypyrene levels were significantly higher in workweek samples compared with Sunday (P = 0.0001). This increase was not uniform across tasks and only reached statistical significance for the curing department (+99%; P = 0.003). Weekday urinary mutagenicity was significantly increased for mixing (+56%) and curing (+21%) workers when compared with that for Sunday. Total urothelial cell DNA adducts were related to urinary 1-hydroxypyrene (P = 0.021) and mutagenicity (P = 0.027). No significant relationship was found between the adduct levels in PBMC and urothelial cells or between the former and urinary 1-hydroxypyrene or mutagenicity. CONCLUSIONS: Workers in the compounding, mixing, and curing departments were at highest genotoxic risk among rubber manufacturing workers. Increased levels of urinary 1-hydroxypyrene, mutagenicity, and urothelial cell DNA adducts were found in these workers. Urothelial cell and PBMC DNA adducts were not related, hinting possibly to the presence of specific bladder carcinogens in the rubber manufacturing industry.     

Role of TP53 in repair of N-(deoxyguanosin-8-yl)-4-aminobiphenyl adducts in human transitional cell carcinoma of the urinary bladder

The global genomic repair of DNA adducts was examined in human papillary transitional cell carcinoma (TCC) cell lines after exposure to N:-hydroxy-4-acetylaminobiphenyl (N-OH-AABP), the proximate carcinogenic metabolite of the human bladder carcinogen 4-aminobiphenyl (ABP). (32)P-post-labeling analysis of TCC cultures exposed to N-OH-AABP revealed a major adduct, identified as the 3',5'-bisphosphate derivative of N-(deoxyguanosin-8-yl)-4-aminobiphenyl (dG-C8-ABP). The amount of adduct formation in TCC10 was dependent upon the dose and the duration of exposure and ranged between 1 and 5 adducts/10(7) nucleotides. To test if p53 regulates repair of the dG-C8-ABP adduct in genomic DNA, an isogeneic set of cell lines was obtained by infection of the TCC10 cultures with a retroviral construct expressing a trans-dominant mutant of p53, namely a Val-->Ala mutation at codon 143. The TDM143-TCC10 line expressing the mutant form of p53 was selected. The rate of repair of dG-C8-ABP was compared between TCC10 and TDM143-TCC10 cultures after treatment with 15 microM N-OH-AABP. The rate of disappearance of the adduct was monitored over a period of time after chemical treatment. (32)P-post-labeling analysis of dG-C8-ABP in parental TCC10 showed its rapid removal, the majority of adducts disappearing within 48 h. In contrast to TCC10, TDM143-TCC10 was relatively slower in removal of dG-C8-ABP. After 24 h DNA repair TDM143-TCC10 showed an approximately 3-fold greater amount of dG-C8-ABP compared with TCC10. These results imply that p53 plays a role in the repair of ABP adducts and that in p53 null cells the unrepaired DNA damage could cause accumulation of mutations, which might contribute to increased genomic instability and neoplastic progression.     

32P-postlabelling analysis of DNA adducts of benzo[a]pyrene formed in complex metabolic activation systems in vitro

The influence of cytochrome P-450-linked monooxygenase, epoxide hydrolase, UDP-glucuronyltransferase and glutathione S-transferases on the metabolic activation of benzo[a]pyrene (BP) was studied by incubating BP with preparations of rat-liver microsomal and cytosolic fractions in the presence of exogenous DNA. 32P-Postlabelling analysis of the DNA revealed the presence of covalently bound adducts formed by BP, which were visualised as radioactive spots on autoradiographs of thin-layer chromatograms. The effects on the adduct profile of adding different combinations of 1,2-epoxy-3,3,3-trichloropropane (TCPO), UDP-glucoronic acid (UDPGA) and glutathione (GSH) to the incubation mixture were determined. As many as 14 different DNA adducts were resolved and quantitated on the chromatograms, the numbers and quantities of which varied within a large range depending on the incubation conditions. The influence of the enzyme inhibitor and cofactors on the adduct patterns reflects the complex effects of simultaneous enzyme interactions on the metabolic activation of BP.