Mutagenicity of reactive derivatives of carcinogenic hydrocarbons: evidence of DNA repair

The ability of cellular DNA repair enzymes, which are active on ultraviolet light-induced lesions in DNA, to recognize and repair damage induced in DNA by exposure to carcinogenic polycylic hydrocarbons was investigated and the effect of such repair processes on the mutagenicity of the hydrocarbons determined. The carcinogenic hydrocarbos, 7-bromomethylbenz[a]anthracene (7-BrMeBA) and 7-bromomethyl-12-methylbenz[a]anthracene (7-BrMe-12-MeBA), chosen for this study because they form well characterized, stable products with DNA, were dissolved at various concentrations in acetone, added under mild conditions to biologically active DNA isolated from Bacillus subtilis, and the reaction stopped by ethanol precipitation. The hydrocarbons were determined by specific radioactivity to be covalently linked to DNA at a frequency of from 1–5 per 1000 nucleotides. An increased frequency of bound hydrocarbon molecules was directly correlated with a decrease in the buoyant density of the DNA as measured in analytical CsCl centrifugation studies. The samples of hydrocarbon-bound DNA were tested for survival of biological activity and for the frequency of induced forward mutations in two recipient strains (hcr⁺ and hcr^?) of Bacillus subtilis which differ in their ability to repair ultraviolet light-induced lesions in DNA. The survival of the biological activity was significantly higher in the repairing strain (hcr⁺). A higher frequency of mutations was detected in the repairing strain as well. The loss of transforming activity and the increase in the frequency of mutations (up to 20-fold) was directly proportional to the amount of hydrocarbon bound to the DNA samples. The majority of these mutations proved unable to revert spontaneously. Finally, the ability of highly purified rat liver endonuclease, shown to recognize lesions in UV-irradiated DNA, to recognize such hydrocarbon lesions was investigated. Tritiated 7-BrMeBA-treated DNAs exposed to the enzyme were found to sustain single-strand nicks in proportion to the amount of hydrocarbon bound while untreated DNA remained substantially intact. The action of the endonuclease appeared to result in an increase in the biological activity of DNA containing hydrocarbon residues when this was assayed in the hcr^? mutant.     

Metabolism of benzo[a]pyrene and 7,12-dimethylbenz[a]anthracene in cultured human fetal aortic smooth muscle cells.

Cultured human fetal aortic smooth muscle cells derived from the abdominal aorta converted benzo[a]pyrene (BaP) and 7,12-dimethylbenz[a]anthracene (DMBA) $\text{via}$ cytochrome P-450-dependent monooxygenation to metabolites detectable by both a highly sensitive radiometric assay and high pressure liquid chromatography (HPLC). Cells incubated with ³H-BaP transformed this substrate primarily to phenols. ¹⁴C-DMBA was converted to metabolites that cochromatographed with 12-hydroxymethyl-7-methylbenz[a]anthracene, 7-hydroxymethyl-12-methylbenz-[a]anthracene, 7,12-dihydroxymethylbenz[a]anthracene, and trans-8,9-dihydrodiol-7,12-DMBA. Exposure of cells in culture to 13 μM 1,2-benz[a]anthracene resulted in increased oxidative metabolism of both BaP and DMBA. In the case of BaP, total phenol formation was increased, while with DMBA all metabilities detected by HPLC were increased. Support for the potential role of metabolism of polycyclic aromatic hydrocarbons by aortic smooth muscle cells in the etiology of atherosclerosis was obtained.     

Excess thymidine accelerates nascent replicon maturation without affecting the rate of DNA synthesis

The effects of different concentrations of exogenously supplied dThd on DNA replication were investigated in seedlings of Pisum sativum. Nascent DNA was labeled with either [³H]dThd or [³H]dAdo in the presence of 1·10^?6, 1·10^?5 or 1·10^?4 M unlabeled dThd. The rate of DNA synthesis was determined by measuring the kinetics of radioactivity incorporation into trichloroacetic acid-precipitable material and the size of the nascent molecules was investigated using alkaline sucrose gradients. The results obtained showed that high concentrations of exogenously supplied dThd accelerated the joining of completed nascent replicons without affecting the rate of DNA synthesis. This observation strengthens the hypothesis that the dTTP pool size is one of the factors controlling the timing of nascent replicon maturation.     

Non-enzymatic ATP-mediated binding of hydroxymethyl derivatives of aromatic hydrocarbons to DNA

ATP mediates covalent binding of hydroxymethyl derivatives of aromatic hydrocarbons to DNA. This non-enzymatic reaction has been studied with 6-[14C]hydroxymethylbenzo[alpha]pyrene (]14C]BP-6-CH2OH) and 7-[14C]-hydroxymethylbenz[alpha]anthracene ([14C]BA-7-CH2OH) at 37 degrees C in Tris buffer (pH 7.0). While ADP mediates the reaction 25-50% as well as ATP, six other possible phosphate donors including AMP were inactive as cofactors. A complex response to ATP occurred in which low binding of BP-6-CH2OH or BA-7-CH2OH was observed at concentrations of ATP below 2.5 mM, but a greater than linear response to higher concentrations of ATP was observed until ATP was saturating. Binding of the substrates to RNA was much lower than to DNA. Fluorescence spectra of BP-6-CH2OH bound to DNA were almost identical to the spectra of 6-bromomethylbenzo[alpha]pyrene bound to DNA and free 6-methylbenzo]alpha]pyrene, indicating that ATP-mediated binding of BP-6-CH2OH to DNA occurs at the 6-methyl group. The fate of ATP and ADP in the binding reaction of BP-6-CH2OH was examined by thin layer chromatography. Loss of one phosphate group occurs during the reaction. With ATP the rate of loss is about 100-fold greater than the rate of binding of BP-6-CH2OH to DNA. This implies that the binding reaction proceeds through formation of a presumed reactive and unstable phosphate ester intermediate which then inefficiently binds to DNA.     

Mutagenic responses of five independent geentic loci in CHO cells to a variety of mutagens: Development and characteristics of a mutagen screening system based on selection of multiple drug-resistant markers

With the aime of developing a sensitive mutagen screening system, teh responses of 15 different chemical mutagens at 5 independent genetic loci in Chinese hamster ovary (CHO) cells have been determined. The genetic markers which have been employed include resistance to thioguanine (Thg^r), ouabain (Oua^R), the protein syntheis inhibitor emetime (Emt^r, the plyamine synthesis inhibitor methylglyoxal bisguanylhydrazone (Mbg^r) and the nucleoside analog 5,6-dichlororibofuranosyl benzimidazole (Drb^R). The optimal selection conditions for all of these genetic markers in CHO cells have been described. The chemicals whose response was investigated in these studies include direct-acting alkylating agents (ethyl methanesulfonate, methyl methanesulfonate, β-propiolactone, ethyleneimine,N-nitrosomethylurea and 4-nitroquinolineN-oxide), DNA intercalating and cross-linking agents (ICR-170, acridine orange, ethidium bormide, mitomycin C and actinomycine D), polycyclic hydrocarbons (benzo[a]pyrene (B(a)P) and 7,12-dimethylbenz[a]anthracene (DMBA)) and aromatic amines (benzidine and β-naphthylamine). Simultaneous examination of the response of the set of genetic markers to these chemicals revealed that although all of these chemicals caused a dose-dependent increase in the frequency of mutations at many of the above genetic loci, the magnitude of the mutagenic response at different genetic loci varied greatly depending upon the chemical. Of the genetic loci examined, no one single locus showed higher response to all of the above chemicals, instead, depending upon the chemical, specific loci were found to be more responsive than other. The polycyclic hydrocarbons and aromatic amines were weakly mutagenic in this system at several genetic loci even without any exogenous microsomal activation, although in the presence of a rat liver S9 fraction similar toxic and mutagenic effects of B(a)P and DMBA were observed at 5–20-fold lower concentrations. These results indicate that CHO cells may possess significant capacity for the metabolic activation of many procarnicogens, and also underscore the merits of measuring the mutagenic response at multiple genetic loci in mutagen screening studies.     

The replication of mouse skin epidermal DNA to which is bound 7,12-dimethylbenz(a)anthracene

Experiments were carried out to determine in the intact mouse whether or not mouse skin epidermal DNA to which the polycyclic hydrocarbon DMBA was bound could serve as a template for further DNA replication. Mice which were treated topically with [³H]7,12-dimethylbenz(a)anthracene ([³H]DMBA) received 5-bromodeoxyuridine (BUdR) and 5-fluorouracil (5-FU) in order to incorporate BUdR into replicating DNA which was stimulated to undergo synthesis one or two days later. Epidermal DNA was put on a neutral CsCl gradient and binding of [³H]DMBA was found to both replicated and non-replicated DNA. Separation of the BUdR substituted and non-substituted parental strands of newly replicated DNA an on alkaline CsCl, Cs₂SO₄ gradient showed that the great majority of DMBA was bound to parental strand DNA. The possibility that [³H]DMBA binding was taking place at the same time that labeling with BUdR occurred was eliminated. Thus, these experiments showed that in the intact mouse, skin epidermal DNA to which DMBA is bound can serve as a template for further DNA synthesis.     

Inhibition of nucleic acid synthesis in Ehrlich tumor cells by periodate-oxidized adenosine and adenylic acid

Periodate-oxidized adenosine and AMP were inhibitory to both RNA and DNA synthesis in Ehrlich tumor cells in culture. With periodate-oxidized adenosine, the inhibition of RNA synthesis paralleled the inhibition of DNA synthesis. Periodate-oxidized AMP, however, was more inhibitory to DNA synthesis than to RNA synthesis. With both compounds, there was a decrease in the conversion of [¹⁴C]cytidine nucleotides to [¹⁴C]deoxycytidine nucleotides in the acid-soluble pool. The borohy-dride-reduced trialcohol derivative of the periodate-oxidized adenosine compound was not inhibitory to DNA or RNA synthesis in the tumor cells. The incorporation of [³H]uridine into 28S and 18S ribosomal RNA was inhibited by both periodate-oxidized adenosine and AMP, but the incorporation of [³H]uridine in 45S, 5S, and 4S RNA was essentially unaffected by these compounds. Periodate-oxidized adenosine inhibited Ehrlich tumor cell growth in vivo.     

VITAMIN B12 AND THE MACROMOLECULAR COMPOSITION OF EUGLENA : III. Effect of Cycloheximide on the Recovery from B12-Induced Unbalanced Growth

When cycloheximide is added to (B12)-deficient cultures before or after replenishment of the cells with B₁₂, reversion of these cells is inhibited. This inhibition is not caused by interference of the inhibitor in the uptake of B₁₂ as measured by division kinetics. Cycloheximide does not inhibit the initial increase in the rate of DNA synthesis caused by B₁₂ replenishment, but within 30–45 min the rate decreases and DNA synthesis ceases. Cycloheximide added to replenished deficient cells after completion of DNA duplication inhibits cell division. The total cellular protein and RNA in replenished cells treated with cycloheximide does not change. B₁₂ added to deficient cells does not stimulate the incorporation of [¹⁴C]leucine into protein during resumption and completion of DNA duplication. However, there is a large increase in [¹⁴C]leucine incorporation into the protein of these cells soon after completion of DNA duplication and before resumption of cell division. The addition of cycloheximide to B₁₂-replenished or to nonreplenished deficient cells rapidly inhibits the incorporation. We suggest that the addition of B₁₂ accelerates the rate of DNA synthesis in the deficient cells and that possibly no new protein synthesis is required except for mitosis. However, protein synthesis is needed for continuous DNA synthesis.     

Conversion of dNTP to dNMP dependent on DNA synthesis in isolated Yoshida sarcoma nuclei

Nuclei isolated from Yoshida sarcoma cells had activity for conversion of dGTP to dGMP dependent on DNA synthesis. The ratio of nucleotide generation/generation + incorporation was 0.4 ± 0.1, indicating that approx. 40% of the incorporated dGMP was excised. Two lines of evidence indicated the dependence of this activity on DNA synthesis. (1) The activity was observed only in the presence of ATP, which is essential for nuclear DNA synthesis. (2) Inhibitors of DNA synthesis, such as N-ethylmaleimide, aphidicolin, spermine and KCl, also inhibited ATP- or DNA synthesis-dependent dGMP generation. Although nuclei contain nucleoside triphosphatase (N-nucleotidase), this enzyme was not involved appreciably in DNA synthesis-dependent dGMP generation. The reason for this was explained by the following findings. (a) Inhibitors did not decrease dGMP production in the complete absence of DNA synthesis. (b) Inhibitors did not inactivate N-nucleotidase to the same degree as they inhibited DNA synthesis-dependent dGMP generation. (c) Addition of ATP reduced dGTP hydrolysis catalyzed by N-nucleotidase. (d) GDP had no appreciable effect on DNA synthesis-dependent dGMP generation, but had a diluting effect on dGMP production catalyzed by N-nucleotidase. These results show that the pathway of dGMP generation in isolated nuclei was switched on addition of ATP from a N-nucleotidase-catalyzed one to a DNA polymerase-exonuclease-catalyzed one.     

Inhibition of isoproterenol-induced DNA and RNA synthesis in rat parotid and pancreas following removal of submandibular-sublingual glands

Summary [³H] thymidine incorporation into DNA of the parotid (PA) gland of adult and 20-day-old rats and into DNA of the pancreas (PANC) of 20-day-old rats was increased markedly following a 2-day regimen of isoproterenol (ISO) administration. However, when the submandibular-sublingual (SM-SL) glands had been removed just prior to initiation of the ISO injections, the [³H] thymidine incorporation into PA and PANC was inhibited, and cpm/mg protein of these organs was even lower than that of organs of untreated rats with SM-SL glands present. Removal of the PA glands just prior to initiation of the ISO regimen had no effect on the ISO-induced [³H] thymidine incorporation into DNA of PANC but partially inhibited that of the submandibular (SM) gland. It is suggested that the inhibitory effects on DNA and RNA synthesis that follow removal of SM-SL glands are attributable to the growth factors (epidermal growth factor and nerve growth factor) found in the rat SM gland. These factors appear to regulate normal DNA synthetic activity of exocrine glands as well as ₁-adrenoceptor mediated DNA synthesis. Cellular hypertrophy induced by the ISO was less markedly affected by absence of the SM glands, but a partial inhibition of [³H] uridine incorporation into RNA of PA of adult rats also occurred when SM-SL glands were removed prior to initiation of the ISO-regimen.     

Comparison of rat and guinea pig as sources of the S9 fraction in the salmonella/mammalian microsome mutagenicity test

A highly significant enhancement of mutagenicity occurs with 11 polycyclic aromatic hydrocarbons when 3-methylcholanthrene-induced guinea pig liver S9 is substituted for Aroclor-induced rat liver S9 in the Ames test. The use of MC-induced guinea pig liver S9 is particularly valuable for detecting the weak mutagenicity of benz[c]acridine, which is barely positive in a standard Ames assay. However, anthracene and phenanthrene, which are generally considered not to be carcinogens, remain non-mutagenic for strain TA100. This enhancement of mutagenicity does not correlate with arylhydrocarbon hydroxylase activities of the various liver preparations and does not apply to certain other non-PAH mutagens, including β-naphthylamine, aflatoxin B₁ and 4-dimethylaminoazobenzene.     

Retinyl acetate modulation of cell growth kinetics and carcinogen-cellular interaction in mouse epidermal cell cultures

Exposure of mouse epidermal cell cultures to β-retinyl acetate (RA) affects a number of parameters presumed to be important in chemical carcinogenesis. (1) RA alters the course of differentiation of the epidermal cells in culture resulting in a reduced rate of cell death which normally follows cellular maturation during the first two weeks in culture. The extended life span of the cultures appeared due to prolonged survival of cells and not to increased growth rate since RA inhibited the rate of cellular proliferation. This inhibition took place only after completion of a full cell cycle in the presence of RA. (2) DNA repair in response to physical and chemical agents was quantitatively unaffected in the presence of RA. (3) The activity of constitutive aryl hydrocarbon hydroxylase (AHH) was slightly decreased after exposure to RA but the level of enzyme induced by benz[a]anthracene was strongly reduced to 20% of the controls. (4) In the presence of RA, binding of 7,12-dimethylbenz[a]anthracene to epidermal cell DNA was markedly decreased. In contrast, binding to cellular protein was significantly increased by the retinoid.     

A Sericesthis iridescent virus infection of the hemocytes of the waxmoth,Galleria mellonella (Lepidoptera)

The cytopathology of the Seriscethis iridescent virus (SIV) infection of Galleria hemocytes was studied by phase-contrast microscopy, [³H]thymidine autoradiography, and fluorescent antibody and acridine orange staining. Of the five hemocyte classes only the oenocytoid was not infected. Infected plasmatocytes and adipohemocytes undergo nuclear and cytoplasmic hypertrophy accompanied by nuclear DNA synthesis. The timing and identity of nuclear and cytoplasmic DNA synthesis are discussed.     

Binding of benzo[a]pyrene at the 1,3,6 positions to nucleic acids in vivo on mouse skin and in vitro with rat liver microsomes and nuclei

Loss of tritium from specific positions in [³H,¹⁴C] aromatic hydrocarbons can elucidate their binding site(s) to DNA and RNA and indicate the mechanism of activation. Studies of tritium loss from [6-³H,¹⁴C]benzo[a]pyrene(B[a]P), [1,3-³H,¹⁴C]B[a]P, [1,3,6-³H,¹⁴C]B[a]P, [6,7-³H,¹⁴C]B[a]P, and [7-³H,¹⁴C]B[a]P were conducted in vitro using liver nuclei and microsomes from 3-methylcholanthrene-induced Sprague-Dawley rats and in vivo on the skin of Charles River CD-1 mice. The relative loss of tritium from $\text{[}{}^3\text{H}\text{,}{}^{14}\text{C}\text{]}\text{B}\text{[a]}\text{P}$ was measured after binding to skin DNA and RNA, to nuclear DNA, and to native and denatured calf thymus and rat liver DNA's and poly(G) by microsomal activation. In skin, nuclei, and microsomes plus native DNA, virtually all B[a]P binding occurred at positions 1,3 and 6; while with microsomes plus denatured DNA or poly(G), B[a]P showed no binding at the 6 position and a small amount at the 1 and 3 positions. In vivo and with nuclei, binding at the 6 position predominated. Little loss of tritium from the 7 position was seen; this was expected because binding at this position is not thought to occur. This confirms the interpretation of loss of tritium as an indication of binding at a given position. These results demonstrate that the use of microsomes to activate B[a]P is not a valid model system for delineating the in vivo mechanism of B[a]P activation, and support previous evidence for one-electron oxidation as the mechanism of activation of hydrocarbons in binding to nucleic acids.     

Induction of in vivo DNA adducts by 4 industrial by-products in the rat-lung-cell system

Benz[a]anthracene (BA), dibenz[a,h]anthracene (DBA), dibenzo[a,i]pyrene (DBP), and dibenz[a,h]acridine (DBAC) are by-products found in many industrial wastes and emissions. Workers in the related occupational settings are potentially exposed to these substances through inhalation. In the present study, induction of DNA adducts in vivo by these chemicals was investigated using ³²P-postlabeling analysis in the rat-lung-cell system. The potency of DNA-adduct inducing activity was also compared to that of two cytogenetic endpoints i.e., sister-chromatid exchange (SCE) and micronucleus formation. Via intratracheal instillation, male CD rats (6/group) were dosed 3 times with BA, DBA, DBP or DBAC in a 24-h interval. Lung cells were enzymatically separated and used to determine the frequency of DNA adducts, SCE and micronuclei. Results show that all 4 test compounds induced DNA adducts, SCEs, and micronuclei in the rat-lung cell in vivo and that the postlabeling DNA adduct assay detected genotoxic activity at lower dose levels than the two cytogenetic assays. These findings suggest that BA, DBA, DBP or DBAC are rat pulmonary genetoxicants and the DNA-adduct assay is more sensitive than SCE or micronucleus assays for detecting the pulmonary genotoxicity of these industrial PAHs in the in vivo rat-lung-cell system.     

Effects of inhibition of protein synthesis on DNA replication in cultured mammalian cells

We have investigated the effects of inhibiting protein synthesis on the overall rate of DNA synthesis and on the rate of replication fork movement in mammalian cells. In order to test the validity of using [³H]thymidine incorporation as a measure of the overall rate of DNA synthesis during inhibition of protein synthesis, we have directly measured the size and specific radioactivity of the cells' [³H]dTTP pool. In three different mammalian cell lines (mouse L, Chinese hamster ovary, and HeLa) nearly complete inhibition of protein synthesis has little effect on pool size (±26%) and even less effect on its specific radioactivity (±11%). Thus [³H]thymidine incorporation can be used to measure accurately changes in rate of DNA synthesis resulting from inhibition of protein synthesis.Using the assay of [³H]thymidine incorporation to measure rate of DNA synthesis, and the assay of [¹⁴C]leucine or [¹⁴C]valine incorporation to measure rate of protein synthesis, we have found that eight different methods of inhibiting protein synthesis (cycloheximide, puromycin, emetine, pactamycin, 2,4-dinitrophenol, the amino acid analogs canavanine and 5-methyl tryptophan, and a temperature-sensitive leucyl-transfer tRNA synthetase) all cause reduction in rate of DNA synthesis in mouse L, Chinese hamster ovary, or HeLa cells within two hours to a fairly constant plateau level which is approximately the same as the inhibited rate of protein synthesis.We have used DNA fiber autoradiography to measure accurately the rate of replication fork movement. The rate of movement is reduced at every replication fork within 15 minutes after inhibiting protein synthesis. For the first 30 to 60 minutes after inhibiting protein synthesis, the decline in rate of fork movement (measured by fiber autoradiography) satisfactorily accounts for the decline in rate of DNA synthesis (measured by [³H]thymidine incorporation). At longer times after inhibiting protein synthesis, inhibition of fork movement rate does not entirely account for inhibition of overall DNA synthesis. Indirect measurements by us and direct measurements suggest that the additional inhibition is the result of decline in the frequency of initiation of new replicons.     

Analysis of metabolism of carcinogenic polycyclic hydrocarbons by position-sensing proportional counting of thin-layer chromatograms.

A procedure which combines thin-layer chromatography with position-sensing proportional counting has been developed for analyzing the metabolism of carcinogenic polycyclic aromatic hydrocarbons. The profiles of the metabolites of [³H]benzo(a)pyrene and 7,12-[12-¹⁴C]dimethylbenz(a)anthracene produced in cell culture were comparable when obtained by this procedure and by standard methods. However, position-sensing proportional counting allows simultaneous counting of all components of a sample within 10–20 min, and thereby permits the analysis of many hydrocarbon samples in a short time. In addition, the procedure eliminates the necessity of cutting or scraping carcinogen-containing thin-layer chromatograms.