The present study was designed to evaluate the effects of a series of natural coumarins on ethoxyresorufin O-dealkylase (EROD) and pentoxyresorufin O-dealkylase (PROD) activities in vitro using hepatic tissues from SENCAR mice. Fifteen different coumarins were examined for potential modulating activities. Several naturally occurring coumarins, found in the human diet, were effective inhibitors of hepatic EROD activity in vitro, including coriandrin, bergamottin, isoimperatorin, and ostruthin. Notably, coriandrin and bergamottin were approximately as potent as 7,8-benzoflavone, a relatively selective inhibitor of cytochrome P450 1A1. Several naturally occurring coumarins were also potent inhibitors of hepatic PROD activity, including imperatorin, bergamottin, isopimpinellin, and angelicin. Kinetic studies of the type of inhibition revealed that these compounds inhibited hepatic EROD and PROD activity by a variety of modes rather than by a uniform one. Furthermore, experiments using a two-stage incubation assay revealed that coriandrin, imperatorin, ostruthin, and several other natural coumarins inactivated hepatic EROD activity (i.e., predominantly cytochrome P450 1A1-mediated) and that isopimpinellin inactivated hepatic PROD activity (i.e., predominantly cytochrome P450 2B1-mediated). Finally, the results indicate that some coumarins had selective inhibitory effects for EROD vs PROD and preliminary analyses suggested a possible structural basis for the observed differences. The current data suggest that certain naturally occurring coumarins, to which humans are exposed in the diet, are potent modulators of cytochrome P450. Furthermore, these compounds may be capable of influencing the metabolic activation of other xenobiotics, including chemical carcinogens.
The formation of deoxyribonucleoside adducts in mouse epidermis has been examined following topical application of [3H]dibenz[a,j]anthracene (DB[a,j]A) or by 32P-postlabeling following topical application of unlabeled DB[a,j]A, DB[a,j]A trans-3,4-diol or the anti- or syn-3,4-diol 1,2-epoxides. A single topical application of [3H]DB[a,j]A at a dose of 400 nmol per mouse led to the formation of 11 detectable covalent DNA adducts. Seven of these DNA adducts were tentatively identified based on cochromatography with marker adducts using high-pressure liquid chromatography (HPLC). The presence of both deoxyguanosine (dGuo) as well as deoxyadenosine (dAdo) adducts formed from bay-region anti- and syn-3,4-diol 1,2-epoxides of DB[a,j]A was revealed. The major bay-region diol epoxide DNA adduct formed in mouse epidermis following topical application of [3H]DB[a,j]A was tentatively identified as the (4R,3S)-diol (2S,1R)-epoxide bound through trans addition of the exocyclic amino group of dGuo, although substantial amounts of the corresponding dAdo adduct were also detected. In addition, a K-region 5,6-oxide-dAdo adduct was tentatively identified in HPLC chromatograms based on cochromatography with an authentic marker adduct. 32P-Postlabeling analysis of DB[a,j]A-DNA adducts formed in mouse epidermis after topical application of unlabeled compound confirmed the presence of bay-region diol epoxide DNA adducts similar to those observed after application of [3H]DB[a,j]A. However, 32P-postlabeling analysis also revealed the presence of more polar covalent DNA adducts in epidermal DNA samples from DB[a,j]A-treated mice. These more polar DNA adducts represented a significant proportion of the 32P-labeled material recovered in HPLC chromatograms. While the exact nature of these adducts remains unknown at present, they had retention times identical to polar DNA adducts formed following topical application of DB[a,j]A trans-3,4-diol and may represent bis-dihydrodiol epoxide DNA adducts. The present results indicate that a rather broad spectrum of DNA adducts arises following topical application of DB[a,j]A to mouse epidermis.
Structural characterizations of the DNA adducts derived from reaction of the racemic bay region anti-diol epoxides of dibenz[a,j]anthracene and 7-methyldibenz[a,j]anthracene with calf thymus DNA are presented. Quantities of adducts necessary for spectroscopic characterization were obtained from reactions of the respective diol epoxides with individual deoxyribonucleotides. Both hydrocarbon diol epoxides showed similar adduct profiles upon reaction with calf thymus DNA in vitro which were composed mainly of three deoxyguanosine and four deoxyadenosine adducts. No significant modification of pyrimidine bases in DNA was detected with either of the diol epoxides. Approximately 3 times more deoxyguanosine than deoxyadenosine residues in the DNA were found to be modified by both diol epoxides. The DNA reactions showed very similar stereo- and enantioselectivities with both diol epoxides. The stereochemistries of addition of the purine bases to the diol epoxides were determined from analysis of the NMR spectra of individual adducts. The predominant adducts formed were products of trans addition of the exocyclic amino group of purines to the diol epoxides. The enantiomeric nature of the various adducts was determined from reaction of the individual deoxyribonucleotides with the pure (+)-anti-diol epoxide of dibenz[a,j]anthracene. The major deoxyguanosine and deoxyadenosine adducts from reactions with DNA were found to arise from the (+)-enantiomer of both hydrocarbon diol epoxides. The high reactivities of both diol epoxides (24-38%) with DNA in solution are consistent with the high tumor-initiating activity exhibited by the diol epoxide of dibenz[a,j]anthracene relative to the parent hydrocarbon.
Identification of various deoxyribonucleoside adducts formed in primary cultures of mouse keratinocytes exposed to dibenz[a,j]anthracene (DB[a,j]A) is presented. A preliminary analysis of the DNA adducts formed from 7-methyldibenz[a,j]anthracene (7MeDB[a,j]A) also is presented. Cultures of keratinocytes obtained from dorsal skins of female SENCAR mice were exposed to 0.5 microgram of tritium-labeled hydrocarbons/mL of medium for 24 h. The total DNA binding was 2.23 +/- 0.54 and 5.28 +/- 0.97 pmol of hydrocarbon/mg of DNA for DB[a,j]A and 7MeDB[a,j]A, respectively. These binding values represented the radioactivity associated with the modified deoxyribonucleosides separated from the normal deoxyribonucleosides on Sephadex LH-20 columns following enzymatic digestion of isolated DNA. Treatment of keratinocytes with DB[a,j]A produced adduct peaks corresponding to marker adducts derived from trans addition of both deoxyguanosine as well as deoxyadenosine residues to the (+) enantiomer of the anti-diol epoxide where the deoxyadenosine adducts were predominant. In addition, DNA adduct peaks corresponding to markers of trans and cis addition, respectively, of deoxyguanosine and deoxyadenosine to the (+)-syn-diol epoxide were also noted in these chromatograms. A major DNA adduct in cells exposed to DB[a,j]A was tentatively identified as resulting from the addition of deoxyadenosine to DB[a,j]A-5,6-oxide. Several other later eluting DNA adduct peaks, not corresponding to any of the marker adducts, were also present in these chromatograms. In comparison, when cells were exposed to the more biologically potent 7-methyl analogue, at least 12 DNA adduct peaks were consistently observed in HPLC chromatograms.(ABSTRACT TRUNCATED AT 250 WORDS)
Synthesis of trans- and cis-tetrahydrodipyrazino[1,2-a:1',2'-d] pyrazine-1,3,7,9(2H,4H,8H,10H)-tetrone analogues 10 and 11 belonging to the bis(dioxopiperazine) class of antitumor agents and their bis(morpholinomethyl) derivatives 12 and 13 are described with use of 2,5-dimethylpyrazine as the starting material. Synthetic studies utilizing 3,6-disubstituted 2,5-dioxopiperazine precursors are included. Evaluation of 10-13 in the Lewis Lung carcinoma model indicated the bis(morpholinomethyl) analogue cis-13 to be antimetastatic, whereas the trans isomer 12 was toxic at a similar dose effecting a decrease in the life span of treated mice. The parent bis(dioxopiperazines) 10 and 11 were ineffective as antitumor or antimetastatic drugs.
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