J.A. Zijlstra

The occurrence of cytochrome P-450 and aryl hydrocarbon hydroxylase activity in Drosophila melanogaster microsomes, and the importance of this metabolizing capacity for the screening of carcinogenic and mutagenic properties of foreign compounds.

Abstract The presence of cytochrome P-450 and aryl hydrocarbon hydroxylase activity in microsomes prepared from three strains of Drosophila melanogaster was investigated. The first microsomal preparations, for which mortar pounding was used to homogenize the insects, indicated the occurrence of cytochrome P-450, as concluded from carbon monoxide difference spectra, exhibiting an absorbance maximum at 452 nm. As the reproducibility of the mortar procedure was irregular, a new homogenization procedure was developed, using glass marbles. This method led to a better reproducibility and an increase in the quality of the carbon monoxide difference spectra. An empirical correction by a computer was used for analysis of the spectra. Aryl hydrocarbon hydroxylase activity, one of the expressions of the mixed function oxidase system mediated by cytochrome P-450, was studied by using benzo(a)pyrene as substrate and measuring enzymically produced 3-hydroxy-benzo(a)pyrene. The observed activity was NADPH dependent and was absent (i) when NADH was given as cofactor, (ii) when the microsomes were destroyed by boiling, and (iii) when they were deteriorated by treatment with deoxycholate. These findings provide the basis for further investigations, by which a better understanding of the metabolizing capacity of Drosophila can make this species even more meaningful for the screening of pre-carcinogens and indirectly acting mutagens.

Strain-differences and inducibility of microsomal oxidative enzymes in Drosophila melanogaster flies

Some basic characteristics of the enzyme system involved in the oxidative metabolism of xenobiotic compounds were investigated in Drosophila melanogaster flies. Attention was focussed on (1) the normal levels of these enzymes and their activities in whole flies, in different parts of the flys body and in different sexes, (2) the changes in levels and activities of the enzymes elicited by pretreatment of the flies with known enzyme inducers and (3) differences between strains. Four commonly used wild-type (WT) strains, three insecticide resistant strains (IR) and one white-eyed mutant strain were employed. Except in those experiments on sex differences and in spatial distribution in the flys body of the enzymatic activities, microsomes were isolated from whole-body homogenates of mixtures of female and male flies. Microsomal cytochrome P-450, benzo[a]pyrene (BP) hydroxylation, p-nitroanisole (pNA) demethylation and aminopyrine (AP) demethylation were measured in control flies and in flies pretreated with Aroclor 1254 (AC), phenobarbital (PB) or butylated hydroxytoluene (BHT). In flies of the WT strain Berlin-K, there were no significant differences in BP hydroxylation activity and its inducibility between the two sexes. In males, inducibility of BP hydroxylation activity was similar in the head, thorax and abdomen, but significantly lower in testis. Considerable differences in some enzyme activities were found between the strains. pNA demethylation and AP demethylation were substantially higher in all IR strains, while no correlation could be found between their increased insecticide resistance and BP hydroxylating capacity or cytochrome P-450 content of the microsomes. Response to enzyme inducing compounds was found to be strain-dependent. PB proved to be a more efficient inducer of BP hydroxylation than AC, which does induce pNA demethylation. BHT has inducing properties that are intermediate between PB and AC. IR strain Hikone-R turned out to be an exception, possessing very low BP hydroxylating capacity and a low degree of inducibility of mixed-function oxidase activities. Differential temperature dependence was found for BP hydroxylation as compared with pNA demethylation. While BP hydroxylation was doubled when raising the temperature from 25 degrees C to 35 degrees C, pNA demethylation was reduced by 50%.

Mutagenic activity of selected aromatic amines and polycyclic hydrocarbons in Drosophila melanogaster

With the use of a series of wild-type and repair-deficient strains and appropriate application procedures, it is possible to demonstrate that carcinogenic aromatic amines and polycyclic hydrocarbons are mutagens in Drosophila. We have shown evidence that AAF, N-OH-AAF, AcO-AAF, BP, DAS and DMBA produce recessive lethals when fed to or injected into adult males. Mutagenic activity was also observed when male larvae were exposed to AAF, BP, DMBA, 3-MC or NA. DA was not mutagenic in the recessive lethal assay under the conditions of the test. DMBA can now be considered as a potent mutagen for Drosophila, although demonstration of its activity depends upon the choice of the treatment procedure and the strain selected. One of the questions concerning the action of aromatic amines and polycyclic hydrocarbons is how their genetic effectiveness in Drosophila can be enhanced. The observation that none of several enzyme inducers (PB, BF, AC, 3-MC) increased their mutagenicity may be interpreted in terms of a more efficient metabolic activation or deactivation. This assumes that active metabolite(s) did not reach the testis in doses sufficient for mutation induction. It also appears that, since the problems pertaining to mutagenicity in Drosophila of aromatic hydrocarbons are obviously a matter of metabolism, the use of repair-deficient strains is no longer an attractive proposal for their elucidation. The present investigation shows that, with weak mutagens, usage of strains mei-9Li or y mei-9a mei-4lD5 does not improve the sensitivity of the recessive lethal method or the test for chromosomal loss. As an alternative, in our opinion more attention should be devoted to possible differences in metabolism between somatic and gonadal tissue. We feel strongly that somatic assay systems might be particularly valuable as a complement to recessive lethal tests on the germ line.

Mutagenicity of 7,12-dimethyl[a]anthracene and some other aromatic mutagens in Drosophila melanogaster

The optimal conditions for mutagenesis studies with DMBA and some other aromatic carcinogens in Drosophila were investigated in detail. The results presented in this paper indicate the following. The mutagenic effectiveness of DMBA is dependent on the route of administration, injection being far more effective when compared with feeding. The choice of the solvent is a crucial experimental condition. DMBA, when dissolved in oil/DMF, is ineffective whereas a special fat emulsion of DMBA gives high mutation frequencies. There appears to be an extreme strain dependence in the mutagenicity of DMBA. Mutagenic effectiveness in strain Berlin-K was rather low, whereas Oregon-K and Karsnäs-60 proved to be very susceptible to DMBA. Under the conditions of test, DMBA did not induce loss of a ring-X chromosome and did not produce recessive lethal mutations in such a chromosome. DMBA did not produce 2-3 translocations to any significant extent. An increase in DMBA-induced recessive lethal mutations was found upon storage of treated sperm with an optimal storage time of 4-10 days. DMBA is efficient in the production of delayed recessive lethal mutations in strain Berlin-K. Twice as many lethals were recovered with the F3 generation as compared with those in F2. In strain Oregon-K, where the frequency of F2 lethals was much higher than in strain Berlin-K, the ratio of F3/F2 lethals was clearly lower. Enzyme induction with phenobarbital reduces the mutagenic effectiveness of DMBA. Whereas TMBA was not mutagenic in Berlin-K, considerable mutagenicity was observed in Oregon-K and Karsnäs-60. Injection of carcinogenic polycyclic aromatic hydrocarbons and aromatic amines, when dissolved in special fat emulsions, enhances the mutagenic effectiveness of some compounds (DMBA, TMBA, DA and AcO-AAF), but this procedure does not always solve the problems pertinent to these classes of promutagens in Drosophila.

Somatic cell mutagenicity in Drosophila melanogaster in comparison with genetic damage in early germ-cell stages.

With the intention of assessing the general performance, sensitivity and the underlying mechanisms of somatic cell mutagenicity assays in Drosophila, a study was undertaken to compare the effectiveness of 5 procarcinogens and 4 direct-acting agents in the white/white-coral eye mosaic assay (SMART) with their activity in early (premeiotic) male and female germ-cell stages, after exposure of Drosophila larvae. The outcome indicated a lack of agreement in the results from recessive lethal assays (SLRL) in comparison with the somatic mutation and recombination test (SMART). The procarcinogens 2-naphthylamine (NA), 3-methylcholanthrene (MC), 9,10-dimethylanthracene (DA) and 7,12-dimethylbenz[a]anthracene (DMBA), and the direct-acting mutagens bleomycin (BM), methyl methanesulfonate (MMS) and ethyl methanesulfonate (EMS), were quite efficient in producing somatic recombination and mutations in white/white-coral larvae, as opposed to only weak effects in early germ-cell stages. 2-Acetylaminofluorene (2AAF) showed marginal effects in both germ cells and somatic tissue after exposure of female larvae, but was inactive in testis. The discrepancy in mutational response between somatic cells and premeiotic germ cells is most impressive for MMS and BM. There is sufficient evidence for attributing a good sized proportion of the encountered variation to efficient error-free DNA repair of premutational damage and to segregational elimination during meiosis of deleterious mutations: (1) The efficient point mutagen ENU was the but one agent producing high levels of viable genetic alterations in early germ cells and in somatic cells. A similar behaviour was previously described for diethylnitrosamine, which ethylates DNA in the same fashion as ENU. (2) In early germ-cell stages of mei-9L1 male larvae, MMS induced multiple mutations (putative clusters) at a low dose differing by a factor 20-40 from those needed to produce an equivalent response in repair-competent strains. This is consistent with the concept of an active excision repair in premeiotic cells. (3) In the case of EMS, next to DNA repair, germinal selection seems to restrict the realization of EMS-induced genetic damage in premeiotic cells. (4) Bleomycin-induced chromosome aberrations caused high mortality rates in males (hemizygous for an X-chromosome) but not in females. MMS and BM, agents known to show preference for chromosome aberration induction, produced 3-6-fold higher rates of somatic mutational events (SME) in female genotypes as compared with the other sex.(ABSTRACT TRUNCATED AT 400 WORDS)

Analysis of hexamethylphosphoramide (HMPA)-induced genetic alterations in relation to DNA damage and DNA repair in Drosophila melanogaster

This paper reports the results of a study on the mutagenic profile of HMPA in Drosophila melanogaster. HMPA produced all types of genetic damage tested for in post-meiotic cells of treated males; at the concentrations used, recessive lethals and ring-X losses were induced at significant rates while 2-3 translocations, entire and partial Y-chromosome losses only occurred at low rates. From a comparison with alkylation-induced mutational spectra, we note a number of peculiarities of HMPA mutagenesis: there is no storage effect on HMPA-induced translocations; the ratio of F2-lethals: F3-lethals varies from 6:1 to 9:1, indicating a low capacity of HMPA for delayed mutations; the use of the DNA-repair-deficient mei-9L1 females instead of an excision-proficient control strain has no influence on the recovery of mutations (recessive lethals) induced in males; the high frequencies of chromosome loss (CL) induced by HMPA, which are mostly due to ring-X loss, leads us to speculate that one (or more) of its metabolites acts as a DNA-crosslinking agent. In experiments on maternal effects with mei-9LI females, there is a 20-40% reduction in the rates of induced CL. Conversely, with mei-41D5 females, there is a weak increase in CL frequencies. HPLC analysis of DNA reacted with [14C]HMPA exhibits no methylation at the O6 or the N-7 of guanine. This finding, together with the observed inactivity of hexaethylphosphoramide (HEPA) in the recessive lethal assay, suggests that the formation of DNA-bound forms from HMPA may not be the result of simple methylation reactions. This conclusion is supported by the genetic data, i.e., the lack of a storage effect on HMPA-induced chromosome rearrangements. Consistent with a hypothesis by Brodberg et al. (1983) to explain the action of cisplatin in Drosophila, comparisons of the spectra of genetic alterations produced by HMPA, A 139 (bifunctional) and Thio-TEPA (trifunctional) in the assay for chromosome loss suggest the involvement of two distinct mechanisms in the formation of ring-X loss by crosslinking agents. One pathway concerns induction of chromosome loss as a consequence of sister-chromatid exchanges (SCEs). The second mechanism may be due to DNA adducts or a single adduct responsible for both a fraction of CL and for induced partial Y-loss (PL). Inactivation of the mei-9+ function has two consequences: SCE-mediated ring-X loss frequency is lowered in mei-9 females in comparison to the repair-proficient control strain, while the opposite effect is indicated for that fraction of ring-X loss generated by the second mutational pathway.(ABSTRACT TRUNCATED AT 400 WORDS)

Influence of inhibition of the metabolic activation on the mutagenicity of some nitrosamines, triazenes, hydrazines and seniciphylline in Drosophila melanogaster

It is determined to what extent certain inhibitors of the xenobiotic metabolizing enzyme systems have an influence on the mutagenicity of various pro-mutagens in Drosophila. 1-Phenylimidazole (PhI) is used as an inhibitor of the cytochrome P-450 (P-450) mediated monooxygenase activities. Iproniazid (Ipr) is a typical monoamine oxidase (MAO) inhibitor which as well seems capable of inhibiting to a certain extent P-450 mediated metabolism. N, N-Dimethyl benzylamine (N, N-DMB) is used as a competitive substrate for the N-oxidizing flavin-containing dimethylaniline monooxygenase (FDMAM). The enzyme-inhibiting activities of PhI and Ipr were determined in vitro using microsomes obtained from Drosophila larvae and adults. Both compounds were capable of inhibiting benzo[a]pyrene (BP) hydroxylation and p-nitroanisole (p-NA) demethylation, although for Ipr 100-fold higher concentrations were required compared to PhI. As model-mutagens were used: the nitrosamines dimethylnitrosamine (DMN) and diethylnitrosamine (DEN), the triazenes 1-(2,4,6-trichlorophenyl)-3,3-dimethyltriazene (Cl3PDMT), 1-(3-pyridyl)-3,3-dimethyltriazene (PyDMT) and dacarbazine (DTIC), the hydrazines procarbazine (PCZ), 1,1-dimethylhydrazine (1,1-DMH) and 1,2-dimethylhydrazine (1,2-DMH) as well as the pyrrolizidine alkaloid seniciphylline (SPh). Simultaneous or pretreatment with Ipr results in a clear decrease of the mutagenicity of Cl3PDMT, while PhI pretreatment leads to an increased mutagenicity. This indicates that these two inhibitors do not inhibit the same enzyme or isozyme. For SPh too, Ipr pretreatment results in some decrease of the mutagenicity. This is in contrast to DEN, where the activation is clearly inhibited by PhI while Ipr has only a minor effect. For DMN, DTIC and PCZ both Ipr and PhI pretreatment caused considerable decreases of the mutagenicity. Inhibition of the FDMAM catalyzed activity by N,N-DMB resulted in an increase of mutagenicity with Cl3PDMT, in a moderate decrease of mutagenicity with DTIC, and a marked decrease with DMN, which was strongly inhibited. In contrast to the clear-cut mutagenicity of PCZ, 1,1-DMH and 1,2-DMH are not mutagenic in Drosophila. No change was observed upon inhibition of the various metabolizing activities. Apart from using strain differences in metabolizing activities and enzyme induction, enzyme inhibition can also be used to determine the influence of metabolism on the in vivo mutagenicity of promutagens in Drosophila.

Biotransformation and Spectral Interaction of Xenobiotics with Subcellular Fractions from Drosophila Melanogaster

Several rapid bioassays are in use to detect, by means of mutagenicity, the formation of reactive metabolites from foreign compounds during their metabolism in the organism. Of these bioassays, the fruitfly Drosophila melanogaster was investigated with respect to its capacity to biotransform xenobiotics. By spectral analysis it was shown that in microsomal preparations of Drosophila the cytochromes P-450 and b5 are present. Microsomes appeared to possess aryl hydrocarbon hydroxylase and epoxide hydratase activities, while post-microsomal supernatants were able to conjugate appropriate compounds with glutathione and phosphate. As yet, glucosyl- and sulfotransferase activities can not be detected. The activities are compared to similar activities in rat liver.

Metabolic activation of selected aromatic amines and polycyclic hydrocarbons by isolated subcellular fractions of Drosophila melanogaster

The applicability of microsomal preparations from Drosophila melanogaster as the metabolic factor in the Salmonella mutagenicity assay with strains TA98 and TA100 was evaluated. Isolated cellular fractions (S27) from PB-pretreated flies activated N-acetyl-2-aminofluorene (2-AAF), N-hydroxy-N-acetyl-2-aminofluorene (N-OH-AAF), benzo[a]pyrene (BP), 9,10-dimethylanthracene (DA) and 2-naphthylamine (NA) into mutagenic metabolites. 7,-12-Dimethylbenz[a]anthracene (DMBA) was ineffective under the conditions of the test. This study was performed in an effort to determine optimal conditions for activating, by Drosophila enzymes, aromatic amines and polycyclic hydrocarbons, with 2-AAF and BP as model mutagens. The following alterations improved the sensitivity of this combined Salmonella/Drosophila assay. (1) Incubation of the plates at 25 degrees C for 1 night instead of permanent exposure at 37 degrees C. (2) Isolation of S27 fractions instead of the conventional S9, because 9000 X g was not sufficient to spin down Drosophila mitochondria.

Liquid holding increases mutation induction by formaldehyde and some other cross-linking agents in Escherichia coli K12

The induction by some cross-linking agents of forward mutations leading to nalidixic acid resistance in Escherichia coli K12/343/113 was considerably enhanced when a 24-h period of liquid holding was interpolated between treatment and growth phase. Liquid holding increased the mutagenic effectiveness of nor-nitrogen mustard (NNM) 28-fold, of phosphoramide mustard (PAM) 10-fold, and of tris-ethyleneimino)-phosphineoxide (TEPA), tris(chloroethyl)amine (TCEA) and chloroacetaldehyde (CAA) 3-fold, over the complete concentration range. By contrast, the activities of cisplatin (CDDP), transplatin (TDDP) and chloracetamide-N-metholol (CAM) were slightly decreased after liquid holding. Liquid holding did not measurably influence the mutagenicity of formaldehyde at low concentrations, whereas at higher concentrations an 8-fold increase was observed. As opposed to the considerable activity in the Uvr+ strain, formaldehyde was found not to be mutagenically active in an E. coli strain carrying a deletion of the uvrB gene.