Azaguanine-resistant mutants induced by several mutagens in a neurospora heterokaryon.

This paper reports the development of a new system for the detection of forward mutations in a heterokaryon of Neurospora crassa. This system, designed to detect a wide variety of genetic alterations, is based upon the detection of 8-azaguanine-resistant mutants in an adenine-requiring heterokaryon carrying the aza-3 gene. Induction of mutations in the aza-3 gene was detected after treatment of conidia with ultraviolet light, X-rays, ethyl methanesulfonate (EMS), or the acridine mustard, ICR-170. The pattern of appearance of mutant colonies and various factors in mutant selection are discussed.     

DNA excision in repair proficient and deficient human cells treated with a combination of ultraviolet radiation and acridine mustard (ICR-170) or 4-nitroquinoline 1-oxide

Excision repair was measured in normal human and xeroderma pigmentosum group C fibroblasts treated with ultraviolet radiation and the carcinogens acridine mustard (ICR-170) or 4-nitroquinoline 1-oxide (4NQO) by the techniques of unscheduled synthesis, photolysis of bromodeoxyuridine incorporated into parental DNA during repair, and assays of sites sensitive to ultraviolet (UV)-endonuclease. Doses of ICR-170 and 4NQO, low enough not to inhibit unscheduled DNA synthesis (UDS), caused damage to DNA that was repaired by a long patch type mechanism and the rates of UDS decreased rapidly in the first 12 h after treatment. Repair after a combined action of UV plus ICR-170 or UV plus 4NQO was additive in normal cells and no inhibition of loss of endonuclease sensitive sites was detected. In xeroderma pigmentosum (XP) C cells there was less repair after UV plus ICR-170 than after each treatment separately; whereas there was an additive effect after UV plus 4NQO and no inhibition of loss of endonuclease sensitive sites. The results indicate that in normal human fibroblasts there are different rate limiting steps for removal of chemical and physical damages from DNA and that XP cells have a different repair system for ICR-170, not just a lower level, than normal cells. Possibly the same long patch repair system works on 4NQO damage in both normal and XP cells.     

Chemically induced mutation of L5178Y mouse leukemia cells from asparagine-dependence to asparagine-independence

L₅₁₇8Y mouse lymphoblastic leukemia cells are auxotrophic for l-asparagine (ASN) and have been widely used as a model system for studies on l-asparagine independence, were treated with known chemical mutagens to investigate the molecular basis of this mutation. Mutagens which primarily induce base pair substitutions—ethyl methanesullfonate (EMS) and N-methyl-N′-nitro-N-nitrosoguanidine (MNNG)—as well as those which induce frame-shift mutations (the acridine half-mustards ICR-₃₇₂ and ICR-191) each increased the frequency of ASN⁺ cells in treated cultures to at least ten times the usual background frequency of 1 to 2 ASN⁺ cells per 10⁶ cells. The effectiveness of both classes of mutagens indicates that the change to asparagine prototrophy might occur by a mechanism other than, or in addition to, reversion of a specific base pair, point mutation. The mutability of this easily assayed nutritional genetic marker in a cell line that can be grown either in vitro or in vivo may provide a useful system for assay of other agents of unknown mutagenic potential.     

Repair of DNA damage after exposure to 4-nitroquinoline-1-oxide in heterokaryons derived from xeroderma pigmentosum cells

Xeroderma pigmentosum (XP) cells are dificient in the repair of damage induced by ultraviolet irradiation. Excision-repair-deficient XP cell strains have been classified into 7 distinct complementation groups, according to results of studies on cell fusion and UV irradiation. XP cells are not only abnormally sensitive to UV, but also to a variety of chemical carcinogens, including 4-nitroquinoline-1-oxide (4NQO). Complementation analysis with XP strains from 4 different complementation groups with respect to the repair of 4NQO-induced DNA damage revealed that the classification of the strains into complementation groups with respect to 4NQO-induced repair coincides with the classification based on the repair of UV damage.     

Characterization of chemically induced mutations in the ad-I locus of Schizosaccharomyces pombe

An attempt to assess the frequencies of mutations of the base-pair substitution type and of the addition/deletion type was undertaken in 64 ICR-170-, 28 MNNG- and 50 EMS-induced ad-1 mutant strains of Schizosaccharomyces pombe.By using temperature sensitivity, osmotic remediability, and interallelic complementation, sensitivity to nonsense suppressors and revertibility tests with 2-methoxy- 6-chloro-9-[3-(ethyl-2-chloroethyl)aminopropylamino]acridine dihydrochloride (ICR-170) and N-methyl-N′-nitro-N-nitrosoguanidine (MNNG) as diagnostic criteria to distinguish between the two types of alterations, the following conclusions were reached: (1) The mutational alteration in all of the MNNG-induced and in at least 74% of the ethyl methanesulfonate(EMS)-induced mutant strains is of the base-pair substitution type; (2) Both types of mutation were found amongst ICR-170-induced strains.     

Mutagenesis at the ad-3A and ad-3B loci in haploid UV-sensitive strains of Neurospora crassa. IV. Comparison of dose-response curves for MNNG, 4NQO and ICR-170 induced inactivation and mutation-induction

The genetic effects of MNNG, 4NQO and ICR-170 have been compared on 5 different UV-sensitive strains and a standard wild-type strain of Neurospora crassa with regard to inactivation and the induction of forward-mutations at the ad-3A and ad-3B loci. Whereas all UV-sensitive strains (upr-1, uvs-2, uvs-3, uvs-5 and uvs-6) are more sensitive to inactivation by MNNG and ICR-170 than wild-type, only uvs-5 shows survival comparable to wild-type after 4NQO treatment, all other strains are more sensitive to 4NQO. In contrast to the effects on inactivation, a wide variety of effects were found for the induction of ad-3A and ad-3B mutations: higher forward-mutation frequencies than were found in wild-type were obtained after treatment with MNNG or 4NQO for upr-1 and uvs-2, no significant increase over the spontaneous mutation frequency was found with uvs-3 after MNNG, 4NQO or ICR-170 treatment; mutation frequencies comparable to that found in wild-type were obtained with uvs-6 after MNNG, 4NQO or ICR-170 treatment and with upr-1 after ICR-170 treatment. Lower forward-mutation frequencies than were found in wild-type were obtained with uvs-2 after ICR-170 treatment and with uvs-5 after MNNG, 4NQO or ICR-170 treatment. These data clearly show that the process of forward-mutation at the ad-3A and ad-3B loci is under genetic control by mutations at other loci (e.g. upr-1, uvs-2, uvs-3, uvs-5 and uvs-6) and that the effect is markedly mutagen-dependent.     

Genetic studies of the lac repressor. III. Additional correlation of mutational sites with specific amino acid residues

The complete results of the analysis of over 5300 independently derived nonsense mutations in the lacI gene are presented. These have been mapped and divided into specific sites. A total of 105 nonsense mutations derived from 90 different codons can be distinguished, of which several are the result of tandem double base changes induced by ultraviolet light. With the aid of results determined in a preceding paper (Miller et al., 1977), the majority of these mutations have been assigned to points in the gene coding for specific residues in the lac repressor. This allows a detailed correlation of the physical and genetic map.Recombination studies have been carried out using mutations at known sites. For crosses involving mutations separated by less than 30 nucleotides (the main object of this study), a significant lack of agreement between distance and recombination frequency has been found.     

Influence of N2 or O2 on two alkylating agents in Neurospora crassa.

Previous studies have indicated that the alkylating agent, 2-methoxy-6-chloro-9-(3-[ethyl-2-chloroethyl]aminopropylamino)acridine dihydrochloride (ICR-170), induces much more killing and mutation in conidia of Neurospora crassa treated in an atmosphere of N2 than in an atmosphere of O2. It was desirable to determine if a similar effect--more killing and mutation in N2 than in O2--could be observed with two other known alkylating agents, beta-propiolactone (BPL) and ethyl methanesulfonate (EMS), in the same test system. Conidia of a heterokaryotic strain of N. crassa were bubbled with N2 or O2 during treatment with BPL or EMS. Forward-mutation was measured in the ad-3 region by a direct method. The results indicate that N2 or O2 do not influence the lethal and mutagenic activities of BPL or EMS during treatment of conidia. Hence the influence of N2 or O2 on the lethal and mutagenic activites of ICR-170 is different from the influence of these gases on BPL or EMS using the ad-3 test system in N. crassa.     

Effect of N2 on the mutagenic and lethal activities of ICR-170 in Neurospora crassa

The nature of the N₂ effect for ICR-170, i.e., the greater mutagenic and lethal activities of this agent in the presence of N₂ than O₂, has been studied at the ad-3 region of Neurospora crassa. The characteristics of the N₂ effect for ICR-170 were that (1) the N₂ effect with ICR-170 was displayed in conidia when N₂ was administered during, but not before or after, ICR-170 treatment, (2) the highly increased mutagenic and lethal activities of ICR-170 in the presence of N₂ were due to an anoxic condition rather than to the presence of N₂ per se, (3) the high killing activity of ICR-170 under N₂ was due largely to increased cytoplasmic inactivation, (4) the N₂ effect was a general phenomenon at the ad-3 region of N. crassa, and (5) the highly ICR-170-induced mutation in conidia under N₂ was attributable to an actual enhancement in the mutagenic activity of ICR-170 rather than to selective killing. With regard to the mechanisms of the N₂ effect with ICR-170, results indicate that this effect (1) was not due to more extracellular oxidative degradation of ICR-170 molecules in the presence of O₂, or to a greater uptake of ICR-170 by conidia under N₂, but (2) was due to the inhibition of conidial respiration under an anoxic environment.     

Induced reversion of a Chinese hamster ovary triple auxotroph. Validation of the system with several mutagens

A Chinese hamster ovary triple auxotroph (CHO AUXB1) requires glycine, adenosine, and thymidine (GAT) for growth and survival due to a defect in the structural gene for folylpolyglutamate synthetase (FPGS). This auxotroph and others like it contain less than 3% of the parental amounts of FPGS activity. In order to develop a reverse mutation assay with CHO AUXB1, we determined the optimal conditions for measuring reversion and characterized some of the revertants. We also obtained quantitative mutagenicity data for several direct-acting mutagens for comparison to the parental CHO-S/HGPRT locus. Induced revertants appear in the culture immediately following 20-22 h exposures in +GAT complete medium, indicative of dominant genetic changes. They are maximally expressed after 2 population doublings and can be conveniently selected after 44-48 h of expression growth by plating 1 X 10(6) cells/100-mm dish into -GAT-deficient medium and incubating 12-13 days. Plating reconstruction experiments show that the cloning efficiencies of revertants in -GAT medium are not influenced by the presence of up to 1 X 10(6) CHO AUXB1 cells. Dose-dependent increases above the spontaneous revertant frequency (average = 5 X 10(7)) are induced with cis-Pt(NH3)2Cl2 (14-fold) (but not trans-Pt(NH3)2Cl2), PtCl4(10-fold), Pt(SO4)2 (14-fold), K2CrO4 (8-fold), EMS (10-fold), 4-NQO (53-fold), ICR-191 (60-fold), and ICR-170 (30-fold). All of the revertants that have been isolated are stable to repeated subculturing in -GAT medium; 40 out of 42 that have been analyzed are characterized by an increased 72-h growth incorporation of labeled folate and their extracts contain 5-94% as much FPGS as the original, parental CHO-S line. Spontaneous and induced reversion to the GAT+ phenotype primarily reflects mutations involving the FPGS gene locus. But the re-acquisition by most of the revertants of much less than normal amounts of FPGS activity suggests that they arise from compensatory second-site mutations within this gene. Comparison of the mutagenicity patterns of the foregoing compounds as a function of the applied concentration and the relative percent survival reveals some interesting similarities, as well as differences, between the CHO AUXB1/FPGS and CHO-S/HGPRT loci. In particular, the FPGS locus is rather insensitive to EMS (or other simple alkylating agents). However, it seems to be quite susceptible to reversion by other chemicals that are known to react selectively with guanine bases in DNA. CHO AUXBI is a useful supplemental mammalian assay system for assessing quantitatively the generally weak mutagenic activities of metal compounds.     

The induction of thymidine- and IUdR-resistant variants in P388 mouse lymphoma cells by x-rays, UV and mono- and bi-functional alkylating agents

Dose-response curves for “mutation” to resistance to 5-iodo-2-deoxyuridine (IUdR) and excess thymidine (TdR) in P388 mouse lymphoma cells have been established after exposure of these cells to six chemical mutagens, UV |and| ionising radiations. The dose-response curves for all mutagens in both selective system show considerable similarities when induced mutation frequencies are plotted against survival. Expression time for both types of variants, IUdR^r and TdR^r, are similar, i.e. maximum frequencies are reached by 48 h and there is no fall in variant frequency at late expression times up to 144 h. Over the range of survival levels studied there appears to be little or no dependence of expression time on dose of mutagen. Some loss of mutants after high doses (i.e. at low survival levels) was observed due to the fact that a significant proportion of both TdR^r and IUdR^r clones were more sensitive to the mutagens than the wild-type population. The similarities in induced dose-response curves for different mutagens suggest that the mutants have a common origin, probably an error in repair, but it seems unlikely that errors in “cut and patch” repair are responsible. A comparison of spontaneous frequencies of IUdR^r and TdR^r variants suggests that IUdR is mutagenic in P388 cells.     

Mammalian cell genetics. 3. Characterization of x-ray-induced forward mutations in Chinese hamster cell cultures

X-irradiation induces forward mutations from 8-azaguanine sensitvity to resistance in Chinese hamster cells in culture. At this locus the number of induced mutations increases non-linearly with X-ray exposure. The mutation rate increase from 4.2·10⁻⁷ per locus per R with 200 R to 1.8·10⁻⁶ per locus per R with 1200 R. Several factors including cell density markedly influence the mutational yield. Reversion tests using specific chemical mutagens on 72 randomly isolated, azaguanine-resistant mutants suggest that both point mutations and chromosome deletions might have occurred in the hamster cells after exposure to ionizing radiation.