Triethylenemelamine: induction of specific-locus mutations in the ad-3 region of heterokaryon 12 of Neurospora crassa.

The mutagenicity of the trifunctional alkylating (or cross-linking) agent TEM (triethylenemelamine or 2,4,6-tris(1-aziridinyl)-1,3,5-triazine) in the adenine-3 (ad-3) region was studied with a two-component heterokaryon (H-12) of Neurospora crassa. The objective was to characterize the genetic damage produced by this chemical to determine the spectrum of specific-locus mutations induced in a lower eukaryotic organism and to compare this spectrum with that induced in the mouse. Specific-locus mutations in the ad-3 region of strain H-12 result from gene/point mutations, multiple-locus mutations, and multilocus deletion mutations at the closely linked ad-3A and ad-3B loci. These loci control two sequential biochemical reactions in the purine biosynthetic pathway. A 0.1 M solution of TEM was used to treat conidial suspensions of H-12 for 20, 40, 80, 120, or 170 min to obtain dose-response curves for (1) inactivation of conidia, and (2) the induction of specific-locus mutations in the ad-3 region. These experiments demonstrated that TEM is a strong mutagen (maximum forward-mutation frequency between 100 and 1000 ad-3 mutations per 10(6) survivors) for the induction of specific-locus mutations in the ad-3 region. Both biochemical and classical genetic tests were used to characterize the TEM-induced ad-3 mutations from each of the five treatment groups to distinguish between the different genotypic classes and subclasses. The overall data base from these genetic studies demonstrates that TEM-induced ad-3 mutations result predominantly (95.5% [769/805]) from gene/point mutations at the ad-3A and ad-3B loci, and from a low percentage (4.5% [36/805) of multilocus deletion mutations. In addition, TEM induces an unusually high frequency of multiple-locus mutations with sites of recessive lethal damage closely linked with the ad-3 region. Comparison of the dose-response curves for the major classes and subclasses of TEM-induced ad-3 mutations demonstrates (1) that gene/point mutations and multilocus deletion mutations increase as the 1.4 power of TEM treatment time, and (2) that the two classes of TEM-induced multiple-locus ad-3 mutations consisting of gene/point mutations with separate sites of recessive lethal damage increase at about the 1.96 power of TEM treatment time. When the data from the present specific-locus studies are compared with those in the mouse, we find, insofar as such comparisons are possible, that a similar spectrum of specific-locus mutations has been induced by TEM in each assay system.

Further flow cytometric studies of the effects of triethylenemelamine on somatic and testicular tissues of the rat.

Exposure to the mutagen triethylenemelamine on rat bone marrow, blood, and testis was studied using flow cytometry of DAPI-stained nuclei. Increased coefficients of variation (CVs) of the G1 peaks were observed in bone marrow and blood after both 1 d and 5 d exposures. After 5 d exposure and 7 d recovery both tissues had recovered, in some cases to significantly lower CVs. Increased CVs of the 1C peak of testis were observed only after 5 d exposure to the high dose with no subsequently observed recovery. Bone marrow cells also were stained with Hoechst 33258 and Propidium Iodide. No differences among dyes were observed indicating that increased CVs likely are due to DNA damage resulting from interactions with the mutagen rather than differences in how the dyes bind to DNA relative to mutagen binding. This study demonstrates that differences occur among tissues in how quickly they respond and recover from mutagen exposure. Increased CVs, cell cycle alterations, and decreased CVs after recovery are all potentially useful biomarkers of effect for laboratory and field studies in environmental toxicology.

Flow-cytometric analysis of the effects of triethylenemelamine on somatic and testicular tissues of the rat.

The effects of short-term (24 h) exposure to triethylenemelamine on cellular DNA in five tissues (bone marrow, spleen, kidney, large intestine, and testis) of the rat were studied using flow cytometry. Mean coefficients of variation of the G1 peaks were increased in both the low and high dosage groups relative to controls. Bone marrow exhibited the highest degree of effect, possibly due to the rapid rate of cell division in that tissue, and spleen was next highest. Thus, hematopoietic tissues are highly responsive to short-term, acute exposure to this mutagen. The results of the flow-cytometry assay closely paralleled a simultaneous chromosomal assay conducted on bone marrow of the same rats. These data are interpreted to be consistent with the hypothesis that the observed increase in mean coefficients of variation is due to the clastogenic effects of the mutagen and subsequent unequal distribution of DNA among the daughters of affected cells.

Comparison of single/multiple-dose protocols using triethylenemelamine and procarbazine hydrochloride for the mouse bone marrow micronucleus test.

Treatment of mice with a single dose of either 4.8 mg/kg of triethylenemelamine (TEM) or 348 mg/kg of procarbazine hydrochloride (PC) induced higher frequencies of micronucleated polychromatic erythrocytes (MPE) after 48 h than after 24 h. The same observation was made when animals were treated with 1.6 or 8 mg/kg of TEM or 116 or 580 mg/kg of PC for 2 consecutive days (double-dose protocol). Surprisingly, the third dose of either 1.6 or 8 mg/kg of TEM caused lower MPE frequencies at the 72-h than at the 48-h sampling time. The observation that lower MPE frequencies after 72 h were also accompanied by reduced bone marrow toxicity might have reflected a drug-related adaptive reaction of the animals, for example the induction of detoxifying enzymes. Mean MPE frequencies as well as bone marrow toxicity were also slightly decreased after the third dose of either 116 or 580 mg/kg of PC, but statistical analysis showed no differences between the 48-h and the 72-h sampling times as regards the MPE frequencies and bone marrow toxicity. In addition to the high mean MPE frequency observed after 2 doses of 116 mg/kg of PC at the 48-h sampling time, a late increase in micronucleus induction was also seen after triple dosing at the 96-h sampling time. The present experiments with TEM and PC showed similar sensitivity for the multiple-dose assays when compared with the single-dose micronucleus test. In the case of the triple-dose assay, bone marrow toxicity proved to be a critical factor for appropriate dose selection. The computerized image analysis system was a convenient and time-saving tool for the automatic scoring of large quantities of cells for micronuclei as well as for the evaluation of bone marrow depression from the entire cell population analyzed for micronuclei.

Adaptive resistance of Saccharomyces cerevisiae to chronic treatment with mutagens being due to a dominant mutation.

The exposure of mammalian cells or tumors for weeks or months to low non-lethal doses of cytostatic drugs may induce multi-drug resistance, which can be enhanced by a variety of DNA-damaging agents. In yeast multi-drug resistance to a variety of drugs has been observed. DNA-damaging agents have not yet been tested. As the appearance of resistance is the result of long-term exposure, we decided to extend the application of test substances to a period of up to 400 days. In such long-term experiments S. cerevisiae MP1 adapted to treatment with low doses of mutagens. Consistent results were obtained for both alkylating and non-alkylating mutagenic substances. Furthermore, the adaptive resistance to the alkylating agent also adapted cells to the non-alkylating agent, which implies that there may be a single pathway for mutagens with different modes of action. Random spore analysis of adapted yeast cells and the back-cross to the parental wild type indicates that a single dominant mutation is responsible for the adaptive resistance.

Long-term effects of triethylenemelamine exposure on mouse testis cells and sperm chromatin structure assayed by flow cytometry.

The toxic and potentially mutagenic actions of triethylenemelamine (TEM) on mouse body and testis weights, testicular cell kinetics, sperm production, sperm head morphology, and sperm chromatin structure were assessed in two experiments. The first experiment examined effects of four dose levels of TEM, assayed 1, 4, and 10 wk after toxic exposure. In the second study, effects from five dosage levels were measured at 1, 4, and 10 wk, and the highest dosage level was evaluated over 44 wk. TEM produced an expected dose related loss of spermatogenic activity and subsequent recovery as determined by dual-parameter (DNA, RNA) flow cytometry (FCM) measurements of testicular cells. Both testicular weights and caudal sperm reserves remained generally below controls after 44 wk recovery following exposure to the highest (1.0 mg/kg daily x 5) dosage. Chromatin structure alterations, defined as increased susceptibility to DNA denaturation in situ, and sperm head morphology were highly correlated (.87-.93, P less than .001) with dose and with each other. Data obtained from the sperm chromatin structure essay (SCSA) on fresh sperm was highly correlated with measurements of aliquots of the same sample collected over 44 wk, frozen, and then measured on the same day. Sperm head morphology and sperm chromatin structure remained abnormal at 44 wk for the 1.0 mg/kg TEM dosage, suggesting that the abnormalities, present long after the initial toxic response, may be a result of mutation. This study demonstrates that flow cytometry provides a unique, rapid, and efficient means to measure effects of reproductive toxins and potential mutagens.

Heat shock protection against induction of chromatid aberrations is dependent on the time span between heat shock and clastogen treatment of Vicia faba root tip meristem cells.

Variation of the time span between heat shock (hs) and clastogen treatment of V. faba root tip meristems showed that hs protection is a very quick response (effective after less than 10 min) and lasting for up to 240 min in the case of induction of chromatid aberrations by maleic hydrazide (MH). Analogous protective responses are significantly slower and shorter when TEM is used for aberration induction. This, together with absence of 'clastogenic cross-adaptation' to these agents and differential effects of benzamide (BA, an inhibitor of poly-ADP-ribosylation) pretreatment before hs on hs protection, suggests that hs before clastogen treatment triggers at least 2 clastogen-specific, protective functions which eventually result in protection against these 2 clastogens.

Sister-chromatid exchanges induced by triethylenemelamine: in vivo and in vivo/in vitro studies in mouse and Chinese hamster bone marrow and spleen cells.

This study was designed to obtain sister-chromatid exchange (SCE) frequencies in bone marrow and spleen cells of mice and Chinese hamsters under in vivo and in vivo/in vitro systems following treatment of animals with varying doses (15-405 micrograms/kg) of triethylenemelamine (TEM). A dose-related SCE response was found in both species, tissues, and systems analyzed following TEM treatment. In vivo, similar responses were noted for both tissues in both species. However, in vivo/in vitro, the response was lower than in vivo and it varied with the tissue. The spleen cells were more sensitive and gave higher numbers of SCEs than bone marrow of both species at the two highest doses tested (135 and 405 micrograms/kg). These differences may be attributed to cell-culturing effects, type of cells analyzed, species and tissue specificities, and pharmacokinetic properties of the chemical. This study lends support to recently established in vivo/in vitro cell culture methodologies employing mice and Chinese hamsters for comparative cytogenetic analysis.

Effects of novobiocin on heat shock protection against chromatid aberration induction by triethylenemelamine (TEM) and maleic hydrazide (MH) in Vicia faba.

Heat shock (10 min 40 degrees C) prior to challenge treatment with triethylenemelamine (TEM) or maleic hydrazide (MH) significantly reduced the frequency of induced chromatid aberrations in Vicia faba main root meristems. Novobiocin treatment before heat shock did not prevent heat shock protection against both clastogens; novobiocin application after heat shock prevented protective effects. These results and those obtained earlier for heat shock protection against X-ray challenge are used to discuss possible causes underlying the protective effects triggered by heat shock.

Induction of chromatid aberrations by TEM and maleic hydrazide is differently affected by pretreatment of Vicia faba root-tip meristems with methyl iodide.

Treatment of Vicia faba main root meristems with methyl iodide (MeI) 2 h before challenge treatment with triethylene melamine (TEM) significantly reduced the yield of metaphases with chromatid aberrations, i.e., resulted in clastogenic adaptation. Combined treatment with MeI and TEM increased the aberration yield; MeI treatment alone (10(-3) M, 0.5 h) was without clastogenic effect. No protective effects were observed after MeI pretreatment and challenge treatment by maleic hydrazide (MH). The data obtained in V. faba are compared to those previously reported for E. coli.

Effects of ethidium bromide and nalidixic acid pretreatment on the induction of chromatid aberrations by TEM and maleic hydrazide in Vicia faba main root meristems.

Pretreatment of Vicia faba main root meristems with ethidium bromide (EB) or nalidixic acid (NA) significantly reduced the yield of metaphases with chromatid aberrations induced by maleic hydrazide (MH), i.e., triggered clastogenic adaptation to MH. No such protection occurred when the alkylating agent triethylenemelamine (TEM) was used for challenge treatment. The differential response of pretreated cells to MH on the one hand (protection) and to TEM (no protection) on the other supports the conclusion that clastogenic adaptation is due to different inducible (repair?) functions, which eventually exert protection against clastogenic impacts.

Effects of benzamide pretreatment on clastogenic adaptation of Vicia faba root-tip meristem cells to triethylenemelamine (TEM) and maleic hydrazide (MH).

Clastogenic adaptation to TEM or MH no longer occurred when benzamide, an inhibitor of nuclear ADP-ribosyltransferase (ADPRT), was applied prior to the low dose (conditioning) treatment which triggers this phenomenon. This may be indicative that inducible processes connected with ribosylation reactions are involved in the protective effects exerted by clastogenic adaptation. No increase by benzamide pretreatment was observed in the yield of metaphases with TEM- or MH-induced chromatid aberrations after conditioning and challenge treatment, respectively. High benzamide concentrations (1 h, 5 X 10(-3) M) exerted protective effects against TEM challenging but not against MH.

A balanced translocation in mice with a neurological defect.

A semisterile male translocation heterozygote [t(2; 14) 1Gso] that exhibited neurological symptoms and an inability to swim (diver) was found among the offspring of male mice treated with triethylenemelamine. All breeding and cytogenetic data showed a complete concordance between translocation heterozygosity and the neurological disorders. Homozygosity for the translocation seemed to be lethal at an early embryonic stage. Despite the distinctive neurologic symptoms, no anatomic or histological defects in either the ear or in the central nervous system were observed. Thus, a balanced chromosomal translocation can produce disease with an inheritance pattern that mimics a single dominant gene defect.

Alkaline elution of rat testicular DNA: detection of DNA cross-links after in vivo treatment with chemical mutagens.

The alkaline elution technique was used to measure DNA damage in the rat testis after intraperitoneal injection of 3 chemicals known to cause heritable mutations in rodents. These 3 chemicals are triethylenemelamine (TEM), mitomycin C, and cyclophosphamide. All three of these chemicals produced DNA damage which was readily detectable by alkaline elution. Both TEM and mitomycin C produced DNA interstrand cross-links, although TEM was a more potent cross-linker on an equimolar basis than mitomycin C. Cyclophosphamide produced both DNA cross-links and DNA strand breaks. Alkaline elution in the absence of proteinase K indicated that some of the strand breaks appeared to be closely associated with protein. These studied indicate that the alkaline elution technique is capable of detecting DNA damage in mammalian germ cells produced by chemical mutagens. This technique may prove useful as a screening tool for identifying chemicals which cause heritable mutations in mammals.

Density-gradient enrichment of newly-formed mouse erythrocytes. Application to the micronucleus test.

To facilitate scoring micronuclei in peripheral blood erythrocytes, we have developed a centrifugation method to concentrate polychromatic and newly-formed normochromatic erythrocytes from microliter quantities of blood in a Percoll density gradient. Erythrocytes were separated into two discrete bands in a continuous gradient generated in situ in a microhematocrit capillary tube. The upper band contained white blood cells and a mixture of polychromatic and young normochromatic erythrocytes with a density of 1.080-1.082 g/ml. More than 75% of the polychromatic erythrocytes in samples of normal blood were recovered in the upper band. Older normochromatic erythrocytes migrated to the lower band. The frequency of polychromatic erythrocytes was increased from approximately 2% in whole blood to 60-80% in the upper band. After clastogen treatments, the elevated frequencies of micronuclei in the upper band polychromatic erythrocytes were similar to those in unfractionated blood. The frequencies of micronucleated normochromatic erythrocytes in the upper band were higher than those in whole blood at 48, 72 and 96 h after clastogen treatment, consistent with the expectation that the low-density normochromatic cells are newly derived from polychromatic erythrocytes. This density-gradient centrifugation technique enhances the efficiency of scoring micronuclei in the acute peripheral blood micronucleus test.

In vitro development of the mammalian embryo.

Normal growth and differentiation of mammalian embryos in vitro during the preimplantation period appear to be dependent upon the availability of appropriate metabolic substrates. For preimplantation embryos, defined conditions of culture have been achieved only in a few laboratory species. There is now evidence that differentiation factors isolated from fetal calf serum and human placental cord serum may promote further development of blastocysts. Postimplantation rat and mouse embryos can be cultured during the organogenesis period with rat or human sera in roller bottles. The embryonic differentiation of the rat at this stage of development is progressively retarded in such cultures with male rat serum. The embryonic development is not improved, even in sera obtained from rats at different days of gestation (12, 15-16, and 20-21). Inability to grow placental tissues simultaneously with embryos, accumulation of unfavorable substances, and rapid depletion of nutrients contribute to the retardation of embryonic growth. To improve growth and differentiation of conceptuses, a continuous culture system with the possibility of infusion of increasing concentrations of oxygen in the roller bottle gas atmosphere has been developed. This improved method allows considerable continuous growth and differentiation from the neurula stage with development of numerous primary organs. Utilizing these in vitro culture methods during pre- and postimplantation periods, it is now possible to assess embryotoxic or teratogenic potential of drugs and chemical agents. The postimplantation culture procedure allows a more precise assessment of mechanisms associated with anomalous embryonic differentiation. Bioactivation of teratogens and effects of active toxic metabolites on organ primordium differentiation have been shown by combining embryo culture with a hepatic microsomal activating system. Microinjection of teratogens and cells into conceptus compartments is being used to elucidate specific anomalous differentiation processes.

A rapid screen for cumulative chromosomal damage in mice. Accumulation of circulating micronucleated erythrocytes.

The frequency of micronuclei in normochromatic peripheral blood erythrocytes was found to be a useful index of cumulative chromosomal damage in repeatedly exposed mice. Although approximately 5 weeks of continuous treatment is required to reach the maximum steady state level, significant elevations in this index were achieved after only 5 daily exposures to non-lethal doses of all six genotoxins tested. The frequencies of micronucleated cells per 1000 normochromatic erythrocytes in weanling mice after 5 daily intraperitoneal (i.p.) injections of each test agent were: triethylenemelamine (0.5 mg/kg), 13.7; mitomycin C (2 mg/kg), 7.1; cyclophosphamide (22 mg/kg), 6.6; colchicine (1 mg/kg), 4.0; nitrogen mustard (0.4 mg/kg), 3.6; 7,12-dimethylbenz[a]anthracene (5 mg/kg), 6.6. Controls averaged 1.2 per 1000. During extended exposure to nitrogen mustard (5 i.p. injections of 0.4 mg/kg per week), the incidence of micronucleated erythrocytes rose steadily to a value of 12.0 per 1000, approaching the steady state after about 5 weeks of treatment. These results indicate that the measurement of micronuclei in peripheral blood erythrocytes is an effective and rapid method for estimating chromosomal damage in subchronically or chronically exposed animals. In practical application, routine blood smears taken during 90-day subchronic toxicity tests could be scored for micronuclei in less than 1 day, providing an economical estimate of in vivo chromosomal damage.

Extensive proliferative capacity of haematopoietic stem cells.

The proliferative capacity of the presumed pluripotent haematopoietic stem cell (CFUs) was assessed. Repeated (monthly) depletion of this cell population vivo by the alkylating agent TEM was followed by repopulation of the haematopoietic system. The cumulative number of doublings of the CFUs population was estimated to be about 158. It is therefore concluded that either the CFUs do not represent the stem cell population; or, any intrinsic lifespan must be beyond this number of cell doublings.