Metabolites ofStreptomyces noursei

The production variability of secondary metabolites was studied after treatment with mutagenic factors. 852 isolates were examined, out of which 308 after X-irradiation, 277 after u. v.—irradiation and 267 after treatment with nitrogen mustard. According to the production of individual secondary metabolites examined it was possible to divide the strains obtained into 4 groups.     

THE EFFECT OF NITROGEN MUSTARD ON THE HAEMOPOIETIC STEM CELLS OF THE BONE MARROW IN THE RAT

The sensitivity of haemopoietic stem cells to the action of nitrogen mustard has been investigated by transfusion of bone marrow from treated donor rats to recipients whose own haemopoiesis had been reduced to low levels by whole body X-irradiation. By measurement of the resultant erythropoiesis in the recipients with radioactive iron, a comparison of the repopulating ability of nitrogen mustard treated bone marrow with that of normal bone marrow could be made. It was found that although a dose of 0.9 mg/kg body weight reduces bone marrow cellularity to less than 10% of normal, repopulating ability is not decreased to much less than half the normal level. This is in contrast to the effects of X-radiation, which has a more marked effect on the stem cell population than on the differentiated marrow cells. Possible reasons for this difference are discussed. It could be that the proliferative or metabolic state of the cell plays a role, or that some repair mechanism is operative in the stem cells which does not exist in the differentiated cells.     

Exposure of mammalian cells to 60-Hz magnetic or electric fields: analysis for DNA single-strand breaks

Chinese hamster ovary (CHO) cells were exposed for 1 h to 60-Hz magnetic fields (0.1 or 2 mT), electric fields (1 or 38 V/m), or to combined magnetic and electric fields (2 mT and 38 V/m, respectively). Following exposure, the cells were lysed, and the DNA was analyzed for the presence of single-strand breaks (SSB), using the alkaline elution technique. No significant differences in numbers of DNA SSB were detected between exposed and sham-exposed cells. A positive control exposed to X-irradiation sustained SSB with a dose-related frequency. Cells exposed to nitrogen mustard (a known cross-linking agent) and X-irradiation demonstrated that the assay could detect cross-linked DNA under our conditions of electric and magnetic field exposures.     

Viscoelastic analysis of high molecular weight, alkali-denatured DNA from mouse 3T3 cells.

Alkaline lysates of mouse 3T3 cells showed viscoelastic properties characteristic of very large molecules of single-stranded DNA. The viscoelastic retardation time and the sensitivity to low doses of nitrogen mustard and of X-irradiation suggest a molecular weight in excess of 10-10 daltons. Contact-inhibited cells yielded larger single strands than actively growing cells.     

The action of azimexone on the cells of the hemopoietic system in mice,especially after damage with X-rays

Mice were exposed to single doses of whole body X-irradiation (1 - 2 - 4 Gy) or were treated with sulphur mustard (15 mg/kg body weight i.p.). This treatment caused a reduction of the pluripotent stem cells in the bone marrow, of the total count of nucleated bone marrow cells in the femora and of the WBC in the peripheral blood. The size distribution of the bone marrow cells showed three separate peaks. From the histological examination of the bone marrow of X-irradiated mice it was deduced that the first peak represents erythrocytes, the second lymphocytes and the third peak the precursors of red and white blood cells. Multiple doses (25 - 50 - 100 mg/kg body weight) of azimexone, an immunomodulating substance, led after moderate doses of X-rays (2 Gy) or sulphur mustard to a more rapid recovery of the various parameters. In particular a stimulant action of azimexone on the pluripotent stem cells of mice not subjected to the injurious agents could also be demonstrated.     

Aziqne letale e azione mutagena della metil β β′ dicloroetilammina su spore di Aspergillus niger

Summary

It is shown that the lethal action of nitrogen mustard on spores of Aspergillus niger can be described in terms of the target theory, if one assumes that the intensity of this action varies with time. A two-hit curve can be fitted on the experimental data, on the assumption that a decrease of lethality depends on the inactivation of the substance with time.

By diluting the suspension containing the spores with a solution of glycine and sodium bicarbonate, the action of nitrogen mustard is stopped. The lethal action of nitrogen mustard is much weaker at 0° C than at 27° C.

Even though exact mutation rates have not been evaluated, an outstanding number of morphological and physiological mutants among the colonies developing from irradiated spores have been observed.     

DNA sequence selectivity of guanine-N7 alkylation by nitrogen mustards.

Nitrogen mustards alkylate DNA primarily at the N7 position of guanine. Using an approach analogous to that of the Maxam-Gilbert procedure for DNA sequence analysis, we have examined the relative frequencies of alkylation for a number of nitrogen mustards at different guanine-N7 sites on a DNA fragment of known sequence. Most nitrogen mustards were found to have similar patterns of alkylation, with the sites of greatest alkylation being runs of contiguous guanines, and relatively weak alkylation at isolated guanines. Uracil mustard and quinacrine mustard, however, were found to have uniquely enhanced reaction with at least some 5'-PyGCC-3' and 5'-GT-3' sequences, respectively. In addition, quinacrine mustard showed a greater reaction at runs of contiguous guanines than did other nitrogen mustards, whereas uracil mustard showed little preference for these sequences. A comparison of the sequence-dependent variations of molecular electrostatic potential at the N7-position of guanine with the sequence dependent variations of alkylation intensity for mechlorethamine and L-phenylalanine mustard showed a good correlation in some regions of the DNA, but not others. It is concluded that electrostatic interactions may contribute strongly to the reaction rates of cationic compounds such as the reactive aziridinium species of nitrogen mustards, but that other sequence selectivities can be introduced in different nitrogen mustard derivatives.     

Rates of forward and reverse mutation inDrosophila after exposure to mustard gas and X-rays

After treatment with mustard gas, reversions of the mutantforked ³ⁿ were observed with a frequency of 1 in 7,500. In the absence of indications for either suppressors or chromosome-rearrangements, these data provide evidence that a chemical mutagen can produce back mutations inDrosophila. Half the number of reversions was characterized by mosaic manifestation. This shows that delayed appearance after chemical treatment also holds for true gene mutations. One partial reversion to nearly normal type was not due to back mutation, but to a rearrangement, presumably involving a duplication of theforked containing region.The study on reversion off ³ⁿ was combined with tests for recessive visibles at 15 selected loci of the X-chromosome. Mutations at theruby locus were most frequently induced by mustard gas (1 in 1,700). About one quarter of the forward mutations were fractionals. After exposure to 5,000 r X-irradiation both reversions off ³ⁿ and forward mutations at the loci under study were observed with frequencies comparable to those induced by mustard gas. Thus, no indication for mutagenspecific differences in mutational response have been obtained. After treatment with mustard gas a higher ratio of visibles to lethals was observed than after exposure to X-irradiation. It is pointed out that comparisons of the mutagenic effect of a chemical mutagen with that of X-radiation, even if restricted to visible mutations, inevitably involve an underestimate for the chemical, due to delayed effects of the latter.The experiments were carried out mainly at the Department of Genetics, State University of Utrecht (Director: Prof. Dr.C. L. Rümke). A. J. M. van Hedel, G. J. O. Jansen, V. Labordus andS. C. M. Schouten collaborated on parts of this project.     

The alkylation of hemoglobin S by nitrogen mustard. High resolution proton nuclear magnetic resonance studies.

Sickle cell hemoglobin (Hb S) treated with nitrogen mustard (bis(beta-chloroethyl)methylamine hydrochloride) gives two reaction products, one labile and one stable. After dialysis against buffer solution, the remaining stable product is found to inhibit the polymerization of deoxyhemoglobin S. High resolution proton nuclear magnetic resonance has been used to study the structure and function of this stable product and to investigate the nature of the binding sites of nitrogen mustard to the hemoglobin molecule. The NMR results suggest that the nitrogen mustard treatment of Hb S does not alter the heme environment or the subunit interfaces of the hemoglobin molecule. Moreover, the NMR spectra have also shown that the nitrogen mustard reacts with the beta2 histidines of the hemoglobin molecule and have suggested that several other surface amino acid residues of the hemoglobin molecule are also affected by the nitrogen mustard alkylation. These NMR findings are in good agreement with the data obtained from biochemical studies of nitrogen mustard-treated Hb S. The NMR spectra also indicate that nornitrogen mustard (which is also effective in inhibiting sickling) binds with the hemoglobin molecule in a manner identical with nitrogen mustard. Sulfur mustard, on the other hand, produces no observable changes in the aromatic proton resonances, which is consistent with the fact that it does not inhibit the polymerization of deoxy-Hb S.     

Cell death and abnormalities in limb morphogenesis ofPleurodeles waltlii Michah. (urodela,amphibia) after nitrogen mustard treatment

Summary The effects of nitrogen mustard (methylbis-chlorethylamine) on limb organogenesis were studied inPleurodeles waltlii at different stages of fore and hind limb development.The effects of four different doses of nitrogen mustard (1.25; 2.5; 5 and 10 g/ml) on the limb bud mesoderm and epidermis were studied histologically. This analysis was carried out on cylindrical unchondrified hind limb buds treated at stage 45.The effects of these doses on all stages of fore and hind limb development were investigated. This included the effect on the establishment of the proximo-distal sequence (segment chondrification) and the antero-posterior sequence (pre-postaxial zeugopod, basipod chondrification and progressive pre-postaxial organization of fingers and toes.Correlations were established between the mesodermal necrosis observed in hind limb buds treated at stage 45 and the skeletal abnormalities occurring in fore and hind limbs after treatment at all stages of their development.Thus, it appears that the effects of nitrogen mustard on organogenesis demonstrates the existence of a state in the differentiation of the mesoderm that is not revealed by morphological studies.     

An Evaluation of Irreversible Inhibition of Synaptosomal High-Affinity Choline Transport by Choline Mustard Aziridinium Ion

Abstract: Choline mustard aziridinium is a potent, irreversible and selective blocker of sodium-dependent, high-affinity transport of choline into rat forebrain synaptosomes; it was found to be 30 times less potent against low-affinity transport of choline. The IC₅₀ value for high-affinity transport was 0.94 μM, compared to 29 μM for low-affinity uptake. The inhibitory action of choline mustard aziridinium ion on high-affinity transport of choline was graded with respect to time; a 12-fold increase in potency was obtained by increasing the inhibitor preincubation times from 1 to 30 min. Low concentrations of choline mustard aziridinium ion could produce significant blockade of choline carriers providing the exposure time was prolonged. The characteristics of the blockade of synaptosomal high-affinity choline transport by choline mustard aziridinium ion also changed depending upon preincubation time. The kinetics of inhibition of high-affinity choline transport by choline mustard aziridinium ion showed apparent competitive inhibition initially, followed by noncompetitive characteristics at longer preincubations with inhibitor. The rate of irreversible inhibition of carriers by this nitrogen mustard analogue would appear to be rapid; the rate constant was determined to be 5 × 10^?2 s^?1for micromolar concentrations of inhibitor. This action may preclude the transport of the mustard analogue into the nerve terminal, although initially some reversible binding with the carrier may result in the translocation of some choline mustard aziridinium ion into the presynaptic ending. The progressive alkylation of high-affinity carriers by the analogue could indicate the presence of excess carrier sites in the presynaptic membrane, or subpopulations of carriers in an inactive state in equilibrium with active carriers. A model is described for the inhibitory action of choline mustard aziridinium ion on synaptosomal high-affinity choline carriers.     

Chloroalkyl piperazine and nitrogen mustard porphyrins: synthesis and anticancer activity

Fifteen new chloroalkyl piperazine and nitrogen mustard porphyrins have been synthesized by the direct condensation of chloroalkyl piperazine, nitrogen mustard benzaldehyde, and pyrrole. Each porphyrin bears 1-4 chloroalkyl piperazine or nitrogen mustard moieties, which have been used as drugs. The Lindsey method was modified to synthesize chloroalkyl piperazine and nitrogen mustard porphyrins. To successfully synthesize chloroalkyl piperazine and nitrogen mustard porphyrins, catalyst acidity was proved to be the key factor, while the ratio of pyrrole to aldehyde had great influence on product yield. The synthetic chloroalkyl piperazine and nitrogen mustard porphyrins were characterized by elementary analysis, MS, (1)H NMR, IR, and UV-vis. Their anticancer activity to bel-7404 liver cancer cells was tested by the MTT assay. Most of the synthetic porphyrins had good anticancer activity toward bel-7404 liver cancer cells in the absence of light. These compounds might be potential anticancer medicines.     

Experimental complexities in evaluating the comparative phytotoxicity of chemicals with different modes of action

Careful attention should be paid to bioassay experiments to examine the comparative phytotoxicity of chemicals with different modes of actions. Experimental complexities in examining comparative phytotoxicity of chemicals with differing modes of action are determined and discussed to appreciate the importance of relevant secondary effects that can be quickly measured. The chemicals selected were: benzoic acid, isoxaflutole and rimsulfuron. Data on shoot and root length of 7-day-old mustard (Brassica napus L.) seedlings, shoot height of 4-week-old mustard plants and total leaf chlorophyll concentrations were determined when plants were grown in soil treated with different concentrations of the three chemicals. Scanning electron microscope (SEM) studies were conducted to determine any damage to mustard root hairs after treatment. Root growth of 7-day-old mustard seedlings was reduced when treated with different concentrations of benzoic acid or rimsulfuron. Root growth of mustard seedlings, however, largely remained unaffected when plants were grown in soil treated with isoxaflutole. While no significant reduction in either chlorophyll concentration or shoot height of 4-week-old mustard plants was observed when treated with soil-applied benzoic acid, both parameters were inhibited when mustard plants were treated with isoxaflutole or rimsulfuron. SEM studies revealed significant damage to root hairs in a 7-day-old mustard seedlings when plants were grown in soil treated with 500, 1000 and 2000 mg/L benzoic acid, and 0.5 mg/L rimsulfuron. No such damage was observed when mustard was grown in soil treated with isoxaflutole.     

Dose response at low doses of X-irradiation and MMS on the induction of micronuclei in mouse erythroblasts.

The test of induced micronuclei in erythrocytes of mammalian bone marrow constitutes, because of its high experimental resolution power, a suitable method for the screening of induced chromosomal lesions at very low dosages of chemicals or irradiations. This test was used for a comparative investigation of the effect of low dose levels of X-irradiation and of the alkylating agent methyl methanesulphonate (MMS). The dose-effect curve of X-irradiation indicated a deviation from linearity at 10 rad, showing a significantly stronger effect than expected on extrapolation from the control to 100 rad. This deviation from linarity, however, only appeared at a low dose rate (18 R/min), whereas a linear dose-effect relation was indicated with a high dose rate (95 R/min). Experiments at 10 rad with different dose rates at two different current potentials suggested that this effect of the dose rate is more pronounced with soft than with hard X-irradiation. The induction of micronuclei with MMS follows a drastically different dose-effect curve as compared with X-irradiation. The relative efficiency of the treatment is lowest at low concentrations, presumably as a result of the efficient repair process at such dose levels. Simultaneous treatment with X-rays and MMS at low dose levels only resulted in an additive effect. This suggests that X-irradiation does not interfere with the repair process operating with MMS. The difference in the dose-effect relations of X-irradiation as compared with MMS may be brought back to the fact that X-rays, in contrast with MMS, produce double-strand breaks.     

The relationship between chromosomal aberrations, survival and DNA repair in tumour cell lines of differential sensitivity to X-rays and sulphur mustard

A pair of cultured rat lymphosarcoma cell lines (Yoshida) with a pronounced differential sensitivity to killing with sulphur mustard (SM), but with the same sensitivity to X-rays, was examined for chromosome damage and DNA repair replication after treatment with these agents. A pair of mouse lymphoma cell lines (L5178Y) with a differential sensitivity to X-rays was similarly investigated.SM-resistant Yoshida cells suffered much less chromosome damage than sensitive cells in spite of equal alkylation of DNA, RNA and protein in sensitive and resistant cells. The pair of Yoshida cell lines sustained the same amount of chromosome damage after X-irradiation. Much less chromosome damage was observed in the radiation-resistant lymphoma cell line than in the sensitive line after X-irradiation.No differences was found between the pairs of cell lines in their capacities for repair replication after SM or X-ray treatment.Thus, the drug and radiation resistance is accompanied by, and perhaps mediated through, a reduced amount of induced chromosome damage but is not quantitatively related to the capacity for DNA repair replication.Apart from small differences in modal chromosome numbers there are no obvious karyotype differences between the sulphur mustard-sensitive and -resistant Yoshida cells or between the radiation-sensitive and -resistant lymphoma cells.     

The structure of methylated xanthines in relation to their effects on DNA synthesis and cell lethality in nitrogen mustard-treated cells.

The variation in cellular response to alkylated xanthines possessing different side chains has been used to evaluate more fully the effect of caffeine on both survival and DNA synthesis in cells with DNA damage. A correlation is observed between the ability of these xanthines to reverse the inhibitory effects of nitrogen mustard damage on DNA synthesis and their ability to enhance nitrogen mustard lethality in human HT-29 cells. These findings are consistent with our theory that regulation of damaged replicon initiation protects against potentially lethal damage in the form of unrepaired DNA alkylations. Enhancement of nitrogen mustard lethality is observed to have a maximum limit, which can be reduced by highly toxic xanthine concentrations. The lethal effects of xanthines alone at higher concentrations are unrelated to the effects of caffeine specific to nitrogen mustard treated cells, and appear to be related to an immediate reduction in thymidine incorporation most likely caused by inhibition of other enzyme systems influencing DNA synthesis such as de novo and salvage pathways for purine biosynthesis.     

Ultrastructural observations of the effect of nitrogen mustard on human chromosomes]

The authors observed in electronic microscopy the methyl-bis-beta chlorethylamine action (nitrogen mustard) on normal human chromosomes. The effects were obtained in vitro after colchicine blocking and on grids after fixation. The action is remarkable on the fiber and on the chromatid's structure.     

The induction of aneuploidy by nitrogen mustard in a human lymphoblastoid cell line

We report that the presence of an extra Y chromosome can be used as a marker for the induction of aneuploidy (mitotic non-disjunction) in a human lymphoblastoid cell line. This endpoint is easily visualized in metaphase chromosome preparations after staining with quinacrine mustard. The induction of cells with two Y chromosomes by nitrogen mustard (NM) was examined. Exposure to 150 ng/ml nitrogen mustard induced a 6-fold increase in aneuploid frequency relative to untreated control levels; maximal induction of aneuploidy was observed 2 days after treatment. Lower concentrations of nitrogen mustard (36 and 75 ng/ml) induced smaller increases in aneuploid frequency, with maximal induction observed 1 day after treatment. This system has the potential to be used as an assay for the induction of aneuploidy in cultured human cells.     

Identification of a Second Locus in DROSOPHILA MELANOGASTER Required for Excision Repair

The mus(2)201 locus in Drosophila is defined by two mutant alleles that render homozygous larvae hypersensitive to mutagens. Both alleles confer strong in vivo somatic sensitivity to treatment by methyl methanesulfonate, nitrogen mustard and ultraviolet radiation but only weak hypersensitivity to X-irradiation. Unlike the excision-defective mei-9 mutants identified in previous studies, the mus(2)201 mutants do not affect female fertility and do not appear to influence recombination proficiency or chromosome segregation in female meiocytes.—Three independent biochemical assays reveal that cell cultures derived from embryos homozygous for the mus(2)^D1 allele are devoid of detectable excision repair. 1. Such cells quantitatively retain pyrimidine dimers in their DNA for 24 hr following UV exposure. 2. No measurable unscheduled DNA synthesis is induced in mutant cultures by UV treatment. 3. Single-strand DNA breaks, which are associated with normal excision repair after treatment with either UV or N-acetoxy-N-acetyl-2-aminofluorene,* are much reduced in these cultures. Mutant cells possess a normal capacity for postreplication repair and the repair of single-strand breaks induced by X-rays.     

Cross-resistance ofEscherichia coli B/r tocis-platinum (II) diamminochloride,UV light and alkylating agents

Gradual transfers of the strain Escherichia coli B/r on M9 agar with increasing concentrations of cis-platinum (II) diamminochloride (cis-Pt(II)) yielded a resistant strain SM 405 capable of growing on liquid M9 medium containing 250 muM cis-Pt(II). The parent strain Escherichia coli B/r is completely inhibited in both division and growth at cis-Pt(II) concentrations as low as 30 muM. The resistant mutant has a longer doubling time than the parent strain. No other differences were found between the two strains. To elucidate the nature of the resistance, the effect of cis-Pt(II) on the survival of the two strains was compared with that of nitrogen mustard, UV light and ethyl methanesulphonate (EMS). The resistant strain SM 405 was found to be more hardened against the lethal action of UV light and nitrogen mustard but less so against EMS. It had also a higher ability of a host-cell reactivation of UV-irradiated phage T3. The different resistance of the B/r and SM 405 strains is probably due to a mutation increasing the effectiveness of the excision repair in the latter.