Evidence for DNA repair after ultraviolet irradiation of Petunia hybrida pollen

Summary Ultraviolet irradiation of Petunia hybrida pollen led to an unscheduled labelling of pollen DNA by ³H-thymidine during the early stages of germination. Hydroxyurea increased this DNA labelling, while added boron, required absolutely for pollen germination, tube elongation and tube generative cell mitosis, was not needed for this repair — like DNA synthesis.     

Induction of unscheduled DNA synthesis and micronucleus formation in Syrian hamster embryo fibroblasts treated with cysteine S-conjugates of chlorinated hydrocarbons

S-(chloroethyl)-cysteine (CEC) and S-(1,2-dichlorovinyl)cysteine (DCVO) have been proposed as intermediates in the metabolic transformation of the carcinogens 1,2-dichloroethane and 1,1,2-trichloroethylene. We have tested the ability of CEC and DCVC to induce DNA repair and genotoxic effects at the chromosomal level by comparative assessment of unscheduled DNA synthesis induction and micronucleus formation in Syrian hamster embryo fibroblasts. CEC induced a potent and dose-dependent response in both assays, whereas DCVC treatment resulted in a comparatively weak induction of DNA repair and failed to raise micronucleus formation above control rates. Inhibition of cysteine conjugate \gB-lyase diminished the effect of DCVC, but had no influence on the genotoxicity of CEC either in the unscheduled DNA synthesis or micronucleus assay.Abbreviations AOAA aminooxyacetic acid - CEC S-(chloroethyl)-cysteine; \gB-lyase, cysteine conjugate -lyase - DCE 1,2-dichloroethane - DCVC S(1,2-dichlorovinyl)-cysteine - GSH glutathione - HU hydroxyurea - IBR IBR-modified Dulbecco's Eagle's reinforced medium - MN2 micronuclei/2,000 cells - 4-NQO 4-nitroquinoline-1-oxide - SHE Syrian hamster embryo fibroblasts; ³H-Thd, ³H-thymidine - TCE 1,1,2-trichloroethylene - UDS unscheduled DNA synthesis     

Tritium labelling and cytochemistry of extra DNA in Acheta

Females of Acheta domesticus were injected with H³-thymidine and H³-uridine at various stages of development in order to study DNA and RNA synthesis in the DNA body present in the oocytes. Staining with alkaline fast green, azure B and the Feulgen reaction were employed as cytochemical tests. The following main results were obtained.

1. The DNA body appears in the oogonia at interphase as a Feulgen positive spherical structure 2 microns in diameter and is seen in subsequent mitotic divisions as a slightly smaller structure of variable shape. H³-thymidine autoradiography discloses that the DNA present in this body is synthesised at a different time from the chromosomal DNA.
2. At interphase and during the early prophase of meiosis the DNA body increases in size becoming a large Feulgen positive sphere 6 microns in diameter. Small nucleoli are present within this body. The DNA of the body is complexed with histone as revealed by alkaline fast green staining. H³-thymidine labelling discloses that it is at these stages that the bulk of the DNA synthesis takes place in the body.
3. Every oocyte contains a DNA body, and no body of comparable size or shape seems to be present in the male meiotic prophase.
4. At pachytene and diplotene the DNA body acquires the appearance of a “puff”. Two zones can be distinguished inside the DNA body: (1) an inner core of DNA and an outer shell of RNA. The inner core is Feulgen positive and stains light green with azure B, the outer shell is Feulgen negative and stains purple-violet with azure B, as does the cytoplasm. From the inner DNA core many Feulgen positive fibrils radiate into the outer RNA shell. These fibrils appear unstained or slightly greenish with Azure B, forming a transparent network in a purple-violet background. This gives the body the typical appearance of a “puff”. H³-uridine incorporation reveals that the RNA synthesis occurs in the outer RNA shell of the body and in the chromosomes. RNase treatment removes the H³-uridine incorporated into these regions.
5. At the end of diplotene the DNA body starts to disintegrate. The DNA core breaks up into minor components and the outer RNA zone also begins to disintegrate. By late diplotene the whole body has vanished, releasing DNA, histone and RNA into the nucleus. Subsequently the nuclear envelope disintegrates as it regularly does at the end of prophase of meiosis.
6. The simplest interpretation of the above results is that the DNA body represents hundreds of copies of the genes of the nucleolar organizing region.

     

DNA repair in pollen: Range of mutagens inducing repair, effect of replication inhibitors and changes in thymidine nucleotide metabolism during repair

Summary Pollen of Petunia hybrida carry out DNA repair during the first two hours of germination when certain mutagens are included in the germination medium. This repair, detected readily as unscheduled DNA synthesis, since there is no replicative DNA synthesis in Petunia pollen, can be induced by the chemical mutagens N-methyl-N-nitro-N-nitrosoguanidine, 4-nitroquinoline-1-oxide, azaserine and methyl methanesulphonate. These compounds are all considered to be capable of direct covalent interaction with DNA. Mutagens requiring metabolic activation before interaction with DNA did not induce DNA repair synthesis in pollen. The practice of solubilizing water-insoluble chemical mutagens with dimethyl sulphoxide did not prove practical, due to the extremely harmful effects of dimethyl sulphoxide on pollen. Pretreatment of pollen before germination with pure ether, however, had no harmful effect on either repair or pollen germination. Therefore water-insoluble, ether-soluble mutagens were tested by pretreatment of the pollen with mutagens in ether solution. By this means it was shown that the direct-acting mutagen, diethyl sulphate, would also bring about unscheduled DNA synthesis in pollen, while 2-acetylaminofluorence and dimethyl-p-aminobenzene, both requiring metabolic activation, did not do so. Inhibitors of DNA replicative synthesis, hydroxyurea, azaserine, azauridine and fluorodeoxyuridine did not inhibit unscheduled DNA synthesis brought about by N-methyl-N-nitro-N-nitrosoguanidine. On the contrary, these compounds stimulated repair synthesis to varying degrees, hydroxyurea having the greatest effect. Pollen uptake of ³H-thymidine and the amount of radioactive label subsequently appearing in dTMP and dTDP+dTTP was increased by 4-nitroquinoline-1-oxide. Partial inhibition of these increases and of 4-nitroquinoline-1-oxide induced repair synthesis by 3,5-cyclic AMP suggested that thymidine:AMP phosphotransferase rather than thymidine kinase was responsible for thymidine phosphorylation in pollen. Enzyme assays on pollen extracts confirmed this.     

Influence of age,sex and strain on the in vitro induction of unscheduled dna synthesis in rat hepatocyte primary cultures

The activity of chemical-induced unscheduled DNA synthesis was evaluated in hepatocyte primary cultures from Fischer 344 and Sprague-Dawley rats over a period of two years. In this two-year study hepatocytes from both sexes and strains were prepared from animals 2, 8, 14, 20 and 25 months of age and UDS was measured by autoradiography following treatment with N-methyl-AP-vitro-N-nitrosoguanidine and 2-acetylaminofluorine. A dose-related positive response occurred for both compounds throughout the study in hepatocytes from male and female Fischer rats and male Sprague-Dawley rats. The magnitude of the response was greatest in hepatocytes from male Fischer rats and a markedly lower response in unscheduled DNA synthesis occurred in all cultures prepared from animals of both strains and sexes at 20 and 25 months of age. Hepatocytes from female Sprague-Dawley rats showed a low level of unscheduled DNA synthesis with N-methylN-vitro-N-nitrosoguanidine throughout the study. The most striking finding was the absence of a UDS response to 2-acetylaminofuorene by hepatocytes from Sprague-Dawley females at the 8, 14, 20 or 25 month periods. The results indicate an age-related decrease in chemical-induced unscheduled DNA synthesis activity among rats.Abbreviations 2AAF 2-acetylaminofluorine[deDMSO] - dimethylsulfoxide ³H-TdR, meth yl-3H-thymidine - MNNG N-methyl-N-vitro-N-nitrosoguanidine - UDS unscheduled DNA synthesis     

Visualization of chromatin distribution in living PTO cells by Hoechst 33342 fluorescent staining

Chromatin distribution was visualized in living cells with the selective DNA fluorochrome Hoechst 33342. This dye was shown to be non-toxic on the rat kangaroo PTO cell line by measuring the labelled cell growth rate. The aim of this work was firstly to visualize chromatin distribution without fixation or dehydration and secondly to demonstrate that quantitative determination of DNA content was possible under these non-toxic labelling conditions. During interphase, condensed, decondensed and thin network chromatin configurations were visualized. In nucleolar regions the fluorochrome revealed well-defined chromocentres. During mitosis, fluorescent chromosome banding was observed in vital conditions and chromocentres on fixed chromosomes. Chromatin segregation was visualized after micronucleation, which induced chromosomal set distribution in individual micronuclei. By this means, we demonstrated that the chromocentres observed in interphase nuclei were part of nuclear organizer region (NOR)-bearing chromosomes. This vital staining of chromatin was shown to be compatible with the quantitative determination of DNA content, both in living PTO cells and in isolated nuclei.     

DNA replication in maize leaf protoplasts

Maize leaf protoplasts were investigated for their metabolic competence and capacity to synthesize DNA. When protoplasts were incubated at elevated temperatures, they exhibited a heat shock response with specific proteins being preferentially synthesized. This indicated that the protoplasts were fully metabolically functional and capable of responding to environmental stimuli. Significant DNA synthesis was observed in these protoplasts after incorporation of ³H-thymidine into chromatin by trichloroacetic acid precipitation and by incorporation of 5-bromo-2-deoxyuridine (BrdU), an analog of thymidine, detected by immunofluorescence. The immunocytochemical method revealed that about 50% of nuclei in the maize leaf protoplasts were labelled after 3 days of culture and that most of these nuclei were labelled as intensely as normal mitotic cells. Aphidicolin, an inhibitor of DNA polymerase-, decreased the percentage of labelled nuclei, demonstrating that the labelling was substantially due to replicative DNA synthesis. However, chromosome condensation was not observed. It is proposed that these protoplasts are capable of DNA synthesis, but incapable of nuclear division. Effects of media additives on the number of nuclei entering S phase in these protoplasts were also assessed by the immunocytochemical method. Inclusion of 80mM Ca²⁺ in the enzyme solution increased protoplast yield and also appeared beneficial to DNA synthesis. The antioxidant, n-propyl gallate, which was used to stabilize the protoplasts, delayed the onset of DNA synthesis. Arginine and spermidine produced a slight increase in DNA synthesis.Abbreviations BrdU 5-bromo-2-deoxyuridine - DMSO dimethyl sulfoxide - n-PG n-propyl gallate - PBS phosphate-buffered saline Dedicated to Dr. Friedrich Constabel on the occasion of his 60th birthday     

Nucleolar DNA in oocytes of Salmo irideus (Gibbons)

The amplification of ribosomal genes has been studied in oocytes from Salmo irideus. In situ nucleic acid hybridization showed that the synthesis of nucleolar DNA begins in oogonium and proceeds slowly through leptotene and zygotene when a small amount of extrachromosomal nucleolar DNA is produced. In early pachytene there is a rapid build-up of nucleolar DNA demonstrable by rapid incorporation of tritiated thymidine. Synthesis stops completely in early diplotene when nucleolar DNA becomes dispersed over the inner surface of the nuclear envelope in the form of small Feulgen-positive granules. Photometric measurements of Feulgen stained nuclei showed that the final amount of amplified nucleolar DNA synthesized in each oocyte is approximately 20 g. The amplified DNA does not form a heterochromatic mass. The buoyant density of the amplified nucleolar DNA calculated from analytical centrifuge tracings in relation to DNA from Micrococcus luteus ( = 1.731 g cm^–3) is 1.715 g cm^–3 and corresponds to a G + C content of 57%. There are indications that the buoyant density of the somatic nucleolar DNA is lower than that of amplified nucleolar DNA.Similarities and differences between ribosomal gene amplifications in oocytes of Salmo irideus and the corresponding process in Xenopus are discussed.     

Activation and inhibition of the sarcoplasmic reticulum Ca2+ channel by the polycationic dyes Hoechst 33342 and Hoechst 33258

The polycationic dyes, Hoechst 33342 (Bisbenzimide,2-(4-ethoxyphenyl)-5-(4-methyl-1-piperazinyl) 2,5-bi 1H benzimidazole) and Hoechst 33258 (Bisbenzimide,2-(4-hydroxyphenyl) 5-(4-methyl-1-piperazinyl)-2,5-bi-1H-benzimidazole) alter the activity of the sarcoplasmic reticulum Ca²⁺ channel. Although they act competitively, Hoechst 33342 decreases, while Hoechst 33258 increases, the rate of channel-mediated Ca²⁺ efflux from junctional sarcoplasmic reticulum vesicles. Unlike other cationic sarcoplasmic reticulum Ca²⁺ channel antagonists, Hoechst 33342 blocks the ryanodine-activated Ca²⁺ channel. Both Hoechst 33342 and Hoechst 33258 inhibit the channel incorporated into the planar lipid bilayer. Since the only structural difference between the two dyes is that the agonist Hoechst 33258 has a hydroxy group where the antagonist Hoechst 33342 has an ethoxy group, it is possible that the more hydrophobic, bulky ethoxy group blocks Ca²⁺ movement through the channel, whereas the hydroxy group only reduces the rate of Ca²⁺ movement.The opinions or assertions contained herein are private ones of the author ad are not to beconstrued as official or reflecting the views of the Department of Defense or the Uniformed Services University of the Health Sciences.This work was supported by grants GM 29300 and GM 4695 from the National Institutes of Health and Grant C071BK from the Uniformed University of the Health Sciences.     

Cell cycle dependence of Hoechst 33342 dye cytotoxicity on sorted living cells

Summary The effect of staining cellular DNA with the bisbenzimidazole dye Hoechst 33342 on the colony forming efficiency of Chinese Hamster Ovary Cells in different cell cycle phases has been studied. Exposures of 90 and 120 min to 5 M Hoechst 33342 provided a considerable loss of clonogenicity depending on the cycle phase at staining procedure. The G2+M cells reveal to be the most sensitive fraction followed by the G1 cells. The highest resistance was found on S-phase cells with a colony forming efficiency exceeding that of the G2+M fraction by a factor of two.     

Quantitative Changes in Unscheduled DNA Synthesis in Rat Muscle Cells after Differentiation

THE incorporation of tritiated thymidine (³H-thymidine) into cells not engaged in normal DNA replication has been called unscheduled DNA synthesis¹. The phenomenon has been observed after X-irradiation¹, ultraviolet irradiation² and after exposure to the monofunctional alkylating agent methyl methane sulphonate³ (MMS) and other carcinogens⁴. In all published reports the cells showing unscheduled DNA synthesis had retained their proliferative capacity (and hence at least their potential ability to synthesize DNA). We have investigated whether differentiated cells—that is, cells which presumably will never have to initiate normal DNA synthesis—are still capable of unscheduled DNA synthesis. We used multinucleated rat muscle cells in vitro. Myotubes have been found to form by fusion of separate, mononucleated cells^5,6, the nuclei of which no longer synthesize DNA. YalTe and Gershon⁷ have shown that such cells can reinitiate DNA synthesis after viral infection. They found it necessary, however, for fusion to continue during viral infection; in the absence of further fusion no new DNA synthesis was observed. The trigger for DNA synthesis after viral infection must therefore have come from cells which had been transformed before differentiation and fusion. This left open the question of whether differentiated cells could initiate DNA synthesis in the absence of trigger from transformed cells.     

A pool of peptides extracted from wheat bud chromatin inhibits tumor cell growth by causing defective DNA synthesis

Background

We previously reported that a pool of low molecular weight peptides can be extracted by alkali treatment of DNA preparations obtained from prokaryotic and eukaryotic cells after intensive deproteinization. This class of peptides, isolated from wheat bud chromatin, induces growth inhibition, DNA damage, G2 checkpoint activation and apoptosis in HeLa cells. In this work we studied their mechanism of action by investigating their ability to interfere with DNA synthesis.

Methods

BrdUrd comet assays were used to detect DNA replication defects during S phase. DNA synthesis, cell proliferation, cell cycle progression and DNA damage response pathway activation were assessed using 3H-thymidine incorporation, DNA flow cytometry and Western blotting, respectively.

Results

BrdUrd labelling close to DNA strand discontinuities (comet tails) detects the number of active replicons. This number was significantly higher in treated cells (compared to controls) from entry until mid S phase, but markedly lower in late S phase, indicating the occurrence of defective DNA synthesis. In mid S phase the treated cells showed less 3H-thymidine incorporation with respect to the controls, which supports an early arrest of DNA synthesis. DNA damage response activation was also shown in both p53-defective HeLa cells and p53-proficient U2OS cells by the detection of the phosphorylated form of H2AX after peptide treatment. These events were accompanied in both cell lines by an increase in p21 levels and, in U2OS cells, of phospho-p53 (Ser15) levels. At 24 h of recovery after peptide treatment the cell cycle phase distribution was similar to that seen in controls and CDK1 kinase accumulation was not detected.

Conclusion

The data reported here show that the antiproliferative effect exhibited by these chromatin peptides results from their ability to induce genomic stress during DNA synthesis. This effect seems to be S-phase specific since surviving cells are able to progress through their normal cell cycle when the peptide fraction is removed from the culture medium. It is likely that the subsequent apoptosis is a consequence of the failed attempt of the tumour cells to repair the DNA damage induced by the peptides.

     

Constancy and variability in the content of DNA in cerebellar Purkinje cell nuclei. A cytophotometric study.

A cytophotometric study of DNA content in Purkinje cells of the cerebellum of rats, cats, chicken and humans (Feulgen staining) revealed that in a certain number of cells the amount of NDA ranged between the diploid and tetraploid level (H2C cells). The incidence of H2C Purkinje cells varied among the species studied. In rats, which were studied most thoroughly, these cells amounted on average to 3%. In some rats, as well as in some cats and chickens H2C Purkinje cells were entirely absent. In the group of animals possesing H2C Purkinje cells, great interindividual differences were observed. In rats for instance, the incidence of these cells varied from 1 to 23 per cent. Topographic analyses carried out in rat and human cerebellum revealed that H2C Purkinje cells occurred more frequently in the hemispheres than in the vermis. No significant differences were found in the number of H2C Purkinje cells in healthy and Kilham-DNA-virus infected rats. Densitometric analysis of the distribution of nuclear chromatin showed that H2C Purkinje cells were richer in condensed chromatin, especially in the region of the nucleolus, which apparently contains the hyperploid surplus of DNA. It is proposed that the phenomenon of DNA hyperdiploidy arises as a result of either incomplete S-phase in some immature Purkinje cell precursors or the amplification of some DNA sequences particularly those localized in the nucleolar region.     

Autoradiographic Study of Gamma-Ray Induced Unscheduled DNA Synthesis in Bean Root Meristem Cells

The gamma-ray induced unscheduled DNA synthesis in root meristem cells of Vica faba was studied autoradiographically by calculating the number of cells with different 3H-thymidine labelling degree. It was found that the level of unscheduled synthesis in cells with intermediate dose (500 R) irradiation was higher than that in cells with lower dose (250 R) irradiation; however, higher dose (1000 R) irradiation would inhibit the reparative replication.     

Modulation of genotoxic and cytotoxic effects of aromatic amines in monolayers of rat hepatocytes

Cultured rat hepatocytes exposed to 2-acetylaminofl uorene (AAF), 2-aminofl uorene (AF) or N-hydroxy-2-acetylaminofluorene (N-OH-AFF) for 3 hrs resulted in an increase in DNA repair measured as unscheduled DNA synthesis, with N-OH-AAF > AAF > AF. Cytotoxic effects were only seen with N-OH-AAF above 10^–6 M. -Naphthof avone increased the unscheduled DNA synthesis and cytotoxic effects of N-OH-AAF, whereas it decreased DNA repair and the covalent binding of AAF to cellular proteins. In contrast, very little effects of paraoxon were seen on the repair synthesis elicited by AAF, AF or N-OH-AAF. The addition of ascorbate reduced the covalent binding of AAF, the DNA repair synthesis caused by AAF and N-OH-AAF, and the cytotoxic effects of N-OH-AAF. The addition of pentachlorophenol or salicylamide all resulted in similar effects as ascorbate, through reduction of sulfation. Galactosamine, an inhibitor of glucuronidation, and the nucleophile GSH caused no or only minor effects of the activation of AAF, AF or N-OH-AAF as judged from the endpoints tested. These results are consistent with an arylnitrenium ion, a sulfate ester or a free radical as the arylamine metabolite causing cellular DNA damage, whereas the sulfate ester or a radical intermediate may be responsible for the cytotoxic effects of N-OH-AAF.Abbreviations AAF 2-acetylaminofluorene - AF 2-aminofluorene - N-OH-AAF N-hydroxy-2-acetylaminofluorene - cytochrome P-450 a collective term for all forms of the cytochrome P-450 polysubstrate monooxygenase - DMSO dimethyl sulfoxide - HU hydroxyurea - S-9 9000 g supernatants - LDH lactate dehydrogenase - UDS unscheduled DNA synthesis - ANF -naphthoflavone - GSH glutathione - PCP pentachlorophenol - MET metyrapone - PAR paraoxon - DEM dimethylmaleate     

Increase of uv-induced DNA repair synthesis during blast transformation of human lymphocytes.

UV-induced DNA repair synthesis, measured as unscheduled DNA synthesis, was studied in human peripheral lymphocytes in various phases of the cell cycle. Mitogen transformation of the lymphocytes was effected with phytohemagglutinin (PHA), and the stage in the cell cycle was determined by measuring the Feulgen DNA content and the dry mass in individual cells by cytophotometry. The initial rate of repair was determined by autoradiography after UV-light irradiation (19.2 J/m²) and incubation of the cells for 30 min with [³H]thymidine. When the cells progressed from the G0 to the G1 phase there was a 3-fold increase in the grain count. The correlation between the grain count and the dry mass indicated an increase in the initial rate of repair during the progression of cells from G0 to G2 phase. G2 cells were more heavily labelled than those in G1, but there did not seem to be any difference between these two phases as regards the relationship between grain count and DNA content. The results indicate that the initial rate of UV-induced DNA repair may differ in various phases of the lymphocyte cell cycle.