The action of low doses of gamma radiation on mammalian cells]

Effect of gamma irradiation in low doses (10, 20, 40 and 50 cGy) on HeLa cells was studied. The survival of cells exposed to the irradiation in the dose of 50 cGy was decreased while it remained unchanged in cells irradiated in the dose of 10-40 cGy and their descendants. Nonetheless, their survival following an additional treatment with a mixture of cytosine arabinoside and hydroxyurea was reduced. It was suggested that the genome stability was diminished in irradiated cells and their descendants.     

Change in survival of cells in the first 2 generations after irradiation and exposure to inhibitors of repair synthesis

In experiments on asynchronous population of HeLa S3 cells a study was made of the possibility of assessing DNA lesions which remained unrepaired for a long period of time following gamma-irradiation: in generation "O" directly affected by radiation and in generation "I" following the irradiated one. The presence of DNA damages was estimated by the reduction in survival of exposed cells incubated with inhibitors of repair and replicative syntheses of DNA, namely, with arabinoside cytosine and hydroxyurea. A considerable enhancement of the radiation effect was noted with the inhibitors added 0-6 h after irradiation (generation "O"), and a marked increase in the cell death was registered with the preparations injected 24-30 h after exposure (generation "I"). It is assumed that minor residual lesions persist in the generation of cells, following the one directly affected by gamma-radiation, which have completed the first postirradiation mitosis.     

Enhanced Post-Irradiation Recovery of the Haemopoietic System In Animals Pretreated With A Variety of Cytotoxic Agents

It is known that pretreatment of mice with bacterial endotoxin and certain stathmokinetic agents between 1 and 3 days prior to exposure to ionizing radiation reduce radiation lethality. In this communication it is shown that pretreatment with cytosine arabinoside, methotrexate, nortestosterone and chlorambucil reduces radiation (1000 rad) induced lethality. This reduction can be ascribed to enhanced regeneration of the haemopoietic system in pretreated animals and not to increased survival of colony-forming cells (CFU) in these animals. Regeneration of CFUs was underway within 24 hr after 900 rad in the pretreated mice but did not start until day 3 in mice treated with γ radiation only. Two agents, namely radiation itself (either 75 or 150 rad) and busulphan (10 mg/kg) did not reduce the lethal effects of subsequent γ irradiation nor enhance the regeneration of CFUs, even though radiation, like the protective cytosine arabinoside, induces early CFUs proliferation. The administration of nucleoside precursors of DNA enhanced regrowth of haemopoietic stem cells to an extent comparable with that of the most effective pretreatment, cytosine arabinoside. It is postulated that drugs like cytosine arabinoside operate by causing cell death, providing a source of DNA that can enhance the regrowth of surviving stem cells in the bone marrow.     

Dependence of lethality induced by a direct DNA perturbation of synchronized human diploid fibroblasts on different periods of the DNA synthetic period (S Phase)

The cytotoxic effect of a direct perturbation of DNA during various portions of the DNA synthetic period (S phase) of cultured human diploid fibroblasts was examined. The cells were synchronized by a period of growth in low serum with a subsequent blockage of the cells at the G1/S boundary by hydroxyurea. This method resulted in over 90% synchrony, although approximately 20% of the cells were noncycling. Synchronized cells were treated for each of four 2-hour periods during the S phase with 5-bromodeoxyuridine (0.1–10 μM), followed by irradiation with near-UV (5–10 min). The 5-bromodeoxyuridine-plus-irradiation treatment was cytotoxic, while treatment with 5-bromodeoxyuridine alone or irradiation alone was not cytotoxic. The cytotoxicity was dependent upon the periods of S phase during which treatment was administered. The highest lethality was observed for treatment in early to middle S phase, particularly in the first 2 hours of S phase, whereas scarce lethality was observed in late S phase. The extent of substitution of 5-bromodeoxyuridine for thymidine in newly synthesized DNA was similar in every period of the S phase. Furthermore, no specific period during S phase was significantly more sensitive to treatment with respect to DNA damage, as determined by an induction of unscheduled DNA synthesis. These results suggest that a certain region or regions in the DNA of human diploid fibroblasts, as designated by their specific temporal relationship in the S phase, may be more sensitive to the DNA perturbation by 5-bromodeoxyuridine treatment plus near-UV irradiation for cell survival.     

The repair of methyl methanesulphonate-induced lesions in the DNA of a murine lymphoma cell

The introduction of single-strand breaks into the DNA of a murine lymphoma (L5178Y) cell treated in vivo with methyl methanesulphonate (MMS) and the behaviour of these breaks on post-treatment incubation were studied. A large proportion of single-strand breaks present after MMS treatment could be repaired as shown by sedimentation in alkaline sucrose. Two inhibitors of DNA synthesis, hydroxyurea and cytosine arabinoside affected the repair process differently-hydroxyurea had only a small effect while cytosine arabinoside blocked repair and at some doses allowed further degradation of the DNA. It was also found that the level of ‘repair replication’ in the presence of cytosine arabinoside was lower than that found in the presence of hydroxyurea.     

Effect of inhibitors of DNA synthesis on the sensitivity of mammalian cells to radiation with different levels of linear energy transfer

Radiosensitivity of Chinese hamster cells increased by 1.71 times in the presence of arabinoside cytosine and hydroxyurea after gamma-irradiation, and no sensitization occurred after irradiation with carbon ions of 6.6 MeV/nuclon (LET, 227 keV/micron). Under a standard set of conditions, the RBE coefficient of carbon ions decreased from 3.09 to 1.78 in the presence of DNA synthesis inhibitors. The possible mechanism of this phenomenon is discussed.     

Cytogenetic effect of irradiation and subsequent cytosine arabinoside and hydroxyurea treatment on Chinese hamster cells in the G1 phase of the cell cycle

A two-hour treatment of Chinese hamster cells at the G1 stage of the cell cycle with arabinoside cytosine combined with hydroxyurea after X-irradiation (50-300 cGy) produced a 2- to 4-fold increase in the frequency of chromosome aberrations. The mitotic selection method was used to synchronize the cells. The potentiating effect of the inhibitors, that was estimated by the yield of centric exchanges, decreased with increasing radiation dose. It is suggested that DNA repair processes determining a linear component of the dose-response curve are modified within the dose-range under study.     

Effects of inhibitors of DNA synthesis on the stimulation of mouse erythroid cells by erythropoietin

In cultures of foetal mouse liver cells the acceleration of haemoglobin synthesis provoked by erythropoietin is inhibited by FUdR, cytosine arabinoside, hydroxyurea and BUdR, even when these have little effect on either the basal rate of DNA synthesis or on the increase which occurs soon after the addition of erythropoietin to the medium. This seems to be correlated with an inhibition of the production of macro-erythroblasts and macrocytes which normally follows treatment of these cells with erythropoielin.     

Hydroxyurea: effects on deoxyribonucleotide pool sizes correlated with effects on DNA repair in mammalian cells

We have measured deoxyribonucleotide pool sizes in different cell types: normal human, transformed human (HeLa), and the permanent hamster line CHO-K1. The range of sizes of the four DNA precursor pools in CHO cells is far greater than in human cells. It is a general rule that hydroxyurea causes rapid depletion of pools (except for dTTP) until the pool present in smallest amount is exhausted; this suggests a tight coupling of the pools to DNA replication (the presumed main cause of the depletion). The effect of hydroxyurea on DNA repair after ultraviolet irradiation (namely, a relatively small accumulation of incomplete repair sites blocked at the resynthesis stage) is probably accounted for by the reduced availability of DNA precursors. However, depletion of the dCTP pool is not an adequate explanation for the observed enhancement by hydroxyurea of the inhibitory effect of cytosine arabinoside; we suggest other possible modes of action. Ultraviolet irradiation has only small effects on the levels of deoxyribonucleotides.     

Inhibition of the repair of neutron-induced DNA single-strand breaks in experimental tumor cells

Nicotinamide and arabinoside cytosine mixed with hydroxyurea were shown to influence the relative amount of double-stranded DNA in Ehrlich ascites tumor cells in vitro subjected to single irradiation (10-30-52 Gy) and in Guerin's carcinoma in rat lungs exposed to fractionated 6 MeV neutron-radiation (1.25 Gy X 4). The DMF values for Ehrlich ascites tumor were a function of a dose range and the duration of the drugs' effect. Guerin's carcinoma DNA was found to be affected more readily when treated with radiation and drugs than when exposed to neutron radiation alone.     

The Rec1 Gene of Ustilago Maydis, Which Encodes a 3'' -> 5'' Exonuclease, Couples DNA Repair and Completion of DNA Synthesis to a Mitotic Checkpoint

Mutation in the REC1 gene of Ustilago maydis results in extreme sensitivity to killing by ultraviolet light. The lethality of the rec1-1 mutant was found to be partially suppressed if irradiated cells were held artificially in G2-phase by addition of a microtubule inhibitor. This mutant was also found to be sensitive to killing when DNA synthesis was inhibited by external means through addition of hydroxyurea or by genetic control in a temperature-sensitive mutant strain defective in DNA synthesis. Flow cytometric analysis of exponentially growing cultures indicated that wild-type cells accumulated in G2 after UV irradiation, while rec1-1 cells appeared to exit from G2 and accumulate in G1/S. Analysis of mRNA levels in synchronized cells indicated that the REC1 gene is periodically expressed with the cell cycle and reaches maximal levels at G1/S. The results are interpreted to mean that a G2-M checkpoint is disabled in the rec1-1 mutant. It is proposed that the REC1 gene product functions in a surveillance system operating during S-phase and G2 to find and repair stretches of DNA with compromised integrity and to communicate with the cell cycle apparatus.     

UV-induced unscheduled DNA synthesis in differentiated and dedifferentiated lymphocytes from human peripheral blood under the action of DNA-repair and -replication inhibitors

The UV-stimulated unscheduled synthesis (US) of DNA has been investigated in lymphocytes of human peripheral blood in correlation with the extent of differentiation under the action of inhibitors of DNA synthesis and repair: caffeine, hydroxyurea (HU), cytosine arabinoside (ara-C) and 3-methoxybenzamide (3-MB). The US of DNA was investigated in dedifferentiated (PGA-stimulated) and in differentiated (PGA-unstimulated) lymphocytes. Caffeine and HU inhibited US of DNA more intensely in PGA-stimulated cells, and ara-C and ara-C in combination with HU--in unstimulated cells. 3-MB enhanced US of DNA in PGA-stimulated (but not in PGA-unstimulated) lymphocytes.     

The characteristics of enhanced DNA synthesis in L cells treated with interferon and arginine-deprived

DNA synthesis as measured by incorporation of radioactive thymidine or deoxyadenosine is enhanced up to ten-fold in interferon-treated L929 cells as compared to cells not treated with interferon when both were incubated in arginine-deficient medium. Rates and amounts of RNA and protein synthesis were only modestly increased by comparison. The effect was marked after 2 days of arginine starvation and at an interferon dose of 20 PRD₅₀. The labelled product was DNasesensitive and its synthesis was inhibited by cytosine arabinoside and hydroxyurea, but not by puromycin or actinomycin. Autoradiographic studies indicated that label incorporation was entirely intranuclear in interferon-treated cells and substantially greater than non-treated cells.     

Immunoreactivity to antinucleoside antibodies in X-irradiated HeLa cells

Synchronized HeLa cells were stained with antibodies to purine and pyrimidine nucleosides by immunofluorescent and immunoperoxidase techniques. These antibodies react only with denatured or single-stranded regions of DNA. Nuclear attachment of antibody was seen only during the period of DNA synthesis as determined by ³H-thymidine incorporation. Positive nuclear immunoreactivity was seen in approx. 15% of cells obtained by mitotic selection at a time corresponding to the G 1 phase. After exposure to ionizing radiation, 80% of the G 1 cells were reactive. Induction of immunoreactivity was dose dependent over the range of 100 to 1 000 rads. Treatment of irradiated G 1 cells with deoxyribonuclease completely eliminated the positive nuclear reaction. Exposure to ribonuclease had no effect. Incubation of the G 1 cells for 90 min at 37 or 0–4 °C after the administration of 1 000 rads resulted in a prompt decrease of immunoreactivity to control levels. However, in the presence of 0.04 μg/ml actinomycin D, positive nuclear staining remained at high levels. No such effect could be observed as a result of exposure to cytosine arabinoside or hydroxyurea. It is concluded that X-irradiation of G 1 HeLa cells produces single-stranded regions in nuclear DNA that can be detected by anti-pyrimidine and anti-purine antibodies.     

Colcemid inhibits the rejoining of the nucleotide excision repair of UVC-induced DNA damages in Chinese hamster ovary cells

In our previous study, we found that colcemid, an inhibitor of mitotic spindle, promotes UVC-induced apoptosis in Chinese hamster ovary cells (CHO.K1). In this study, a brief treatment of colcemid on cells after but not before UV irradiation could synergistically reduce the cell viability. Although colcemid did not affect the excision of UV-induced DNA damages such as [6-4] photoproducts or cyclobutane pyrimidine dimers, colcemid accumulated the DNA breaks when it was added to cells following UV-irradiation. This colcemid effect required nucleotide excision repair (NER) since the same accumulation of DNA breaks was barely or not detected in two NER defective strains of CHO cells, UV5 or UV24. Furthermore, the colcemid effect was not due to semi-conservative DNA replication or mitosis since the colcemid-caused accumulation of DNA breaks was also seen in non-replicating cells. Moreover, colcemid inhibited rejoining of DNA breaks accumulated by hydroxyurea/cytosine arabinoside following UV irradiation. Nevertheless, colcemid did not affect the unscheduled DNA synthesis as assayed by the incorporation of bromodeoxyuridine. Taken together, our results suggest that colcemid might inhibit the step of ligation of NER pathways.     

Induction of chromosome damage by Neurospora endonuclease in repair-inhibited quiescent normal human fibroblasts

The purpose of these experiments was to determine the role of double-strand breaks in chromosome aberration formations. Quiescent normal human fibroblasts were treated with 3 μM nitrogen mustard and then allowed to repair their DNA damage for 24 h prior to cell fusion and induction of premature chromosome condensation. The extent of chromosome damage was determined in the G1 prematurely condensed chromosomes (G1 PCC). The presence of cytosine arabinoside and hydroxyurea during the repair period in order to accumulate single-strand DNA breaks resulted in an increase in the chromosome-break frequency. Treatment of these repair-inhibited cells with single-strand-specific neurospora endonuclease during fusion to change single-strand lesions into double-strand breajs resulted in a doubling of the aberration frequency. These results support the notion that double-strand breaks are important in chromosome-aberration formation.     

The repair of DNA damage induced in human lymphocytes by gamma rays and fast neurons

When Go human lymphocytes are exposed either to gamma-rays or to d(50)-Be neutrons and then immediately incubated in presence of cytosine arabinoside, the frequency of chromosomal aberrations which is normally observed after radiation exposure only is sharply increased. This enhancement of the aberrations, particularly the dicentrics, is, however, less marked when cytosine arabinoside is administered at longer intervals of time after irradiation. For gamma-rays, the treatment with cytosine arabinoside has no effect on the dicentrics yield when given 5 h after irradiation, indicating that the repair is completed within the 5 h after irradiation and that the lesions are not anymore available to produce exchange aberrations. For d(50)-Be neutrons, the time of repair takes approximately 5 h after a dose of 2.0 Gy, whereas it appears to be shorter (3 h) after a dose of 0.5 Gy.     

Colcemid inhibits the rejoining of the nucleotide excision repair of UVC-induced DNA damages in Chinese hamster ovary cells

In our previous study, we found that colcemid, an inhibitor of mitotic spindle, promotes UVC-induced apoptosis in Chinese hamster ovary cells (CHO.K1). In this study, a brief treatment of colcemid on cells after but not before UV irradiation could synergistically reduce the cell viability. Although colcemid did not affect the excision of UV-induced DNA damages such as [6–4] photoproducts or cyclobutane pyrimidine dimers, colcemid accumulated the DNA breaks when it was added to cells following UV-irradiation. This colcemid effect required nucleotide excision repair (NER) since the same accumulation of DNA breaks was barely or not detected in two NER defective strains of CHO cells, UV5 or UV24. Furthermore, the colcemid effect was not due to semi-conservative DNA replication or mitosis since the colcemid-caused accumulation of DNA breaks was also seen in non-replicating cells. Moreover, colcemid inhibited rejoining of DNA breaks accumulated by hydroxyurea/cytosine arabinoside following UV irradiation. Nevertheless, colcemid did not affect the unscheduled DNA synthesis as assayed by the incorporation of bromodeoxyuridine. Taken together, our results suggest that colcemid might inhibit the step of ligation of NER pathways.