A UV-resistant mutant without an increased repair synthesis activity, established from a UV-sensitive human clonal cell line

When cells of a human clonal cell line, RSa, with high sensitivity to UV lethality, were treated with the mutagen, ethyl methanesulfonate, a variant cell strain, UVr-1, was established as a mutant resistant to 254-nm far-ultraviolet radiation (UV). Cell proliferation studies showed that UVr-1 cells survived and actively proliferated at doses of UV-irradiation that greatly suppressed the proliferation of RSa cells. Colony-formation assays also confirmed the increased resistance of UVr-1 cells to UV. The recovery from a UV-induced inhibition in DNA synthesis, as [methyl-3H]thymidine uptake into cellular DNA, was more pronounced in UVr-1 cells than in RSa cells. Nevertheless, there was no significant difference in the activity of UV-induced DNA repair synthesis in either cell line, as estimated by the extent of unscheduled DNA synthesis and DNA repair replication. UVr-1 cells were also more refractory to 4-nitroquinoline 1-oxide (4NQO), but the activity of DNA repair synthesis induced by 4NQO in UVr-1 cells was much the same as in the RSa cells. Both N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) sensitivity and MNNG-induced DNA repair synthesis activity in UVr-1 cells were similar to that of RSa cells. These characteristics of UVr-1 cells are discussed in the light of a previously reported UV-resistant variant, UVr-10, which had an increased DNA repair synthesis activity.     

Comparative induction of unscheduled DNA synthesis by physical and chemical agents in non-proliferating primary cultures of rat hepatocytes

The incorporation of [³H]thymidine into DNA due to unscheduled DNA synthesis (UDS) induced by N-OH-2-acetylaminofluorene (N-OH-AAF), aflatoxin B₁ (AFB₁), ethyl methanesulfonate (EMS) and ultra-violet light was quantitated by autoradiography and by scintillation spectrometry on acid precipitable macromolecules or DNA insolated by isopycnic banding in cesium chloride (CsCl). Dose-dependent increases in UDS due to N-OH-AAF and AFB₁ treatment were found. Only 2-fold increases at the highest dose levels were found, however, when incorporated [³H]thymidine was quantitated by scintillation spectrometry. Seven, 11, and 25-fold increases in UDS induced by AFB₁, N-OH-AAF and ultra-violet light, respectively, were found when incorporated [³H]thymidine was quantitated by autoradiography, indicating a high sensitivity for detecting ‘long patch’ repair by this technique. Scintillation spectrometry was completely ineffective in detecting EMS-induced UDS, whereas autoradiography demonstrated a small, but significant induction in [³H]thymidine incorporation at high dose levels. The non-proliferative nature of the primary hepatocyte prohibits the uniform radioactive prelabeling of DNA, necessary in other techniques, for the detection of ‘short patch’ repair induced by compounds such as EMS. Therefore, the sensitivity of the primary cultured rat hepatocyte in conjunction with UDS for detecting DNA damage caused by mutagens and carcinogens which induce ‘short patch’ repair may be limited to the autoradiographic analysis of the unscheduled incorporation of [³H]thymidine.     

DNA nucleotide excision-repair synthesis is dependent of pertubations of deoxynucleoside triphosphate pool size

We have investigated the effects of fluctuations in deoxynucleoside triphosphate (dNTP) pool size on DNA repair and, conversely, the effect of DNA repair on dNTP pool size. In confluent normal human skin fibroblasts, dNTP pool size was quantitated by the formation of [³H]TTP from [³H]thymidine; DNA repair was examined by repair replication in cultures irradiated with UV light. As defined by HPLC analysis, the [³H]TTP pool was formed within 30 min of the addition of [³H]thymidine and remained relatively constant for the next 6 h. Addition of 2–10 mM hydroxyurea (HU) caused a gradual 2–4-fold increase in the [³H]TTP pool as HU inhibited DNA synthesis but not TTP production. No difference was seen between the [³H]TTP pool size in cells exposed to 20 M/m² and unrradiated controls, although DNA-repair synthesis was readily quantitated in the former. This result was observed even though the repair replication protocol caused an 8–10-fold reduction in the size of the [³H]TTP pool relative to the initial studies. In the UV excision-repair studies the precense of hydroxyurea did not alter the specific activity of [³H] thymidine 5'-monophospahte incorporated into parental DNA due to repaier replication. These results suggest that fluctuations in the deoxynucleoside triphosphate pools do not limit the extent of excision-repair sythesis in human cells and demonstrate that DNA nucleotide excision-repair synthesis does not significantly diminish the size of the [³H]TTP pool.     

Characterization of a UV-resistant strain,UVr-10, established from a human clonal cell line,RSb, with high sensitivity to UV, 4NQO,MNNG and interferon

Characterization was performed of a UV-resistant variant strain, UV^r-10, derived from a human clonal cell line, RSb, with high sensitivity not only to the lethal effect of 254-nm far-ultraviolet (UV) irradiation but also to the effects of 4-nitroquinoline 1-oxide (4NQO) and N-methyl-N′-nitro-N-nitrosoguanidine (MNNG), and to the cell proliferation inhibition (CPI) effect of human leukocyte interferon (HuIFN-α) preparations.Colony-formation assays confirmed the increased resistance of UV^r-10 cells to both UV and 4NQO, but no increased resistance to MNNG. The marked recovery from the inhibition of the total cellular DNA synthesis of UV^r-10 cells, estimated by [methyl-³H]thymidine ([³H]dThd) uptake into the cellular DNA materials, was seen during 6 h after irradiation or 4NQO treatment even under the conditions without the recovery uptake into those of the parent RSb cells, but not during 6 h after MNNG treatment. Comparative studies on the activity of DNA repair synthesis between UV^r-10 and RSb cells, by measuring the extent of UV-, 4NQO- or MNNG-induced unscheduled DNA synthesis (UDS) and DNA repair replication, revealed an increased activity of UV^r-10 cells to UV and 4NQO but no significant increase of the activity to MNNG. These results suggest that increased DNA repair activities of a UV^r-10 cell line may account for its becoming resistant to the lethal effect of UV and 4NQO.Concerning the CPI effect of HuIFN-α, UV^r-10 cells showed increased resistance. Further, the DNA synthesis activity of UV^r-10 cells was not so inhibited by HuIFN-α exposure as that of RSb cells. However, HuIFN-α-exposed UV^r-10 cells showed more enhanced levels of activity of pppA(2′p5′A)_n synthetase (2–5A synthetase) than the exposed RSb, thus suggesting that HuIFN-α could exert enough intracellular effect even in UV^r-10 cells.The implication of the increased resistance of UV^r-10 cells to the effects of UV, 4NQO and HuIFN-α, but not to those of MNNG, is discussed.     

Unscheduled DNA synthesis induced in mouse spermatids after combined treatment with methyl methanesulfonate and X-rays.

Unscheduled DNA synthesis (UDS), which is considered to be DNA repair, has been studied in early- to mid-spermatid stages of the mouse after combined treatments with X-rays and methyl methanesulfonate (MMS). UDS in spermatids was detected by giving testicular injections of [methyl-3H]thymidine ([3H]dThd) and making use of the fact that no scheduled DNA synthesis occurs in the germ cells after the last S period in primary spermatocytes. X-rays and MMS are each able to induce UDS in mouse spermatids. However, there was a statistically significant reduction in the amount of UDS observed when X-ray exposures of from 200 to 600 R were given 4 h before an i.p. injection of 75 mg/kg of MMS and concurrent testicular injections of [3H]dThd. This reduction in UDS is more than can be explained by the completion of repair of X-ray-induced DNA lesions. We suggest that the reduction in UDS is the result of an X-ray-produced impairment of a least a part of the repair mechanism involved in correcting MMS-induced DNA lesions. When the time interval between a 600-R X-ray exposure and MMS treatment was between 3 and 20 h (latest time interval s;udied) there was a statistically significant reduction of UDS in the spermatids. No significant decrease in UDS response occurred when the time interval between radiation exposure and MMS treatment was less than approximately 3 h.     

Determination of sialidase activities in HeLa cells using gangliosides specifically labeled in N-acetylneuraminic acid.

Radioactive gangliosides, N-[¹⁴C]-acetylneuraminylgalactosylglucosylceramide ([¹⁴C]G_M3) and N- [¹⁴C]-acetylneuraminylgalactosyl-N-acetylgalactosaminyl- [N-acetylneuraminyl]-galactosylglucosylceramide ([¹⁴C]G_D1a), were synthesized from CMP-[¹⁴C]sialic acid and the appropriate precursor glycolipid using specific sialyltransferase activities. These compounds were isolated and used as substrates to assay sialidase activity in HeLa cells. Although sodium butyrate added to the culture medium increased G_M3 biosynthesis in HeLa cells, sialidase activity, as well as that of other glycohydrolases, was the same in control and butyrate-treated HeLa cells. The same sialidase activity appeared to hydrolyze both [¹⁴C]G_M3 and [¹⁴C]G_D1a, but not fetuin; the enzyme had a pH optimum of 5.0 and a K_m of 75 μm for the ganglioside substrates. Although the cells contained a high sialidase activity (4–7 nmol/mg of protein/h) and could bind exogenously added [¹⁴C]G_M3, no “ecto”-sialidase activity would be detected in intact cells under conditions where a close to physiological pH is maintained. The results indicate that ganglioside sialidase is not involved directly in the morphological and biochemical differentiation induced in HeLa cells by exposure to sodium butyrate.     

DNA repair after gamma irradiation in lymphocytes exposed to low-frequency pulsed electromagnetic fields

The effect of exposure to extremely low-frequency pulsed electromagnetic fields (EMFs) on DNA repair capability and on cell survival in human lymphocytes damaged in vitro with gamma rays was studied by two different micromethods. In the first assay, which measures DNA repair synthesis (unscheduled DNA synthesis, UDS), lymphocyte cultures were stimulated with phytohemagglutinin (PHA) for 66 h and then treated with hydroxyurea (which blocks DNA replication), irradiated with 100 Gy of 60Co, pulsed with [3H]thymidine ([3H]TdR), and then exposed to pulsed EMFs for 6 h (the period in which cells repaired DNA damage). In the second assay, which measures cell survival after radiation or chemical damage, lymphocytes were first irradiated with graded doses of gamma rays or treated with diverse antiproliferative agents, and then stimulated with PHA, cultured for 72 h, and pulsed with [3H]TdR for the last 6 h of culture. In this case, immediately after the damage induced by either the radiation or chemicals, cultures were exposed to pulsed EMFs for 72 h, during which cell proliferation took place. Exposure to pulsed EMFs did not affect either UDS or cell survival, suggesting that this type of nonionizing radiation--to which humans may be exposed in the environment, and which is used for both diagnostic and therapeutic purposes--does not affect DNA repair mechanisms.     

Enhancement of repair replication in mammalian cells by hydroxyurea

The effect of hydroxyurea on DNA repair replication has been studied in Chinese hamster ovary cells. Mitotic cells were treated with UV irradiation, methyl methanesulfonate or nitrogen mustard and incuated in the presence of each of the 4 [³H]deoxyribonucleosides plus BrdUrd and FdUrd for 2 h. The amount of repair replication was quantitated on CsCl gradients and similar values were obtained for each nucleoside. In all cases addition of HU during the incubation period increased these values approximately 2-fold. Following MMS treatment, pool sizes for each of the nucleosides were estimated by varying the amount of exogenously supplied nucleoside. They were found to be insensitive to the addition of HU and it is concluded that the increased incorporation of [³H]deoxyribonucleosides in the presence of HU reflects an increased amount of repair replication.     

Repair replication and unscheduled DNA synthesis in mammalian cell lines showing differential sensitivity to alkylating agents

Repair replication has been measured by CsCl density gradient centrifugation in cell lines showing differential sensitivity to mono- and bifunctional alkylating agents. A correlation between cellular sensitivity as measured by the D₀ value and amount of repair replication was demonstrated after exposure of Yoshida cells to nitrogen mustard (HN2) and methylene dimethanesulphonate (MDMS). No differences in the amount of repair replication after methyl methanesulphonate (MMS) were observed in two L5178Y cell lines which differed in sensitivity by virtue of the shoulder size only. The Yoshida cell lines showed no difference in sensitivity to MMS and no difference in amount of repair replication. Incorporation of tritiated thymidine 9[³H]TdR) after drug treament was also measured by autoradiography. The qualitative differences observed between the two cell lines were similar to those obtained in density gradient experiments. The temporal pattern of [³H]TdR uptake indicated that the reduced repair replication observed in the sensitive line after HN2 and MDMS is not due to slower synthesis. The kinetics of [^3H]TdR incorporation differed for all three mutagens suggesting that different enzymes may be involved in each case.     

The mechanism of inhibition of DNA replication in HeLa S3 cells by the antitumor drug Ledakrin and other antitumor 1-nitro-9-aminoacridines

These studies were aimed at characterizing the capability of an antitumor DNA-damaging drug, Ledakrin, and its analogs to inhibit DNA replication in HeLa S3 cells. The studied agents are extremely potent inhibitors of [³H]thymidine incorporation in whole cells. These compounds produced also a potent dose- and time-dependent inhibition of DNA synthesis in subcellular systems derived from drug-treated cells, as found by [³H]dGTP incorporation in cellular lysates and nuclei. Experiments in which nuclei from control and drug-treated cells were supplemented with cytoplasmic fractions from either control or drug-treated cells, or with exogenous DNA, demonstrate that Ledakrin and other 1-nitro-9-aminoacridines inhibit DNA replication in HeLa S3 cells by interfering with the DNA template, while not affecting DNA polymerase(s) or other enzymes and replication factors. The negligible effect of Ledakrin added to lysates or nuclei from untreated cells suggests that metabolic activation is a prerequisite for replication inhibition by Ledakrin. Analysis of the size of newly synthesized DNA, by alkaline sucrose gradient sedimentation, indicates that Ledakrin does not inhibit the initiation of replication but does interfere with chain growth. Impairment of DNA replication by 1-nitro-9-aminoacridines seems to originate from DNA damage and to result in the inhibition of cellular growth.     

Adverse effects of hyperbaric oxygen on [3H]uridine incorporation and uridine kinase activity in B104 rat neuroblastoma cells

The effects of hyperbaric oxygen on uracil nucleotide metabolism in B104 rat neuroblastoma cells were investigated. Cells exposed to 10 atm O₂ for 4 h incorporated markedly less [³H]uridine into the acid-soluble fraction and RNA compared to cells kept in ambient air. The acid-soluble fraction of the oxygen-treated cells contained less total [³H]uridine phosphates ([³H]UMP + [³H]UDP + [³H]UTP) than air-treated cells. Uridine kinase activity, assayed in cytosolic extracts from cells exposed to 10 atm O₂ for 4 h, was decreased by 46% compared to the air controls. The reduced enzyme activity which appears to account for the depressed [³H]uridine incorporation, may contribute to the lethal effects of oxygen in these cells.Abbreviations DMEM Dulbecco's Modified Eagle's Medium - Hepes 4-(2-hydroxyethyl)-1-piperazineethanesulphonic acid     

Preparation, characterization, and functions of rabbit lymph node populations. III. Antigen-induced uptake of thymidine and dibutyryl cyclic AMP: inhibition of thymidine uptake by cholera toxin and dibutyryl cyclic AMP.

Keyhole limpet hemocyanin (KLH)-primed lymph node cell (LNC) populations were incubated with various amounts of KLH and the cellular incorporation of tritiated thymidine ([³H]TdR) or tritiated N⁶, O^2′ dibutyryl cyclic AMP ([³H]DbcAMP) was determined. T LNC responded more vigorously than did complement receptor lymphocytes (CRL), i.e., B cells, at all KLH concentrations, during all time intervals examined, and in the presence or absence of normal rabbit serum (NRS). The depletion of adherent cells from KLH-primed LNC resulted in no significant decrease in KLH-induced incorporation of either [³H]TdR or [³H]DbcAMP in any of the LNC populations. Thus it appeared that variation among LNC populations in the incidence of macrophages did not account for the marked variation in their responses. Cultures containing equal numbers of T and CRL were induced to incorporate more [³H]TdR or [³H]DbcAMP than either population cultured separately or the sum of their individual responses. It was concluded that KLH-induced incorporation of these substances into primed, isolated LNC, was primarily manifested in the T-cell population. The synergism seen in cultures containing mixtures of T and CRL suggested that B cells are induced to incorporate [³H]TdR or [³H]DbcAMP in the presence of antigen and T-cell product(s). KLH-induced incorporation of [³H]TdR into KLH-primed LNC was inhibited by cholera enterotoxin (CT) and DbcAMP as previously reported. However, CT or DbcAMP inhibited this incorporation into T LNC to a greater extent than into CRL or unfractionated LNC.     

Follicle-stimulating hormone and human chorionic gonadotropin induced changes in granulosa cell glycosyl-phosphatidylinositol concentration

In the present investigation, a hCG sensitive glycosyl-phosphatidylinositol (GPI) was isolated from cultured rat granulosa cells obtained from the ovaries of diethylstilbestrol (DES) implanted immature rats. The inositol-phosphoglycan (IPG) moiety of the GPI-lipid contains galactose, glucosamine, and myoinositol as demonstrated by metabolic labelling of granulosa cells for different time periods (5–96 h) with [³H]galactose, [³H]glucosamine, or [³H]myoinositol and treatment of the purified [³H]GPI with phosphatidylinositol-specific phospholipase C. Labelling equilibrium of the GPI-lipid was achieved after 24 h ([³H]galactose and [³H]myoinositol) or 72 h ([³H]glucosamine) incubation, whereas incorporation of other labelled carbohydrates tested ([³H]galactosamine, [³H]mannose, and [³H]sorbitol) was negligible throughout the time period studied. The glucosamine C-1 appears to be linked through a glycosidic bond to the myoinositol molecule of the IPG moiety as revealed by the generation of phosphatidylinositol (PtdIns) after nitrous acid deamination of dual labelled ([³H]glucosamine/[¹⁴C]palmitate or [³H]glucosamine/[¹⁴C]myristate) glycosyl-phosphatidylinositol. To investigate the fatty acid composition of the diacylglycerol (DAG) backbone of the GPI, granulosa cells were also labelled (5–72 hr) with [¹⁴C]linoleate, [³H]myristate, [³H]-oleate, [³H]palmitate, or [³H]stearate and the radioactivity associated with the purified glycosyl-phosphatidylinositol determined. Incorporation of [³H]palmitate and [³H]myristate into the GPI-lipid peaked after 8 h and 24 h of labelling, respectively, and both fatty acids were partially released after PLA₂ treatment of the dual labelled ([³H]glucosamine/[¹⁴C]palmitate or [³H]glucosamine/[¹⁴C]myristate) GPI. In parallel experiments no significant incorporation of labelled stearate, oleate, or linoleic acid into the DAG backbone of the glycosylphosphatidylinositol could be detected. Granulosa cells were also labelled with [³H]glucosamine in the presence of FSH (30 ng/ml), cholera toxin (1 μg/ml), or the membrane permeable cAMP analog (but)₂ cAMP (1 mM). Time related increases in GPI-labelling were apparent after 48 h and reached a maximum level (3-, 5-, and 7-fold for FSH, CT, and (but)₂ cAMP, respectively) after 72 h in culture. In another set of experiments, granulosa cells were labelled for 72 h with [³H]glucosamine in the presence of (but)₂cAMP (1 mM), TPA (10^?7 M), or combination thereof. The effect of treatment with the membrane permeable cAMP analog on GPI labelling was prevented in the presence of TPA, whereas no differences in [³H]GPI content could be observed in untreated granulosa cells or cells cultured in the presence of the protein kinase C-activating phorbol ester alone. In cells differentiated with FSH (30 ng/ml for 3 days) to induce LH receptors, treatment with hCG (100 ng/ml) induced a rapid (60 sec) and transient (5 min) decrease in the GPI content, whereas no efect of the hormone on undifferentiated granulosa cells could be observed. The rapid effect elicited by hCG on GPI content and turnover may be an early transduction mechanism involved in the biological effects of LH/hCG in differentiated granulosa cells. © 1993 Wiley-Liss, Inc.     

Rapid internalization of exogenous ganglioside GM3 and its metabolism to ceramide in human myelogenous leukemia HL-60 cells compared with control ganglioside GM1

Incorporation and metabolism of exogenous GM3 in human myelogenous leukemia HL-60 cells were analyzed using ³H-labeled GM3 ([³H]GM3). [³H]GM3 was rapidly internalized into the cells (trypsin-resistant fraction) 8 times more than the control, ³H-labeled GM1 ([³H]GM1). In addition, not only incorporation but also metabolism of [³H]GM3 was more rapid than [³H]GM1 in HL-60 cells. Moreover, one of the metabolites was found to co-migrate with ceramide in thin-layer chromatography analysis and ceramide formation from exogenous GM3 is more rapid than that from exogenous GM1. These results suggested that there would be some preferential mechanism to produce ceramide from differentiation-inducible GM3 in HL-60 cells rather than from non-inducing GM1.     

Effect of aging on the interaction of quinuclidinyl benzilate,N-methylscopolamine,pirenzepine, and gallamine with brain muscarinic receptors

The objective of the present study was to investigate the effects of senescence on the binding characteristics of muscarinic receptors by using [³H]quinuclidinyl benzilate ([³H]QNB) and [³H]N-methylscopolamine ([³H]NMS) as ligands in young (3months), middle-age (10months) and old (24 months) male Fischer 344 rats. Muscarinic receptor density was found to decrease significantly with aging in certain brain regions, depending on the ligand employed. Moreover, the relative proportions of M₁ and M₂ muscarinic receptor subtypes was not significantly altered by aging, except in the aged striatum. Furthermore, the dissociation kinetics of [³H]NMS in the cerebral cortex and their allosteric modulation by gallamine were only slightly influenced by age.     

Heterogeneity,position, and functional capability of the macrophages in Peyer's patches

Summary Radioenzymatic assays and light microscope radioautographic studies performed on photophores of Porichthys notatus demonstrated (1) significant amounts of catecholamines (dopamine, noradrenaline, adrenaline) and 5-hydroxytryptamine (serotonin) in these organs; (2) selective uptake and storage of [³H]noradrenaline ([³H]NA) by axon terminals innervating the photocytes, and (3) strong accumulation of [³H]5-hydroxytryptamine ([³H]5-HT) within the photocytes. Uptake and storage of [³H]NA in the nerve fibers were seemingly unaffected by the addition of ten-fold molar concentrations of unlabelled serotonin. Accumulation of [³H]5-HT by the photocytes was dose-dependent and diminished markedly in the presence of ten-fold molar concentrations of non-radioactive noradrenaline. Neither neuronal uptake of [³H]5-HT or [³H]A, nor photocytic accumulation of [³H]A were detectable under the conditions of the present experiments. This information should provide a framework for further investigations of the regulation of photophore luminescence by the biogenic amines.Supported by grants from the National Research Council and Medical Research Council of CanadaJacques de Champlain and Lise Farley provided facilities and expertise with the radioenzymatic techniques. The technical assistance of Sylvia Garcia and Marie-Hélène Parizeau was also appreciated     

Preferential incorporation of [3H]thymidine into polypyrimidine-containing regions in DNA following ultraviolet irradiation of human cells

Ultraviolet irradiation of cells causes damage to DNA, principally to pyrimidine bases. Regions of DNA which are very rich in pyrimidines are therefore likely to be more susceptible to damage by this agent. Polypyrimidines (pyrimidine tracts > 25 nucleotides in length) are known to occur in DNA from many higher organisms. We investigated whether these tracts are particularly sensitive to ultraviolet light by irradiating human diploid flbroblasts and preparing DNA which was labelled with [³H]thymidine during post-irradiation repair replication. Polypyrimidine-containing regions of the DNA were isolated and their content of [³H]thymidine (principally arising from repair synthesis) was compared to their content of [¹⁴C]thymidine (representing bulk DNA). It was found that polypyrimidine-containing regions were enriched (approximately twofold) in ³H compared to ¹⁴C, probably because of greater susceptibility of pyrimidine-rich regions in DNA to ultraviolet light.     

Simultaneous detection of DNA strand breaks and unscheduled DNA synthesis in mutagen-treated human lymphocytes in the absence of hydroxyurea

Human lymphocytes in the quiescent state were exposed to UVC radiation. After irradiation the cells were allowed to repair for various times in the presence of [3H]thymidine or [3H]deoxycytidine in the culture medium. Hydroxyurea was not used to suppress semiconservative DNA replication in the small number of growing cells. After incubation DNA strand breaks were detected by the DNA-unwinding method and the amount of 3H incorporation in DNA was measured by liquid scintillation counting. The results show that the yield of DNA strand breaks and the amount of unscheduled DNA synthesis (UDS) can be measured from the same lymphocyte sample. A low background 3H incorporation in untreated cells could be achieved even in the absence of hydroxyurea. This requires, however, that 3H incorporation is measured only in the double-stranded DNA and that [3H]dCyd is used instead of [3H]dThd as the labelled deoxynucleoside.     

Diethyldithiocarbamate inhibits scheduled and unscheduled DNA synthesis of rat thymocytes in vitro and in vivo--dose-effect relationships and mechanisms of action

In vitro as well as in animal models, diethyldithiocarbamate (DDC) modifies the tumoricidal activity of some antineoplastic agents. To gain further information about the mechanism of action of DDC, we measured (i) in vitro and (ii) in vivo changes in DNA synthesis of rat thymocytes. (i) In vitro, the scheduled (SDS) and unscheduled (UDS) incorporation of [3H]thymidine ([3H]dT) into DNA of rat thymic cells were biphasically inhibited in a dose range of 1-1000 micrograms DDC/ml. The UV-induced UDS was totally suppressed by 10 and 100 micrograms DDC/ml. (ii) In vivo, 1-4 h following intraperitoneal administration of 250-1000 mg DDC per kg body wt., SDS and UDS were inhibited up to about 80% in a dose-dependent manner. Nucleoid sedimentation, uptake of [3H]dT into the cells, and the pattern of phosphorylation of the intracellular [3H]dT following DDC treatment did not reveal any differences to the controls. A possible effect of DDC treatment on the ribonucleotide reductase and the DNA polymerase alpha is suggested.