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1.
Hydroxyurea treatment affects the G1 phase in next generation CHO cells   总被引:1,自引:0,他引:1  
DNA replication kinetics were studied in populations of synchronized CHO cells treated in the previous generation with hydroxyurea. These CHO cells were re-synchronized by selective detachment of mitotic cells after previously synchronized G1 traversing cultures were treated with 0.1 mM and 2 mM hydroxyurea for 9 and 13 h. Our results show that these cells exhibit a shortening of G1 of at least 1 h relative to cells selected in mitosis from untreated exponentially growing cultures. Survival studies indicated that the hydroxyurea treatments did not affect plating efficiencies. Cell viability was reduced when the initially synchronized populations were blocked with 2 mM, but not 0.1 mM hydroxyurea for greater than 13 h. DNA replication measurements after these blocks showed that all cultures treated with 2 mM hydroxyurea for either 9, 13 or 15 h were blocked at the same point near the G1/S boundary, and then progressed through S phase with similar kinetics. The observed shortening of G1 in the next generation of these cells was independent of both the concentration (0.1 or 2.0 mM) and the time (9 or 13 h) of the hydroxyurea block. These results suggest that specific events relating to the next cell generation can be uncoupled from DNA synthesis and can occur when hydroxyurea inhibits normal cell cycle traverse of G1 cells into and through S phase.  相似文献   

2.
The effect of hydroxyurea and 5-fluorodeoxyuridine (FdUrd) on the course of growth (RNA and protein synthesis) and reproductive (DNA replication and nuclear and cellular division) processes was studied in synchronous cultures of the chlorococcal alga Scenedesmus quadricauda (Turp.) Bréb. The presence of hydroxyurea (5 mg·L?1)from the beginning of the cell cycle prevented growth and further development of the cells because of complete inhibition of RNA synthesis. In cells treated later in the cell cycle at the time when the cells were committed to division, hydroxyurea present in light affected the cells in the same way as a dark treatment without hydroxyurea; i. e. RNA synthesis was immediately inhibited followed after a short time period by cessation of protein synthesis. Reproductive processes including DNA replication to which the commitment was attained, however, were initiated and completed. DNA synthesis continued until the constant minimal ratio of RNA to DNA was reached. FdUrd (25 mg·L?1) added before initiation of DNA replication in control cultures prevented DNA synthesis in treated cells. Addition of FdUrd at any time during the cell cycle prevented or immediately stopped DNA replication. However, by adding excess thymidine (100 mg·L?1), FdUrd inhibition of DNA replication could be prevented. FdUrd did not affect synthesis of RNA, protein, or starch for at least one cell cycle. After removal of FdUrd, DNA synthesis was reinitiated with about a 2-h delay. The later in the cell cycle FdUrd was removed, the longer it took for DNA synthesis to resume. At exposures to FdUrd longer than two or three control cell cycles, cells in the population were gradually damaged and did not recover at all.  相似文献   

3.
Hydroxyurea, an inhibitor of ribonucleoside diphosphate reductase, completely arrested the net synthesis of DNA for 3–4 h, when it was added in 30 mM concentration to growing cultures ofEscherichia coli K12. Thereafter the net synthesis of DNA started again, although slowly, and simultaneously with it the formation of inorganic pyrophosphatase activity was stimulated leading to a 2-fold increase in the specific activity of the enzyme in 2–3 h. Subsequently cell division began again. In this way a new steady state, stable in the presence of hydroxyurea, was reached. This new state was characterized by the high specific activity of inorganic pyrophosphatase, a small but constant amount of DNA/cell mass (1/4 of the normal value), and large elongated cells. All these changes were slowly reversed during 5–6 h, when the cells were transferred into a drug-free medium.The activity of isoleucyl-tRNA synthetase, assayed as a control, did not change significantly in the presence of hydroxyurea.Hydroxyurea had no effect on the activity of inorganic pyrophosphatase in vitro.  相似文献   

4.
Core histone mRNA metabolism has been examined in S phase HeLa cells recovering from DNA synthesis inhibition by 1 mM hydroxyurea. Using cloned human histone genes as probes for histone mRNA quantitation, the response to and recovery from DNA synthesis inhibition is shown to depend on the position of the cell with respect to the initiation of DNA replication. The incorporation of 3H-uridine into multiple histone mRNAs in recovering cells does not exceed preinhibition levels, and as this incorporation is maximal in early S phase, the synthesis of core histone mRNA is apparently related to the ordered replication of the genome. The total histone mRNA present in interrupted S phase cells after recovery is not significantly different from that present in control cells, and a temporal and functional coupling between histone mRNA levels and the relative rate of DNA synthesis is maintained in perturbed cells.  相似文献   

5.
6.
Depletion of histone H1, changes in nucleosome repeat lengths, and extents of DNA elongation were investigated in synchronized Chinese hamster (line CHO) cells using the general conditions of hydroxyurea treatment that appear to increase the frequency of gene amplification, i.e., synchronized cultures of G1 cells were allowed to begin to enter S phase before treatment with hydroxyurea was effected to retard DNA synthesis (Mariani, B.D. and Schimke, R.T. (1984) J. Biol. Chem. 259, 1901-1910). During the time that synchronized G1 cells begin to enter S phase, there occur considerable synchrony decay and accumulation of new DNA that increase with time before treatment with hydroxyurea is initiated. During exposure to hydroxyurea, there occur depletion of histone H1 and shortened repeat lengths for the DNA synthesized in the presence of hydroxyurea. In contrast, DNA synthesized in S phase before exposure to hydroxyurea has essentially the same repeat lengths as bulk chromatin at both the time that hydroxyurea treatment is effected and after 6 h in its presence. Sedimentation measurements indicate that the early replicating DNA undergoes considerable elongation both before and during 6 h of exposure to 0.3 mM hydroxyurea. Thus, nearly all of the early replicating DNA is elongated to greater than average replicon size under those conditions of hydroxyurea treatment that appear to favor gene amplification. Because the extents of DNA synthesis and cell cycle progression vary as functions of drug concentration, treatment times, and unknown factors (from experiment to experiment), it would appear that the parameters must be carefully monitored in each experiment if biochemical results are to be related to the position of cells in the growth cycle.  相似文献   

7.
M J Smerdon 《Biochemistry》1983,22(14):3516-3525
The rate and extent of redistribution of repair-incorporated nucleotides within chromatin during very early times (10-45 min) after ultraviolet irradiation were examined in normal human fibroblasts treated with 20 mM sodium butyrate, or 2-10 mM hydroxyurea, and compared to results for untreated cells. Under these conditions, DNA replicative synthesis is reduced to very low levels in each case. However, DNA repair synthesis is stimulated by sodium butyrate and partially inhibited by hydroxyurea. Furthermore, in the sodium butyrate treated cells, the core histones are maximally hyperacetylated. Using methods previously described by us, it was found that treatment with sodium butyrate had little or no effect on either the rate or the extent of redistribution of repair-incorporated nucleotides during this early time interval. On the other hand, there was a 1.7-2.5-fold decrease in the rate of redistribution of these nucleotides in cells treated with hydroxyurea; the extent of redistribution was unchanged in these cells. Since hydroxyurea has been shown to decrease the rate of completion of "repair patches" in mammalian cells, these results indicate that nucleosome rearrangement in newly repaired regions of DNA does not occur until after the final stages of the excision repair process are completed. Furthermore, hyperacetylation of the core histones in a large fraction of the total chromatin prior to DNA damage and repair synthesis does not appear to alter the rate or extent of nucleosome core formation in newly repaired regions of DNA.  相似文献   

8.
Differentiation of Acanthamoeba castellanii into dormant cysts occurs spontaneously in stationary phase cultures, or can be induced experimentally by starvation. Although no further increase in cell density occurred after induction in either case, incorporation of [H]thymidine into DNA continued at a reduced rate through the period when differentiated products (cyst wall components) were formed. No net accumulation of DNA occurred during differentiation, indicating that the DNA synthesis occurring at this time was balanced by breakdown. When either 5-fluorodeoxyuridine (FUdR) or hydroxyurea was added to exponentially growing cultures, growth was terminated and the subsequent spontaneous encystment was delayed in comparison with untreated stationary phase cultures. A similar delay was observed for experimentally induced encystment of FUdR-pretreated cells. In all cases, delay of encystment was correlated with inhibition of 32PO4 incorporation into DNA, and unexpectedly also into RNA. Addition of FUdR at zero-time of experimental induction of cells not previously exposed to FUdR, on the other hand, had no effect on encystment or on 32PO4 incorporation. The delay of encystment produced by FUdR and hydroxyurea, therefore, appeared to reflect a requirement for normal synthesis of DNA and/or RNA not only during encystment, but also during the period of exponential growth just before encystment induction.  相似文献   

9.
The proliferation and differentiation of mouse epidermal cells can be sequentially analyzed by modification of extracellular calcium. Newborn cells cultured in low calcium medium (less than 0.1 mM) proliferate as a monolayer and maintain a typical basal cell phenotype in culture but have a limited proliferative capacity and short lifespan. Elevation of the magnesium content of the culture medium from 1 to 5 mM stimulated the proliferation of newborn mouse (1-3 days old) keratinocytes. Maximal DNA synthesis rates, as determined on day 5 of culture, were up to 2-3-fold higher in the magnesium-enriched cultures. Exposure to high magnesium caused 3-4-fold increases in the DNA content of newborn keratinocyte cultures, and extended the confluent phase of epidermal cell growth to over 10 days. Other divalent cations (strontium, copper, zinc, nickel, beryllium, and barium) did not improve keratinocyte growth in culture. Keratinocytes from the tail skin of adult (3 months old) mice displayed an absolute requirement for high phosphate in the culture medium. The medium containing an optimal (10 mM) phosphate concentration prevented the cell detachment caused by the standard low (1 mM) phosphate medium, and in combination with an elevated magnesium content (10-15 mM) it markedly increased both DNA synthesis rates and DNA content of the adult cell cultures. Optimally growing, newborn or adult cultures contained less cells in the G1 phase of the cell cycle and more cells in S and G2 +M. The addition of phosphate and magnesium per se did not induce keratinocyte differentiation and did not interfere with the high calcium (1 mM)-induced differentiation.  相似文献   

10.
Cell-free DNA synthesis was performed in a lysed cell system from mouse cell cultures. The in vitro reaction was totally inhibited by N-ethylmaleimide but unaffected by hydroxyurea or fluorodeoxyuridine when these compounds were added to the incubation mixture. However, in a preparation obtained from cells which had been blocked by hydroxyurea before lysis, the rate of DNA synthesis was markedly reduced. This effect could not have been caused by the depletion of the precursor pools as all necessary triphosphates were added to the in vitro incubation mixture. Analysis by alkaline density gradients showed that the ligation of primary synthesis products is retarded in hydroxyurea-pretreated lysed cells and that small fragments accumulate. These results suggest that hydroxyurea interferes with the processing of early replication products, preventing the formation of longer intermediates. Its mechanism is either independent from the well-known inhibition of ribonucleoside diphosphate reductase or it may be the result of an as-yet-unknown function of this enzyme in a later step of replication. This observation could help to explain why cells appear to be blocked by hydroxyurea in the early part of the S phase (rather than at the G1/S border proper) and also why DNA repair synthesis is relatively insensitive to the drug.  相似文献   

11.
Hydroxyurea, an inhibitor of DNA synthesis in Saccharomyces cerevisiae, has been applied in order to restrict growth of immobilized cells. For comparison, the influence of hydroxyurea on suspended S. cerevisiae has also been investigated. Recovery from DNA synthesis inhibition, indicated by measurements of cell growth rate, DNA content, and light scatter properties, occurred faster in immobilized cells than in the suspended yeast. Morphogenesis in both populations was arrested by hydroxyurea, and there was an accumulation of single immobilized and suspended cells with large buds. Synthesis of protein and RNA was not adversely affected in either cell type. The specific rate of ethanol production by immobilized cells increased by an average of 24%, while, for the suspended cells, specific ethanol productivity was up to three times higher. Glucose consumption rates for both cell types also increased under the influence of hydroxyurea. Immobilized cell ethanol yields were reduced by ca. 16% in the presence of hydroxyurea; suspended cell yields were lower by an average of 50%. Total polysaccharide content was reduced by 65% for suspended cells and increased 30% for immobilized cells after hydroxyurea treatment. The data evidence disturbance of the yeast cell cycle due to immobilization.  相似文献   

12.
Parameters are described for reproducible S phase synchrony of Chinese hamster ovary cells growing in monolayer, adapting a method described by Tobey & Crissman [1] for CHO cells growing in suspension culture. Cells are collected at the G1/S boundary in hydroxyurea after reversal of an early G1 block induced by isoleucine deprivation. The entire population enters the S period within 60 min after removal of hydroxyurea and proceeds through the S period with minimal decay of synchrony, as evidenced by autoradiographic and rate studies on [3H]TdR uptake. In addition, a method is described for obtaining cells synchronized during two successive S periods. The presence of hydroxyurea during G1 does not measurably affect the rate of uptake of [3H]uridine or [3H]leucine into TCA-insoluble material; however, cultures released from the hydroxyurea block at 10 h incorporate slightly more [3H]uridine (but not [3H]leucine) in the next 6 h than cultures maintained in hydroxyurea over this interval. Delaying entry into S with hydroxyurea for as long as 15 h does not significantly change the initial rate or duration of DNA synthesis upon removal of hydroxyurea, arguing against the build-up of substances responsible for initiation of replicons. Furthermore, if DNA synthesis is delayed with hydroxyurea in one cell cycle, a constant minimal interval of 15 h elapses before the population enters into the next S phase, suggesting that the timing of the S period is coupled to the timing of the previous S.  相似文献   

13.
The ability of LiCl to initiate DNA synthesis was studied in Madin-Darby canine kidney (MDCK) cells, and mouse BALB/c 3T3 fibroblasts. In a defined culture medium lacking serum, LiCl increased DNA synthesis in BALB/c 3T3 cells 100–200% over control values. Maximum DNA synthesis was observed with concentrations of LiCl between 10 and 25 mM and increases from 40–50% over control were observed with concentrations as low as 1 mM. Exposure of BALB/c 3T3 cultures to LiCl resulted in an increase in the percentage of cells initiating DNA synthesis, total DNA content and cell number. Lithium chloride, in combination with insulin or epidermal growth factor (EGF), had either an additive or synergistic effect upon the growth of BALB/c 3T3 fibroblasts. MDCK cells proved refractory to the growth actions of LiCl, although they responded to EGF and insulin with increased DNA synthesis. Lithium chloride appears to have a direct effect on cell proliferation in some but not all cell types.  相似文献   

14.
Regulation of thymidine kinase synthesis in human cells   总被引:18,自引:0,他引:18  
  相似文献   

15.
The effects of hydroxyurea on Escherichia coli B/5 physiology (increases in cell mass, number of viable cells, and deoxyribonucleic acid [DNA], RNA, and protein concentrations) were studied in an attempt to find a concentration that completely inhibits DNA synthesis and increase in number of viable cells but has little or no effect on other metabolic processes. These conditions were the most closely approached at an hydroxyurea concentration of 0.026 to 0.033 m. A concentration of 0.026 or 0.033 m was used in subsequent experiments to study the site(s) of inhibition of DNA synthesis in E. coli B/5 by hydroxyurea. Hydroxyurea at a concentration of 10(-2)m was found to inhibit ribonucleoside diphosphate reductase activity completely in crude extracts of E. coli. The synthesis of deoxyribonucleotides was greatly reduced when E. coli cells were grown in the presence of 0.033 m hydroxyurea. Studies on the acid-soluble DNA precursor pools showed that hydroxyurea causes a decrease in the concentration of deoxyribonucleoside diphosphates and deoxyribonucleoside triphosphates and an increase in the total concentration of ribonucleotides. Sucrose density gradient sedimentation of DNA from cells treated with 0.026 m hydroxyurea for 30 min indicated that at this concentration hydroxyurea induces no detectable single- or double-strand breaks. In addition, both replicative and repair syntheses of DNA were found to occur normally in toluene-treated cells in the presence of relatively high concentrations of hydroxyurea. Pulse-chase studies showed that deoxyribonucleotides synthesized prior to the addition of hydroxyurea to cells are utilized normally for DNA synthesis in the presence of hydroxyurea. On the basis of these observations, we have concluded that the primary, if not the only, site of inhibition of DNA synthesis in E. coli B/5 by low concentrations of hydroxyurea is the inhibition of the enzyme ribonucleoside diphosphate reductase.  相似文献   

16.
M V Filatov  T A She?kna 《Tsitologiia》1984,26(10):1208-1212
Chinese hamster cells were treated with an inhibitor of DNA synthesis (hydroxyurea or arabinoside-cytesine) in non-toxic concentrations for 20 hours in the presence or absence of caffeine (2 mM). Under these conditions caffeine considerably inactivates the cells. If cells are synchronized by hydroxyurea (0.25 mM) in the S-phase of mitotic cycle, the addition of caffeine kills all the S-phase cells, while gamma-irradiation or novobiocine treatment markedly decreases the sensibilizing effect of caffeine. These findings permit us to conclude that cell inactivation is due to anomalous reinitiation of DNA synthesis stimulated by caffeine in the presence of drugs which inhibit the DNA chain elongation.  相似文献   

17.
After irradiation of HeLa S3 cells with 220 kv x-rays during G1, treatment with any of six inhibitors of DNA synthesis results in the progressive enhancement of cell killing (loss of colony-forming ability). Incubation with hydroxyurea, cytosine arabinoside, or hydroxylamine reduces survival five- to twentyfold in about 8 hr, following an x-ray dose of 400 rads. In contrast, treatment with 5-fluorodeoxyuridine, deoxyadenosine, or thymidine after this same dose reduces survival less than twofold during a comparable time interval. These differences occur at drug concentrations which reduce the rate of DNA synthesis by at least 95% (except in the case of hydroxylamine, which inhibits DNA synthesis to a smaller extent), but which kill no unirradiated cells during the treatment periods. When inhibition of DNA synthesis with either hydroxyurea or cytosine arabinoside is reversed by addition of appropriate precursors of DNA, the enhancement is abolished. With hydroxyurea, the rate of cell killing is dependent on the dose of x-rays previously administered, and the extent of enhancement seems to be related to the drug concentration. Imposition of a delay between irradiation and addition of hydroxyurea does not abolish the enhancement effect, but instead causes a proportional lag in its inception. Postirradiation treatment of S phase cells with either hydroxyurea or cytosine arabinoside also enhances killing. Furthermore, unlike early G1 cells, S cells (and, as shown previously, cells blocked at the G1-S transition) are sensitized by preirradiation exposure to hydroxyurea.  相似文献   

18.
Control of wall band splitting in Streptococcus faecalis   总被引:9,自引:0,他引:9  
Computer reconstructions of 659 and 1325 whole mounted, shadowed cells, randomly chosen from cultures of Streptococcus faecalis undergoing balanced growth and doubling in mass every 83 min and 30 min, respectively, were used to analyse the cell cycle. The size limits and duration of phases of the cell cycle were estimated by applying a method previously described by the authors, details of which are given here to allow others to use the method. Deeply constricted cells whose primary septal radius, Rs, was less than or equal to 0.18 micron were considered as belonging to an E-phase ending the cell cycle. The statistical parameters of these E-phase cells were used to calculate the mean and coefficient of variation of dividing cells. These latter values, in turn, predicted the moments of the total population well enough so that the method's assumptions were judged adequately satisfied. Therefore, the method was considered applicable to other phases and sub-phases of the cell cycle of these two cultures. The E-phase cells were further classified as having either 0, 1 or 2 secondary growth zones, allowing us to calculate the percentage of newborn cells without growth zones. In the slow-growing cells, 69% of the cells arose with no growth zone. On the other hand, in more rapidly growing cells 16% of the cells or less arose with no growth zone. Our calculations showed that they could exist without a growth zone for only 2 and 0.1 min, respectively. We also classified cells as possessing a 'birth site' if the volume between the two daughter bands was greater than 0, but less than 0.06 micron3. From the statistical properties of such cells with new growth zones, the mean pole time, W, was estimated. We also estimated W from the size of cells in E-phase. The major conclusion is that the pole time is only slightly greater than the mass doubling time at both growth rates. Since DNA synthesis in S. faecalis takes longer (C = 50 to 52 min) than the mass doubling time in rich medium (30 min), a new round of chromosome replication must be initiated before the old round of synthesis is completed (dichotomous replication). Consequently, wall band splitting and initiation of chromosome replication do not occur simultaneously. It was also concluded that the cell initiates wall band splitting, resulting in pole formation and cell division, when the growth zones cannot function rapidly enough to allow the increase of surface area required to accommodate continuing production of cytoplasm.  相似文献   

19.
Pluripotent haemopoietic stem cells (CFUs) move synchronously through the cell cycle in hydroxyurea-treated mice in a cohort 1–2 hr broad. Ten to fifteen hours after hydroxyurea they pass through S phase. DNA synthesis appears to be depressed 5–10 times when the cells are in the middle part of the S phase but does not seem to be completely interrupted. High concentrations of [3H]thymidine must be used for ‘suicide’ in order to achieve lethality for the cells with depressed DNA synthesis. At the time when DNA synthesis is depressed, the sensitivity of the cells to hydroxyurea also decreases. This may lead to a significant underestimation of the S phase fraction by the hydroxyurea method, because CFUs with low DNA synthesis rate are resistant to hydroxyurea although being in S phase.  相似文献   

20.
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