Inhibition of nucleic acid synthesis in Ehrlich tumor cells by periodate-oxidized adenosine and adenylic acid

Periodate-oxidized adenosine and AMP were inhibitory to both RNA and DNA synthesis in Ehrlich tumor cells in culture. With periodate-oxidized adenosine, the inhibition of RNA synthesis paralleled the inhibition of DNA synthesis. Periodate-oxidized AMP, however, was more inhibitory to DNA synthesis than to RNA synthesis. With both compounds, there was a decrease in the conversion of [¹⁴C]cytidine nucleotides to [¹⁴C]deoxycytidine nucleotides in the acid-soluble pool. The borohy-dride-reduced trialcohol derivative of the periodate-oxidized adenosine compound was not inhibitory to DNA or RNA synthesis in the tumor cells. The incorporation of [³H]uridine into 28S and 18S ribosomal RNA was inhibited by both periodate-oxidized adenosine and AMP, but the incorporation of [³H]uridine in 45S, 5S, and 4S RNA was essentially unaffected by these compounds. Periodate-oxidized adenosine inhibited Ehrlich tumor cell growth in vivo.     

Leishmania donovani: Autoradiographic evidence for molecular exchanges between parasites and host cells

Promastigotes of Leishmania donovani, 2S strain, or hamster peritoneal exudate cells, were pulse labeled in vitro with [³H]uridine or [³H]leucine. Washed labeled parasites were used to infect unlabeled macrophages in Leighton tube cultures. Washed labeled cells in Leighton tube cultures were also infected with unlabeled parasites. Cover slips were harvested at various times following infection, methanol fixed, and washed in cold trichloroacetic acid, dipped in NTB-3 nuclear emulsion (Kodak) and developed after 2 wk in the dark. Grain counts and photographs showed that when host cells were prelabeled with either compound then radioactive material accumulated in the parasite. Likewise, when parasites were prelabeled, radioactive material accumulated in the host cells. Experiments using [6-³H]uridine, RNAse, DNAse, and prelabeled macroghages indicated parasites were synthesizing DNA from host cell RNA precursors or precursor pool. The studies thus describe a system for investigating the molecular level relationships between Leishmania species and their host cells.     

Glycosylation of nascent polypeptide chains in Aspergillus niger

Polysomes were isolated from Aspergillus niger and were characterized on sucrose gradients in several ways. First, they were found to be susceptible to degradation by treatment with RNase or EDTA. Second, they were labeled after treating mycelia with short pulses of [³H]uridine or [³H]leucine prior to polysome isolation. Third, they were capable of stimulating incorporation of [³H]leucine into trichloroacetic acid-precipitable material in a chick reticulocyte cell-free protein-synthesizing system. When isolated [³H]leucine pulse-labeled polysomes were treated with either EDTA-RNase or puromycin, 80–90% of the radioactivity was released, indicating that only the nascent polypeptide chains were labeled. After exposing mycelia for 1 min to [¹⁴C]mannose, the polysomes were exclusively labeled, indicating that initial glycosylation takes place on nascent polypeptide chains. Preincubation of mycelia with 2-deoxyglucose followed by pulse-labeling with [³H]leucine and [¹⁴C]mannose showed that 2-deoxy-d-glucose inhibits both protein synthesis and glycosylation. However, similar preincubation with tunicamycin caused an 80% drop in [¹⁴C]mannose label in the polysomes, but only a 10–20% drop of [³H]leucine label, suggesting that glycosylation of nascent chains in A. niger involves an oligosaccharide-lipid intermediate, since it has been shown that tunicamycin inhibits the synthesis of such an intermediate. When isolated polysomes were placed into an in vitro glycosylating mixture containing Mn²⁺, GDP-[¹⁴C]mannose, and smooth membranes from A. niger nascent chains were labeled. This reaction was shown to be dependent on addition of polysomes to the mixture and was not inhibited by 2-deoxy-d-glucose or tunicamycin. Both in vivo and in vitro glycosylated nascent chains were found to have about the same size range, and so it is suggested that in vitro no new oligosaccharide chains were synthesized, but preexisting chains were extended.     

PREFERENTIAL LABELING OF RAT LYMPHOCYTES WITH A RAPID RATE OF TURNOVER BY TRITIATED DEOXYCYTIDINE

Lymphocytes in thymic cortex and germinal centers of lymphoid tissues are labeled intensely with generally labeled tritiated deoxycytidine [G-³H]dCyd whereas they are weakly labeled with methyl tritiated deoxythymidine [methyl-³H]dThd of the same specific activity, not only by single injection but also by an intensive injection schedule. [G-³H]dCyd can be used to label short-lived lymphocytes strongly, although not specifically. The distribution patterns of labeled lymphocytes were different depending on the injection schedules of [G-³H]dCyd. [G-³H]dCyd can be used as a precursor molecule for cytosine and also thymine found in DNA. The ratios of radioactive thymine to cytosine measured biochemically on DNA extracted from radioactive lymphocytes labeled by the various schedules indicate strongly that short- and long-lived lymphocyte populations have different abilities to utilize pyrimidine nucleosides for DNA synthesis.     

Radioimmunoassays of plasma thymidine,uridine, deoxyuridine,and cytidine/deoxycytidine

Radioimmunoassay techniques have been developed for the assay of thymidine, uridine, deoxyuridine, and deoxycytidine. Plasma levels of the first three nucleosides have been measured, and an upper limit has been determined for the plasma concentration of deoxycytidine. The assays involve displacement of a [³H]pyrimidine nucleoside from the appropriate labeled rabbit immunoglobulin. By assaying a mixture of uridine and deoxyuridine in the presence and absence of borax, the concentrations of both nucleosides have been measured. In seven healthy adults, plasma levels of uridine were 21.1 ± 8.4 μm (mean ± SD) and of deoxyuridine were 0.62 ± 0.39 μm. In cancer patients, thymidine levels were 7.5 ± 2.7 × 10^?7m. The upper limit for plasma deoxycytidine levels in six healthy adults was 0.71 ± 0.1 μm.     

DNA replication in Escherichia coli: evidence for two classes of small deoxyribonucleotide chains

We have used [³H]thymidine to pulse label cultures growing at 20 or 37 °C. At these temperatures, thymidine can be used interchangeably with thymine for labeling periods of 0.1 minute or longer. Incorporation does not stop immediately when cultures are poured on to ice-cold medium-KCN mixtures, but can be stopped by pouring on to the same mixture plus pyridine.We have extracted DNA from cells pulse-labeled with [³H]thymidine and measured the number of short deoxynucleotide chains by treating them with bacterial alkaline phosphatase and labeling their 5′ ends with ³²P using [γ-³²P]ATP and polynucleotide kinase. There are at least 40 deoxynucleotide chains per bacterium (20 per replicating chromosome) whose sedimentation coefficient is less than 15 S.The small deoxynucleotide chains labeled by a pulse of [³H]thymidine behave as intermediates in the replication of DNA. They accumulate if ligase is inhibited and they disappear if their synthesis is blocked by inactivating a gene product responsible for their synthesis. In contrast, the ³²P-labeled pieces do not accumulate rapidly or disappear under the same experimental conditions. The data indicate that many of the ³²P-labeled short chains are not located at the replication fork and that they do not behave as intermediates in the replication of DNA.The size distribution of³H pulse-labeled pieces and of the short chains labeled with ³²P are apparently the same when measured by sedimentation through alkaline sucrose. About 25% of the molecules are extremely short. The remainder are distributed in such a way that, roughly, the number of pieces greater than any particular length decreases exponentially as that length increases.     

Deoxycytidine Transport and Metabolism in the Central Nervous System

Abstract: The mechanisms by which deoxycytidine enters and leaves brain, choroid plexus, and CSF were investigated by injecting [³H]deoxycytidine intraarterially, intravenously, and intraventricularly. After intracarotid injection of deoxycytidine (1.0 μM) into rats, deoxycytidine did not pass through the blood-brain barrier at a faster rate than sucrose. [³H]Deoxycytidine, either alone or together with unlabeled deoxycytidine, was infused at a constant rate into conscious adult rabbits. At 130 min, [³H]deoxycytidine readily entered CSF, choroid plexus, and brain. In brain, approx. 60% of the nonvolatile radioactivity was attributable to [³H]deoxycytidine phosphates. The addition of 0.22 mmol/kg unlabeled deoxycytidine to the infusion syringe decreased the phosphorylation of [³H]deoxycytidine in brain by approx. 50%; the addition of 2.2 mmol/kg of unlabeled deoxycytidine to the infusion syringe decreased the relative entry of [³H]deoxycytidine into CSF and brain by approx. 50 and 75%, respectively. Two hours after the intraventricular injection of [³H]deoxycytidine, [³H]deoxycytidine was rapidly cleared from CSF, in part, to brain, where approx. 65% of the [³H]deoxycytidine was converted to [³H]deoxycytidine phosphates. The intraventricular injection of unlabeled deoxycytidine with the [³H]deoxycytidine decreased the phosphorylation of [³H]deoxycytidine in the brain significantly and also decreased the clearance of [³H]deoxycytidine from the CSF. These results were interpreted as showing that the entry of deoxycytidine from blood into CSF occurs by a saturable transport system within the choroid plexus. Once within the CSF, the deoxycytidine can enter brain, undergo phosphorylation to deoxycytidine phosphates, and subsequently be incorporated into DNA.     

Inhibition of thymidylate synthase by hydroxyurea in rapidly proliferating P815 mastocytoma cells

The incorporation of [¹⁴C]deoxycytidine, [³H]deoxyuridine, and [³H]thymidine, respectively into pyrimidine bases of DNA has been measured in rapidly proliferating P815 mouse mastocytoma cells in the presence of hydroxyurea. The incorporation of [¹⁴C]deoxycytidine-derived radioactivity into DNA cytosines is increased when compared to the incorporation into DNA thymines. The [³H]deoxyuridine-derived radioactivity is incorporated solely into DNA thymines and this incorporation is inhibited by hydroxyurea in a dose-dependent manner. This suggests an inhibitory effect of hydroxyurea on the thymidylate synthase which was proved in experiments in which the conversion of deoxyuridine monophosphate into deoxythymidine monophosphate catalysed by a crude enzyme preparation from P815 cells was inhibited in the presence of hydroxyurea. Enzymatic DNA methylation as measured by the conversion of incorporated [¹⁴C]deoxycytidine into 5-methylcytosines was not affected by hydroxyurea.     

Phosphorylation of Deoxyribonucleosides and DNA Synthesis during Embryogenesis of the Sea Urchin

The phosphorylation of thymidine, deoxycytidine, deoxyadenosine and deoxyguanosine was studied during the embryogenesis of the sea urchin Hemicentrotus pulcherrimus. [³H]Thymidine was taken up, phosphorylated and accumulated mostly as [³H]thymidine triphosphate in the early cleavage stage embryos. As the embryos developed, the formation of [³H]thymidine triphosphate decreased and most of the [³H]thymidine taken up by the blastulae remained be phosphorylated. When [³H]deoxycytidine was added to the cleaving embryos, the resultant labeled pool consisted of almost equal amounts of [³H]deoxycytidine monophosphate and [³H]deoxycytidine triphosphate. The formation of [³H]deoxycytidine monophosphate increased up to 10 hr following fertilization and then decreased, while the formation of [³H]deoxycytidine triphosphate decreased for 10 hr following fertilization and then gradually increased. [³H]Deoxyadenosine was rapidly phosphorylated to monophosphate derivative in the cleavage stage embryos. The formation of [³H]deoxyadenosine triphosphate increased rapidly after cleavage stage with a concomitant decrease of [³H]deoxyadenosine monophosphate. The activity of phosphorylation in [³H]deoxyguanosine to triphosphate derivative increased rapidly reaching a plateau 10 hr after fertilization. At this point, 80 % of the [³H]deoxyguanosine was recovered as [³H]deoxyguanosine triphosphate. Based on the above results, it was concluded that the profile of production of each deoxyribonucleoside triphosphate changed during the embryogenesis of the sea urchin, and the in vivo rate-limiting step of phosphorylation of the individual deoxyribonucleoside was assumed to be different.     

Enrichment for temperature-sensitive and auxotrophic mutants in Saccharomyces cerevisiae by tritium suicide

Tritium suicide is shown to be an efficient technique for mutant enrichment in Saccharomyces cerevisiae. Decays from incorporated [5-³H]uridine and tritiated amino acids proved equally effective in inducing suicide; in cultures labeled to a specific activity of 50 dpm/cell, the viability fell to 2% after 12 days' storage at 4°. Mutagenized cultures were labeled with either [5-³H]uridine or a mixture of tritiated amino acids under conditions where auxotrophic mutants and temperature-sensitive mutants in RNA or protein synthesis would not incorporate a significant amount of the tritiated percursor. When survival fell to 2%, the percentages of both auxotrophic and temperature-sensitive mutants were 10-fold higher among these survivors than in the original mutagenized culture, regardless of the radioactive precursor used.     

Effect of insulin at dilution endpoint concentrations on macromolecular synthesis in normal mouse mammary and human breast cancer epithelial cells

Employing defined media conditions, the insulin sensitivities of mouse mammary gland epithelial cells in primary culture and MCF-7 human mammary epithelial cells were determined. Insulin stimulated the rates of [³H]uridine incorporation into RNA and [³H]leucine incorporation into protein in both primary mouse mammary gland epithelial cell cultures and MCF-7 cell cultures at concentrations approximating the dilution endpoint of the hormone (10⁻²¹ M). Insulin stimulated the rate of [³H]thymidine incorporation into DNA in primary mouse mammary gland epithelial cells at the dilution endpoint concentrations. However, MCF-7 cells required insulin concentrations 100–1000-times that necessary in mouse mammary epithelial cultures to elicit an increased rate of [³H]thymidine incorporation into DNA. Evidence is presented which suggests that the increased rates of uptake of [³H]uridine, [³H]thymidine and [³H]leucine into their respective precursor pools is not responsible for the apparent stimulatation of RNA, DNA and protein synthesis.     

Effect of hypoxia on nucleic acid and protein synthesis in different brain regions

The incorporation of [methyl-³H]thymidine into DNA, of [5-³H]uridine into RNA, and of [1-¹⁴C]leucine into proteins of cerebral hemispheres, cerebellum, and brainstem of guinea pigs after 80 hr of hypoxic treatment was measured. Both in vivo (intraventricular administration of labeled precursors) and in vitro (tissue slices incubation) experiments were performed. The labeling of macromolecules extracted from the various subcellular fractions of the above-mentioned brain regions was also determined. After hypoxic treatment the incorporation of the labeled precursors into DNA, RNA, and proteins was impaired to a different extent in the three brain regions and in the various subcellular fractions examined; DNA and RNA labeling in cerebellar mitochondria and protein labeling in microsomes of the three brain regions examined were particularly affected.     

Intracellular compartmentation of deoxycytidine nucleotide pools in S phase mouse 3T3 fibroblasts

We labeled mouse 3T3 fibroblasts, synchronized in G0 or S phase, from [3H]cytidine or [3H]deoxycytidine and measured the flow of isotope into and through deoxycytidine nucleotide pools, including the two deoxyliponucleotides dCDP choline and dCDP ethanolamine. Compared to G0 cells, S phase cells had much larger pools with a 20-40-fold faster turnover. The dCTP pool of S phase cells during steady state conditions attained a 6-fold higher specific activity than the pool of G0 cells when labeled from cytidine but a 10-fold lower specific activity when labeled from deoxycytidine. The dCTP pool of G0 cells showed a slow but measurable turnover indicating a limited amount of de novo synthesis also in resting cells. The labeling pattern of dCTP and deoxyliponucleotides of G0 cells was compatible with a simple precursor-product relationship. In S phase cells, however, dCDP choline had a 4-6 times higher specific activity during steady state conditions than dCTP and dCMP when the cells were labeled with [3H]deoxycytidine. We suggest that 3T3 cells contain two distinct intracellular dCTP pools, one labeled preferentially from cytidine and used for DNA replication, the other labeled from deoxycytidine and used for deoxyliponucleotide synthesis. We speculate that the latter pool during S phase may be temporarily sequestered in the cell's membrane fraction before equilibration with the much larger dCTP pool originating in S phase cells from the reduction of CDP.     

[H]thymidine incorporation in bovine lymphocytes treated with the tumor promoter, 12-O-tetradecanoyl phorobol-13-acetate

Treatment of bovine lymph node lymphocytes with the tumor promoter, 12-O-tetradecanoyl phorbol-13-acetate (TPA) leads to depressed [³H]thymidine incorporation in response to phytohemagglutinin (PHA). Radioautographic and morphological analyses showed that depression was at the level of blast-cell formation. Isotope-dilution experiments, and the use of [³H]deoxycytidine to label DNA indicated that the inhibition was not due to a block in thymidine transport in the treated cells. These experiments, as well as a bioassay designed to measure thymidine in the culture medium, showed that the apparent inhibition of [³H]thymidine incorporation and DNA synthesis was not the result of production of cold thymidine in the cultures. The results taken together support the idea that most TPA-treated cells are inhibited from responding to the mitogenic lectins. Those cells which do respond appear to form blast cells and synthesize DNA at the same rate as do untreated cells.     

Use of (1 or 3-3H, U-14C)glucose to estimate the synthesis of glycerolipids via acyl dihydroxyacetone phosphate.

Turnover rates of tRNAs in Friend virus-infected mouse leukemia cells are reported. Cells were labeled for one generation with [¹⁴C]- or [³H]uridine. ³H-labeled cells were transferred to nonradioactive medium and allowed to grow exponentially for 72 hours. Low molecular weight cytoplasmic RNAs isolated from ¹⁴C- and ³H-labeled cells were cochromatographed on reverse-phase columns. The results indicate considerable heterogeneity of turnover rates of 4S RNAs, with the most labile species turning over at least 1.75 times as fast as the most stable species.     

Hydroxylation of peptide-bound proline and lysine before and after chain completion of the polypeptide chains of procollagen

The synthesis of procollagen hydroxyproline and hydroxylysine was examined in matrix-free cells which were isolated from embryonic tendon by controlled enzymic digestion and then incubated in suspension. After the cells were labeled with [¹⁴C]proline for 2 min, or about one-third the synthesis time for a Pro-α chain, [¹⁴C]hydroxyproline was found in short peptides considerably smaller than the Pro-α chains of procollagen. The results, therefore, confirmed previous reports indicating that the hydroxylation of proline can begin on nascent chains. In similar experiments in which the cells were labeled with [¹⁴C]lysine, [¹⁴C]hydroxylysine was found in short, newly synthesized peptides, providing the first evidence that the hydroxylation of lysine can also begin on nascent peptides. However, further experiments demonstrated that the synthesis of hydroxyproline and hydroxylysine continues until some time after assembly of the polypeptide chains is completed.     

[3H]thymidine incorporation in bovine lymphocytes treated with the tumor promoter, 12-O-tetradecanoyl phorobol-13-acetate

Treatment of bovine lymph node lymphocytes with the tumor promoter, 12-O-tetradecanoyl phorbol-13-acetate (TPA) leads to depressed [³H]thymidine incorporation in response to phytohemagglutinin (PHA). Radioautographic and morphological analyses showed that depression was at the level of blast-cell formation. Isotope-dilution experiments, and the use of [³H]deoxycytidine to label DNA indicated that the inhibition was not due to a block in thymidine transport in the treated cells. These experiments, as well as a bioassay designed to measure thymidine in the culture medium, showed that the apparent inhibition of [³H]thymidine incorporation and DNA synthesis was not the result of production of cold thymidine in the cultures. The results taken together support the idea that most TPA-treated cells are inhibited from responding to the mitogenic lectins. Those cells which do respond appear to form blast cells and synthesize DNA at the same rate as do untreated cells.     

Increase in dATP pool in aphidicolin-resistant mutants of mouse FM3A cells

Mutants that were resistant to aphidicolin were isolated from mutagenized mouse FM3A cells at a frequency of about 10^?6. Resistance to aphidicolin in these mutants was not due to an effect on [³H]thymidine incorporation into DNA, DNA synthesis in permeabilized cells, or DNA polymerase α.All the mutants showed a greatly increased dATP pool and decreased ability to incorporate [³H]deoxycytidine into DNA. They also showed cross-resistance to both 1-β-D-arabinofuranosyladenine and 1-β-D-arabinofuranosylcytosine.These results indicate that an enzyme involved in production of dATP or its regulation is altered in these mutants. It is suggested that dATP competes with aphidocolin at its killing site or that dATP reverses the effect of aphidicolin by some unknown mechanism $\text{in}\text{vivo}$.     

Ligand-dependent modulation of membrane phospholipid metabolism in ConA-stimulated lymphocytes

Human peripheral lymphocytes were activated by ConA in serum-free culture medium, supplemented by BSA. Incorporation of [³H]thymidine into DNA, of [³H]uridine into RNA and of oleate or acetate into membrane phospholipids was investigated. DNA synthesis could be completely inhibited by αMM or by anti-ConA-IgG. Fab and F(ab)₂ fragments of the anti-ConA were equally active. When αMM or anti-ConA was added to cultures at different times after stimulation with ConA, incorporation of [³H]thymidine into DNA (measured after 72 h) could be prevented up to 6–8 h completely and up to 20–30 h partially. Incorporation of [³H]uridine into RNA could be arrested at any time of the culture up to 40 h at the level it had reached but did not reverse to the level of unstimulated cells for a long time. In contrast, incorporation of oleate into lecithin returned to the level of unstimulated cells within 2–3 h after removal of ConA. This suggests that the activation of the phospholipid turnover in stimulated cells is a direct consequence of the presence of the mitogen at the membrane and thus may be a critical initial event in lymphocyte activation.     

Migratory patterns of B lymphocytes. IV. Effect of anti-Ig on follicular localization of radioactively labeled murine spleen and bone marrow cells.

A study was made of the localization of nylon-wool-adherent (AD) and nonadherent (NA) murine spleen cells in lymphoid tissue of irradiated syngeneic recipients. Cells were labeled in vitro with [³H]uridine or ⁵¹Cr and injected intravenously. Localization in recipient tissues was expressed as percent of injected radioactivity. NA and AD [³H]uridine labeled cells gave spleen to lymph node (S:LN) ratios of 1.0 and 2.7, respectively. After treatment of AD cells with rabbit anti-mouse Fab + C at 37 °C, localization in S decreased markedly.NA cells primarily localized in LN paracortex and splenic periarteriolar sheaths. Untreated and NRS-treated AD cells localized in lymphoid follicles, whereas anti-Fab-treated AD cells did not. When ⁵¹Cr-labeled AD cells were treated with anti-Fab at 4 °C without C, there was a transient decrease in splenic localization at 24 hr followed by a recovery to the normal pattern at 48 hr after transfer. [³H]uridine-labeled bone marrow (BM) cells showed less localization in lymphoid tissue than did S cells. Some BM cells were seen in LN follicles, particularly at 48 hr after transfer, but this localization was not affected by prior treatment with anti-Fab + C. The possible role of surface Ig in the determination of follicular localization of B lymphocytes is discussed.