Cytotoxic effects of thiopyrimidines

The cytotoxic action of 2-thiouracil, 2-thiocytosine, 2-thiouridine and 4-thiouridine was studied in cultures of a clone of Chinese hamster cells with a generation time of 16 hours (S — 8 hours, G₂ — 2 hours, and G₁ plus M — 6 hours). The cells were synchronized at metaphase by the method of reversal of colcemid inhibition and cell survival was measured by their colony-forming ability. The four analogs induced cytotoxic effects which increased with the concentration of the chemical and the length of the exposure time. Exposure to 4 × 10^?4 M 2-thiocytosine, 2-thiouridine or 4-thiouridine for a period of 20 hours reduced cell survival to less than 10% of the controls. The other analog (2-thiouracil) was less effective when tested at similar concentrations and time of exposure and decreased the survival to only 35% of the controls. Short periods of treatment (one hour) produced little effect at concentrations of 4 × 10^?5M, and affected the survival of cells differently when 4 × 10^?4 M were administered at different stages of the cell cycle. Two peaks of maximum sensitivity, one at late G₁ and the other at G₂ were observed. These peaks correspond to the peaks of maximum RNA synthesis described for synchronized mammalian cells. Therefore, it is likely that the cytotoxic effects of thiopyrimidine analogs are related to interference with RNA synthesis.     

Monotertiarybutylhydroquinone effects on Tetrahymena pyriformis.

The molecular toxicity of monotertiarybutylhydroquionone (TBHQ) was studied using $\text{Tetrahymena}$$\text{pyriformis}$ as a model cell system. TBHQ at 26 ppm in the media inhibited cell growth by 50%. TBHQ inhibited the oxidation of ¹⁴C-acetate to ¹⁴CO₂. In addition, increasing concentrations of TBHQ decreased the incorporation of ¹⁴C-acetate into lipids and protein, ¹⁴C-amino acids into protein, ³H-uridine into RNA and ³H-thymidine into DNA. The incorporation of ¹⁴C-acetate into glycogen increased with concentrations up to 20 ppm TBHQ in the media while glycogen synthesis decreased with 40 ppm TBHQ.     

Families of replicating units in cultured hamster fibroblasts

An examination of the patterns of DNA replication in pseudodiploid Don C and diploid Don cell lines in culture has been made. Pulse-chase labelling experiments with ³H-thymidine in both synchronized and log-phase cells indicate that the newly replicated DNA can be divided into two and three large temporally distinct fractions in Don C and Don cells, respectively. This is shown radiochemically by fluctuations in the incorporation of ³H-thymidine into the DNA of synchronized cells and autoradiographically by fluctuations in counts of labelled metaphases and grain over mitotic figures. Pulse-chase experiments and fluorometric determinations indicate that the periodic incorporation of ³H-thymidine can be accounted for by discontinuous synthesis and turnover of DNA during the cell cycle.A survey of the literature reveals that fluctuations in DNA synthetic activity during the S phase are to be found in a large number of published graphs of cell population kinetics. The phenomenon is observable in both diploid and non-diploid cells. A change in the timing of DNA replicon synthesis during the S phase according to the developmental stage and age of the cell is proposed.     

The different effects of recombinant human tumor necrosis factor on rat fibrosarcoma sublines

Summary The antitumor effect of recombinant human tumor necrosis factor (rH-TNF) on two clones of rat fibrosarcoma with different metastatic potential to lymph nodes was examined. The colony formation of clone A, which has high metastatic potential, was completely inhibited by continuous exposure to rH-TNF at 50 U/ml. In contrast, colony formation of clone G, which has low metastatic potential, was not inhibited by high concentrations of rH-TNF (10,000 U/ml). The inhibitory effect of rH-TNF on colony formation by clone A was also observed with a 1-h exposure to rH-TNF. This effect was time and concentration dependent, as determined by the colony assay, ³H-thymidine uptake assay, and ⁵¹Cr-release assay. ³H-thymidine and ³H-uridine uptake per cell of clone A exposed to rH-TNF was not decreased. This suggests that the mechanisms of the antitumor effect of rH-TNF were not due to inhibition of DNA and RNA synthesis of tumor cells. In vivo growth and lymph node metastases of clone A inoculated i.p. to Donryu strain rats were completely suppressed by 14 consecutive i.p. injections of 10⁵ or 10⁶ U/kg per day of rH-TNF. On the other hand the growth of clone G was not influenced by rH-TNF administration.     

EHRLICH ASCITES TUMOR (EAT) CHALONE EFFECTS ON NASCENT DNA SYNTHESIS AND DNA POLYMERASE ALPHA AND BETA

EAT chalone effects on nascent DNA synthesis and DNA polymerase were examined. Concentration related inhibition of ³H-thymidine (³H-TdR) incorporation into EAT cell DNA was noted over a chalone range of 50–200 μg/ml. RNA synthesis was not affected, but protein synthesis decreased an average of 82% during 3 hr. Nascent DNA pulse-labeled for 2 min was normally incorporated into bulk DNA in the presence of chalone, but crude α and β-polymerase activities were inhibited. Crude DNA polymerase from C₃H mouse kidney and spleen was also partially inhibited by EAT chalone, suggesting non-specific inhibition of DNA polymerase. Preincubation studies of chalone with crude EAT DNA polymerase or ‘gapped’ DNA primer had no effect on chalone activity. Chalone may control mitotic activity by inhibiting α- and β-polymerase activity, thereby decreasing nascent DNA synthesis. Nascent DNA is incorporated normally into bulk DNA in the presence of chalone, indicating that DNA ligase is not inhibited.     

Repetitious and unique sequences in the heterogeneous nuclear and cytoplasmic messenger RNA of mammalian and insect cells

Initiation of DNA synthesis has been followed in mouse myeloma cells grown in suspension culture. In cells labeled with ³H-thymidine for short times, label first appears in short fragments of DNA which can be chased into bulk DNA (>50 S) upon further incubation in unlabeled thymidine. In a 15 min pulse, DNA fragments with a sedimentation coefficient of 30 S tend to accumulate. Our results support the contention that DNA synthesis is discontinuous in myeloma cells.However, a search for RNA associated with nascent DNA in the myeloma system was unsuccessful. Newly synthesized DNA was isolated on a benzoylated naphthoylated DEAE cellulose column. After heat denaturation, this fraction was centrifuged to equilibrium in a Cs₂SO₄ density gradient. The nascent DNA displays no shift in density greater than the density of the bulk DNA. When cells were pulse labeled with ³H-uridine and the nascent DNA fraction analyzed on Cs₂SO₄ density gradients, no ³H-labeled RNA was found associated with the DNA peak or at intermediate densities that would be indicative of a RNA-DNA molecule, covalently linked. Unless scission of the RNA primers occurs immediately after the initiation of DNA synthesis, our results indicate that DNA synthesis commences without RNA primers in myeloma cells.     

Effects of thymidine analogs upon growth control in cultured hormone-dependent ray ovary cells.

Growth-promoting alpha-globulin (GPAG) has a strong binding capacity for ³H-thymidine, ³H-uridine, ³H-lysine, and ³²PO₄? and causes an enormous increase in the rate of RNA, DNA, and protein synthesis in metazoan cells. GPAG is taken into the cell by pinocytosis in S and G 2 periods of the cell cycle. Pinosomes travel rapidly towards the perinuclear region before the bound precursors are used in macromolecule biosynthesis. As the GPAG is needed for an actively proliferating culture of metazoan cells in vitro, it is concluded that pinocytosis of GPAG is the controlling factor in deciding whether a cell will continue to grow or will go to the resting state and that the formation of DNA, RNA, and protein may be controlled by the availability of usable precursors in the site of macromolecule biosynthesis. The sources of GPAG in metazoan organism have not been identified but it is reasonable to believe that cell division is regulated primarily by this metazoan factor on an intercellular level.     

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.     

Effect of arabinosyl cytosine on the level of DNA polymerase and thymidine kinase activity in PHA-stimulated human tonsillar lymphocytes

Summary The effect of arabinosyl cytosine (ara-C) was studied on the uptake, phosphorylation and incorporation of ³H-thymidine in human tonsillar lymphocyte cultures is described along with its effect on the level of DNA polymerase and thymidine kinase activities induced by phytohaemagglutinin (PHA). Freshly isolated tonsillar lymphocytes are stimulated cells with a remarkably high activity of DNA polymerase a and thymidine kinase. During in vitro culture, these stimulated cells are transformed to the resting state with low DNA polymerase and thymidine kinase activity. However, a new DNA synthesising cycle can be induced by PHA with maximum at 48 h.10^–6 M ara-C inhibited the incorporation of ³H-thymidine by 90–95%. This inhibition may be reversed by rinsing the cells. The inhibition of the transport of ³H-thymidine seems to be only a consequence of the inhibitory effect of ara-C on the DNA polymerisation reaction, because at 10 °C, where DNA synthesis was arrested, ara-C does not influence the uptake and the phosphorylation of ³H-thymidine.Ara-C (10^–6 M) abolished also the PHA induced elevation of DNA polymerase a and thymidine kinase activities without influencing protein synthesis of the cell. This supports a coordinated regulation mechanism between DNA synthesis and the synthesis of enzymes involved in DNA replication.     

Ribosomal RNA Turnover in Contact Inhibited Cells

CONTACT inhibition of animal cell growth is accompanied by a decreased rate of incorporation of nucleosides into RNA^1–3. Contact inhibited cells, however, transport exogenously-supplied nucleosides more slowly than do rapidly growing cells^4,5, suggesting that the rate of incorporation of isotopically labelled precursors into total cellular RNA may be a poor measure of the absolute rate of RNA synthesis by these cells. Recently, Emerson⁶ determined the actual rates of synthesis of ribosomal RNA (rRNA) and of the rapidly labelled heterogeneous species (HnRNA) by labelling with ³H-adenosine and measuring both the specific activity of the ATP pool and the rate of incorporation of isotope into the various RNA species. He concluded that contact inhibited cells synthesize ribosomal precursor RNA two to four times more slowly than do rapidly growing cells, but that there is little if any reduction in the instantaneous rate of synthesis of HnRNA by the non-growing cells. We have independently reached the same conclusion from simultaneous measurements on the specific radioactivity of the UTP pool and the rate of ³H-uridine incorporation into RNAs (unpublished work of Edlin and myself). However, although synthesis of the 45S precursor to ribosomal RNA is reduced two to four times in contact inhibited cells, the rate of cell multiplication and the rate of rRNA accumulation are reduced ten times. This suggests either “wastage”⁷ of newly synthesized 45S rRNA precursor, or turnover of ribosomes in contact inhibited cells Two lines of evidence suggest that “wastage” of 45S RNA does not play a significant role in this system. (1) The rate of synthesis of 45S RNA in both growing and contact inhibited cells agrees well with that expected from the observed rates of synthesis of 28S and 18S RNAs (unpublished work of Edlin and myself). Emerson has made similar calculations⁶. (2) 45S RNA labelled with a 20 min pulse of ³H-uridine is converted in the presence of actinomycin D to 28S and 18S RNAs with the same efficiency (approximately 50%) in both growing and contact inhibited cells. These results indicate that, in order to maintain a balanced complement of ribosomal RNAs, contact inhibited cells must turn over their ribosomes. We present evidence here that rRNA is stable in rapidly growing chick cells, but begins to turn over with a half-life of approximately 35–45 h as cells approach confluence and become contact inhibited.     

DNA replication of a polytene chromosome section in Drosophila prior to and during puffing

Polytene chromosome sections 63E1-6 of 3L in Drosophila melanogaster were studied by ³H-uridine and ³H-thymidine autoradiography in late third instar larvae and prepupae. In late third instar larvae 63E does not incorporate ³H-uridine. In prepupae, however, a large puff is formed in 63E which is most active in RNA synthesis. — ³H-thymidine labeling patterns and frequencies of regions 61A-64C were analysed and the non-puffed and puffed 63E sections were compared with reference sections. Both in late third instar larvae and in prepupae 63E shows late replication behavior. It is concluded that the decondensation of chromosome bands does not necessarily entail earlier and/or faster DNA replication.     

Comparison of homologous polytene chromosomes in Phaseolus coccineus embryo suspensor cells: morphological,autoradiographic and cytophotometric analyses

The functional behaviour of unpaired homologous polytene chromosomes (2n=22), was investigated in nuclei of Phaseolus coccineus embryo suspensor cells. Observations were carried out on the morphological level and after ³H-thymidine and ³H-uridine autoradiography. Histone and total protein contents in the chromatin were also investigated. It was shown that corresponding regions of homologous chromosomes may show different functional structures. ³H-thymidine incorporation demonstrated differences between homologues in both DNA synthesis leading to chromosome endoreduplication (polytenization) and DNA amplification (extra DNA synthesis). ³H-uridine autoradiography showed that homologous regions in a given chromosome pair may display three labeling patterns: i) both regions labeled; ii) both regions unlabeled; iii) one region labeled and the other unlabeled. These three states are found to occur in different cells of one and the same embryo suspensor. Differences between homologous chromosome regions were also found in the ratios between DNA and protein contents in their chromatin. These results, which show that the functional activity of homologous chromosomes of the same complement may greatly differ, are discussed in relation to the characteristics of the system investigated.     

Alcuni Aspetti Citologici Dell'Endosperma di Phaseolus Coccineus L.

Abstract

Some cytological aspects of Phaseolus coccineus L. endosperm. — Cytological observations were made on the endosperm of Phaseolus coccineus, in a limited stage of development of the seed, using different dyes and labelling with ³H-thymidine and ³H-uridine. The results seem to indicate that, contrary to suspensor cells, in the endosperm of Phaseolus, at least in the considered stage, extra DNA synthesis is not present. Chromosomes in these nuclei, however, undergo several endoreduplication cycles. Nucleoli may be either one or more in a cell, and show a characteristic structure. They are often eccentric in the nucleus and extrusions of nucleolar content in the nucleoplasm or cytoplasm are seen. An apparent alternate activity of RNA synthesis in the nucleoli of the suspensor and in those of endosperm cells is discussed.     

Regulation of Bud Rest in Tubers of Potato, Solanum tuberosum L: VII. Effect of Abscisic and Gibberellic Acids on Nucleic Acid Synthesis in Excised Buds

The effect of gibberellin A₃ (10⁻⁴m) and abscisic acid (10⁻⁴m), applied separately and together, on incorporation of ³H-thymidine and ³H-uridine into DNA and RNA of buds from freshly harvested potatoes was investigated. In some treatments apical buds in intact tubers were treated three times daily for 3 days with test solution before the buds were excised and treated an additional 12 hours in Petri dishes. In other treatments, untreated buds were excised and treated 12 hours. Irrespective of length of treatment, gibberellin A₃ slightly promoted synthesis of DNA and RNA, and abscisic acid essentially blocked such synthesis, in both the presence and absence of gibberellin A₃.     

Studies of nucleic acid metabolism in cultured chick embryo cells infected with Mycoplasma gallisepticum

M. gallisepticum infection of cultured chick embryo cells led to a sharp reduction the rate of 3H-thymidine and 3H-uridine incorporation into DNA and RNA cells, and almost completely suppressed the transposition of uridine label from the nucleus into the cytoplasm, this pointing to the inhibition of escape of RNA synthesized de novo into the infected cells cytoplasm. As suggested, weak labeling of the cytoplasm after prolonged (about several hours) incubation of cultured cells with labeled urine could indicate infection of cell cultures with the mycoplasmae.     

AN AUTORADIOGRAPHIC STUDY OF THE 3H-URIDINE AND 3H-THYMIDINE INCORPORATION IN THE REGENERATING MOUSE LIVER

An autoradiographic study was made of the ³H-uridine incorporation into RNA and DNA in nucleus and cytoplasm of parenchymal cells in the regenerating liver of the mouse after a pulse time of 2 hr. After a decreased uptake of precursor into the parenchymal nucleus during the first 6 hr compared with the normal value, incorporation increased and was maximal at 36 hr; normal values were restored at 72 hr. The cytoplasmic labelling, after an initial small decrease, reached a maximum at 12 hr; this changed to normal 48 hr after hepatectomy. RNase-digestion of the liver sections left a small incorporation in both nucleus and cytoplasm: presumably DNA. This incorporation is maximal at 12 hr over the nucleus and at 24 hr over the cytoplasm. After a 2 hr pulse of ³H-thymidine, there was a marked uptake of the precursor into DNA about 24 hr after hepatectomy. This was maximal at 48 hr and reached normal values at 72 hr. A small amount of incorporation of ³H-thymidine into DNA was seen immediately after the operation, and this population of weakly labelled nuclei was still rather large 72 hr later.