LOW LEVEL INCORPORATION OF TRITIATED THYMIDINE INTO THE NUCLEAR DNA OF PURKINJE NEURONS OF ADULT MICE

Adult mice were pulse labeled with tritiated thymidine [³H]TdR and killed 9 hr later. A low level incorporation of [³H]TdR into the nuclear DNA of Purkinje neurons was found in autoradiographs. Enzymatic digestions with DNase and with RNase in combination with autoradiographic grain counts indicate that a portion of nuclear DNA is not stable in the Purkinje nucleus. These results are discussed in light of reports of the stable nature of DNA in Purkinje neurons of adult mice.     

DIFFERENT LABELLING PATTERNS IN MOUSE LYMPHOID TISSUES WITH [3H]DEOXYCYTIDINE AND [3H]THYMIDINE

The percentages of labelled lymphocytes in smear preparations of mouse thymus were higher than those in similar preparations of mesenteric lymph nodes with either generally labelled tritiated deoxycytidine, [³H]CdR, or tritiated thymidine, [³H]TdR. Lymphocytes in the thymus cortex and in germinal centres of mesenteric lymph nodes were intensely labelled with [³H]CdR, whereas with [³H]TdR lymphocytes in the peripheral region of thymus and medullary cords of mesenteric lymph nodes were heavily labelled. The majority of lymphocytes in thymic cortex and germinal centres of mesenteric lymph nodes were labelled weakly with [³H]TdR. Thus, labelling patterns with [³H]CdR differed from those with [³H]TdR in lymphoid tissues of the mouse. Mouse lymphocytes can utilize [³H]CdR as a precursor molecule for cytosine and thymine in DNA. The ratio of radioactivity of thymine to that of cytosine was measured biochemically in DNA extracted from lymphocytes labelled with [³H]CdR. This radioactivity ratio in thymus was higher than that in mesenteric lymph nodes. These results suggest that the metabolic activities of utilizing CdR for DNA synthesis differ within lymphocyte populations in various lymphoid tissues in the mouse.     

EFFECT OF TRITIATED THYMIDINE ON THE KINETICS AND VIABILITY OF 9L CELLS IN VITRO

The colony-forming efficiency of 9L rat gliosarcoma cells was unaffected by treatment with 0.1 μCi/ml of [³H]TdR. However, when cells were treated with 1 or 10 μCi/ml of [³H]Tdr, cell growth was reduced and cell survival decreased. When monolayer 9L cells were treated with 1 μCi/ml of [³H]TdR for up to 72 hr, approximately 5% survived, which is closely related to the percentage of non-cycling cells in this system. When cells were treated with 10 μCi/ml of [³H]TdR for 72 hr, less survival was observed. the additional cell kill observed may be induced by [³H]TdR released from doomed cells into petri dishes during the incubation period of the colony-formation assay.     

QUANTITATION OF [3H]THYMIDINE UPTAKE BY STIMULATED HUMAN LYMPHOCYTES†

We have investigated the relationship between cell numbers and the amount of tritiated thymidine ([³H]TdR) taken up by stimulated human peripheral lymphocytes, as a function both of labeling time and of the specific activity of the thymidine. Cells responding either to mitogens or to allogenic cells show simple first order kinetics for the uptake of thymidine. Fitting the data to a Michaelis-Menten type of model, we observe for labeling times of 12 hr and longer, non-competitive inhibition of thymidine uptake by increased specific activity of tritium label, regardless of the mode of stimulation. However, for an individual responder in MLC at any arbitrary but fixed specific activity, dose of [³H]TdR and labeling interval, we still observe a linear relationship between cell mass and incorporated label. In contrast, if specific responding combinations in mixed lymphocyte culture are compared, the inhibition by specific activity at longer time intervals becomes significant and influences the quantitative interpretation of results. Specific activities of less than 10 Ci/mmole and labeling times of 6 hr or less avoid inhibition and ensure a linear relationship between dividing cell number and CPM (counts per minute recorded) of incorporated label.     

Measuring bacterial production via rate of incorporation of [3H]thymidine into DNA

Thymidine (TdR) incorporation into DNA as a measure of bacterial production in environmental samples relies on assumptions about what organisms incorporate exogenous thymidine, extent of dilution of labelled thymidine by internal and external pools, and analytical methods for recovery and purification of bacterial DNA. We have examined these assumptions with regard to the feasibility of using [³H]TdR incorporation in the water column and sediments of a blackwater river. The extent of dilution of added [³H]TdR may be determined with isotope dilution plots (Moriarty and Pollard, 1981 and 1982) and these indicate a wide range of degree of participation of added [³H]TdR. Previously described methods for extracting DNA from sediment bacteria may lead to underestimates and we described a more efficient recovery scheme.     

Different Sensitivities of Granulocyte-Macrophage and Erythroid Progenitor Cells of Normal Human Bone Marrow to S-Phase-Specific Agents

The extraordinary sensitivity of early erythroid progenitor cells (BFU-e) of normal human bone marrow to tritiated thymidine ([³H]TdR) was studied. While exposure of bone-marrow cells to [³H]TdR for 1 hr resulted in the death of only 40% of the granulocyte-macrophage progenitor cells (CFU-c), 90% of BFU-e were killed. Experiments in which normal bone-marrow cells were mixed with bone-marrow cells which had been exposed to [³H]TdR demonstrated that the excessive killing of BFU-e by [³H]TdR reflected carry-over of the [³H]TdR by the exposed cells. A carry-over effect was not observed for CFU-c, suggesting the presence of a fundamental difference in the metabolism of TdR between CFU-c and BFU-e. There was a suggestion of a carry-over effect regarding two other S-phase-specific agents, hydroxyurea and 1-β-D-arabinofuranosylcytosine.     

Detection of bacterial populations in oyster tissue homogenates using direct microscopic counts and thymidine incorporation

Acridine orange direct counts and incorporation of [³H]thymidine ([³H]TdR) were used to determine the effectiveness of an antibiotic treatment on reducing bacterial activity in oyster tissue. Cell counts, as well as total [³H]TdR incorporation into the acid insoluble pool, were significantly lower in antibiotically treated oyster tissue homogenates than in untreated controls. However, rates of [³H]TdR incorporation were not significantly different between treatments, indicating increased metabolic activity (on a per cell basis) in the antibiotically treated bacterial population versus the control population.     

INACCURACY OF ESTIMATIONS OF S PHASE FRACTION BY REDUCTION IN CLONING EFFICIENCY WITH HYDROXYUREA OR TRITIATED THYMIDINE

The current hypothesis, that the fractional reduction of cloning efficiency in semi-solid culture systems induced by pretreatment of the cells with hydroxyurea (HU) or [³H]TdR equals the fraction of cells initially in S phase, is tested. A lymphoblastoid cell line, SK-L7, with known cell cycle kinetics was exposed to cytotoxic concentrations of HU or suicidal doses of [³H]TdR and then initiated in semi-solid and liquid culture. Although approximately 0.6 of the initial population was in S, 1-hr exposures of HU at concentrations of up to 10^-2 M failed to reduce subsequent cloning efficiency. the 1-hr exposure to HU did not reduce either the immediate cell number or the gross population doubling rate over 24 hr. A 24-hr exposure to 10^-3 M HU reduced the cloning efficiency by approximately 98%, confirming the drug's cytotoxic capability. [³H]TdR at doses of 100 μCi/ml for 20–40 min reduced the cloning efficiency by approximately 60 and 70%, respectively. Although no cytotoxicity immediately after exposure was observed in either case, gross population doubling rate in liquid culture was reduced. While HU failed to reduce subsequent cloning efficiency, [³H]TdR reduced cloning efficiency by approximately the fraction of initial cells in S. the above hypothesis, therefore, cannot be applied naïvely as a technique for quantitating the fraction of a clonogenic cell population in S phase.     

THYMIDINE METABOLISM AND DEOXYRIBONUCLEIC ACID SYNTHESIS IN THE DEVELOPING RAT BRAIN

—In growing rat brain, the specific activity of DNA at 12 h after the subcutaneous injection of [³H]thymidine underwent a sharp rise during the first 6 days of life, dropping just as precipitously by 15 days, thereafter continuing to decrease with increasing age. When [³H]thymidine was given to 6-day-old rats, a considerable amount was taken up immediately into the brain. Thymidine taken up into the acid-soluble fraction was readily phosphorylated to its nucleotides, thymidine mono-, di-, and triphosphate (TMP, TDP and TTP) within only 30 min following injection. The highest specific activity was found in TTP. The incorporation of of [3H]thymidine into DNA took place over a longer period of time after injection.     

Inorganic Phosphorus Stimulation of Bacterioplankton Production in a Meso-Eutrophic Lake

Experiments were conducted to determine whether production of heterotrophic bacterioplankton in a small meso-eutrophic lake was influenced by the dissolved inorganic phosphorus (DIP) supply. DIP may indirectly limit bacterial production by limiting phytoplankton, which in turn may limit the carbon available to bacteria. Direct DIP limitation of bacteria occurs where the availability of DIP for bacteria is insufficient to maintain growth. This work examined direct DIP limitation of bacteria by removing phytoplankton and incubating flasks with or without added P in the dark. Bacterial production was measured via the rate of incorporation of [³H]thymidine ([³H]TdR) into DNA. Bacterial abundance was followed with epifluorescent direct counts. Rates of [³H]TdR incorporation were significantly greater in flasks with added DIP, and changes in cell abundances generally paralleled increases in [³H]TdR incorporation. Even very small additions of P (0.05 μM) were sufficient to stimulate production. DIP addition to whole lakewater also stimulated [³H]TdR incorporation relative to that in zero-addition controls, but there was not a concurrent increase in bacterial cell numbers. The stimulation of [³H]TdR incorporation after DIP addition to whole lakewater was significantly less than the stimulation due to DIP addition to 1-μm-pore-size-filtered lakewater. In this study, addition of DIP caused as much as an eightfold stimulation of [³H]TdR incorporation.     

Augmentation by thymidine of the incorporation and distribution of 5-fluorouracil in ribosomal RNA.

The effect of high dose thymidine (TdR) pretreatment on the action of 5-fluorouracil (5-FU) on rRNA was measured in regenerating liver after partial hepatectomy. TdR did not enhance the inhibitory or non-inhibitory effects of 5-FU on the synthesis of rRNA and poly(A)RNA, respectively. However, TdR pretreatment intensified the effect of 5-FU on interference with the processing of rRNA from precursor rRNA. The distribution of [³H]5FU, as well as [³H]-orotic acid was enhanced in the 2′-0-methylated sequences of rRNA following pretreatment with TdR. Thus, the combination regimen of TdR plus 5-FU resulted in enhanced interference with the processing of rRNA.     

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.     

LIMITATIONS IN THE USE OF [3H]THYMIDINE INCORPORATION INTO DNA AS AN INDICATOR OF EPIDERMAL KERATINOCYTE PROLIFERATION IN VITRO

The validity of using the incorporation of [³H]thymidine into DNA as an indicator of epidermal keratinocyte proliferation in vitro has been investigated. Other parameters of cell proliferation, direct count of cell number and measurement of DNA content, consistently fail to correlate with changes in [³H]thymidine incorporation into DNA in primary and first passage cultures of rabbit and human epidermal keratinocytes. Maximum incorporation of [³H]thymidine precedes the active growth period by three days. Incorporation declines markedly during the proliferative period. Thymidine kinase activity decreases during the proliferative growth phase. Incorporation of another pyrimidine nucleotide precursor, [¹⁴C]aspartic acid, suggests that in epidermal keratinocytes in vitro the extent of utilization of the salvage and the de novo pathways may be inversely related. In such cases [³H]thymidine incorporation into TCA precipitable material fails to reflect accurately cell proliferation.     

Endogenous Regulation of Endothelial Cell Proliferation

Bovine aortic endothelial cells (BAEC) in culture have the ability to regulate their own proliferation. We have found that a fraction below 100,000 daltons obtained from the media of confluent cultures of BAEC inhibits tritiated thymidine [³H]TdR incorporation as well as their proliferation. the inhibition is dose- and time-dependent; maximum inhibition of [³H]TdR incorporation occurs 8 hr after cells are released from synchronization and the inhibitory fraction is added. Inhibition is evident at concentrations as low as 50 μg/ml and reaches a maximum at 600 μg/ml. the blockage of [³H]TdR incorporation is reflected in the inhibition of cell proliferation. In the presence of 400 μg of endogenous inhibitor per ml of media, added at the time of plating, the average population doubling time increases from 19 to 41 hr. These findings indicate that, in culture, BAEC can regulate their own proliferation by synthesizing an endogenous inhibitor(s) of proliferation.     

Synchronization of mouse 3T3 and SV40 3T3 cells by way of centrifugal elutriation

Populations of G1 phase 3T3 and SV40 3T3 mouse fibroblasts have been isolated from exponentially growing cultures by the technique of centrifugal elutriation. Return of the G1 phase cells to growth conditions results in their synchronous passage through the cell cycle, as determined from monitoring of cell number, [³H]thymidine ([³H]TdR) incorporation and fraction of [³H]TdR labeled nuclei. The durations of G1, S and G2 phases are consistent with values obtained by previous investigators using conventional induction techniques for synchronization. The method for isolation of the G1 phase cells is rapid, the yield is high and the process does not appear to alter the temporal aspects of the cell cycle in either cell type.     

CYTOTOXIC EFFECTS OF COLCEMID OR HIGH SPECIFIC ACTIVITY TRITIATED THYMIDINE ON CLONOGENIC CELL SURVIVAL IN B6CF1 MICE

High specific activity tritiated thymidine (HSA-[³H]TdR) and colcemid were given in cytotoxic doses and regimens to B6CF₁/Anl mice. The number of cells per intestinal crypt was reduced by the S-phase-specific HSA-[³H]TdR and the metaphase blocking and cytotoxic effect of multiple injections of colcemid. In 50-day old mice, the cytotoxic effect of multiple injections of colcemid reduced both the number of cells per crypt and the clonogenic cell survival. However, the number of surviving intestinal clonogenic or stem cells, assayed by the micro-colony technique, did not change in 110–130-day old mice. These data suggest that most of the cells at risk from these cytotoxic agents are not clonogenic in adult 110–130-day old mice but are the cells in amplification division. However, since the stem cells of young mice are more susceptible to colcemid, they are apparently in a more rapid cell cycle than those of older mice. The clonogenic cell survival measured in 110–130-day old mice after a single radiation dose of 14 Gy (1400 rad) responded in a non-linear way to increasing time of continuous colcemid cytotoxicity. These data suggest that the intestinal stem cells can respond to amplification compartment cell death by a shortening of their cell cycle and thus, over time, the number of stem cells at risk to colcemid cytotoxicity increases.     

Characteristics of spontaneous and induced thymidine and 5-iodo-2-deoxyuridine resistant clones of mouse lymphoma cells

Clones resistant to 5-iodo-2-deoxyuridine (IUdR) were isolated from P388 cells and cultured in the absence of selective medium. Thymidine kinase assays were performed on 8 clones which had arisen spontaneously and 19 isolated after exposure to X-rays or alkylating agents. All the clones tested showed significantly reduced thymidine kinase activity relative to wild-type cultures, but none showed zero levels. 14 of these clones were tested for thymidine (TdR) uptake and all showed a marked reduction in the rate of [³H]TdR incorporation into acid soluble fractions and into DNA. 7 IUdR-resistant (IUdR^r) clones were tested for revertibility as measured by growth of colonies in HAT medium. 5 of the 7 were found to revert at measurable rates either spontaneously or after a low dose of mutagen.Thymidine kinase activity was also measured in 8 thymidine resistant P388 clones (TdR^r). Initial rates of thymidine phosphorylation were not significantly altered in 5 of the 8 clones tested but significantly lower amounts of phosphorylated products were observed in 6 of the 8 clones. [³H]TdR uptake was reduced in 9 of 12 clones tested, and 2 of them showed no corresponding reduction in the thymidine kinase activity, suggesting the occurence of mutants with altered permeability for thymidine.IUdR resistant L5178Y clones could not be isolated. Thymidine resistant L5178Y clones were similar to TdR^r P388 clones, i.e. they showed changes in initial rates of thymidine kinase activity and reduced accumulation of phosphorylated products. Only one clone could be shown to be a membrane mutant. These results are discussed in relation to the genetic nature of the thymidine kinase locus in the two cell lines.     

Thymidine Metabolism and the Measurement of the Rate of DNA Synthesis in Carrot Suspension Cultures: EVIDENCE FOR A DEGRADATION PATHWAY FOR THYMIDINE

The kinetics of [³H]thymidine incorporation into the DNA of carrot suspension cultures were investigated. At a thymidine concentration of 0.1 micromolar, incorporation into DNA is not quantitative but ceases after only 14% of the thymidine has been incorporated. Thymidine incorporation into DNA is resumed following addition of a second aliquot of thymidine, which is consistent with substrate depletion. In vivo tracer experiments indicate that this may be due to a catabolic route for converting thymidine to β-aminoisobutyric acid. Bearing these observations in mind, conditions for determining the rate of DNA synthesis using [³H]thymidine incorporation have been investigated. It is concluded that by increasing the thymidine concentration to 10 micromolar the assay period may be increased, by reducing the influence of the degradative pathway, and that cell density and incubation time are critical factors in establishing a valid measure of the rate of DNA synthesis using this method.     

Non-random incorporation of 5-bromodeoxyuridine in rat cell DNA

Secondary cultures of rat embryo cells were exposed for 24 hrs. to 10-⁷M [³H] thymidine (TdR) or 10^?7M [³H]5-bromodeoxyuridine (BrdU) in order to localize and compare the distribution of the isotopes in DNA. DNA was extracted, sheared, and centrifuged to equilibrium through neutral and alkaline CsCl density gradients. The DNA band from each gradient type was separated into a “heavy” and “light” fraction, and DNA-DNA reassociation hybridizations were performed on each sample. Renaturation profiles revealed that each fractionated DNA sample was representative of the complete rat cell genome, except for the “light” [³H]BrdU-DNA prepared by centrifugation through alkaline CsCl gradients. This fraction was predominantly depleted of labeled late repetitive and intermediate sequences. Uncentrifuged rat DNA was sequentially fractionated during reassociation into rapidly, intermediate, and slowly reassociating sequences by hydroxyapatite chromatography. Relative specific activities of each component revealed a non-uniform distribution of [³H]BrdU moieties as compared to [³H]TdR. These results suggest a nonrandom incorporation of 10^?7M BrdU into rat cell DNA sequences.     

A correction: inhibitory activity in the conditioned medium of embryonic chick bones is due to thymidine

Earlier studies from this laboratory suggested that embryonic chick bones in organ culture released into the culture medium a specific inhibitor of bone cell proliferation as defined by inhibition of [3H]TdR incorporation into DNA. Dialysis and membrane ultrafiltration experiments suggested that the inhibitory substance (IS) had a molecular weight between 6000 and 14,000. However, subsequent studies on the purification of IS have revealed that the inhibitory activity in bone-conditioned medium is of lower molecular weight and has several properties in common with thymidine (TdR): (1) IS coeluted with [3H]TdR upon gel filtration chromatography on Sephadex G-10. (2) IS bound to charcoal but not to cation or anion exchange resins. (3) Bone-conditioned medium decreased incorporation of [3H]TdR into the free [3H]TdR pool of cells in monolayer culture. (4) Conditioned medium inhibited [3H]TdR incorporation into [3H]thymidine monophosphate in a reaction catalyzed by thymidine kinase. The equivalent concentration of TdR in conditioned medium as estimated by thymidine kinase assay was sufficient to account for the reduction in [3H]TdR incorporation into bone cell DNA. No evidence was found for a specific inhibitor of bone cell proliferation other than TdR. Hence we conclude that the inhibitory effect of IS is due to dilution of [3H]TdR by nonradioactive TdR. Furthermore, media conditioned by several tumor cell lines also contained a low-molecular-weight component which inhibited [3H]TdR incorporation. The results suggest that organ- and cell-conditioned media can contain significant concentrations of TdR which can artifactually inhibit [3H]TdR incorporation in cell proliferation assays.