DNA synthesis rate and unlabeled cells with S-phase DNA content in P388 leukemic cells in vivo studied by flow cytometry and cell sorting

DNA synthesis kinetics of P388 leukemic cells growing in ascites form in BDF1 hybrid mice were investigated during the periods of exponential growth and growth restriction. Incorporation of tritiated thymidine, and in some instances tritiated uridine, was studied by autoradiography in cells sorted from S-phase fractions during DNA flow cytometry. During exponential growth continuous labeling with tritiated thymidine indicated a growth fraction of unity, whereas the growth fraction was about 30% during growth restriction. At this growth phase the majority of cells with S phase DNA content remained unlabeled after pulse labeling with tritiated thymidine or uridine, indicating that both the "salvage" and the "de novo" DNA synthesis pathways were blocked in most S-phase cells. After pulse labeling with tritiated thymidine the DNA synthesis rate pattern was investigated by sorting of consecutive fractions of cells throughout the S phase followed by quantitative autoradiography. With exception of a reduced rate in the middle of S phase, the DNA synthesis rate increased as the cells progressed through S phase during exponential growth. In contrast, the DNA synthesis rate pattern had a relative peak in the middle of S phase during growth restriction, which is otherwise characterized by a low mean DNA synthesis rate.     

Progenitor cells of the definitive erythroid series in the chick embryo

Chick embryos, developing in ovo, were treated with methyllabeled tritiated thymidine at 3 days. Definitive erythroid cells isolated from such embryos at 6 days had incorporated tritiated thymidine into nuclear DNA. Progenitor cells for the definitive erythroid cell series appear, therefore, to exist in the embryo prior to the initiation of definitive erythropoiesis and are capable of DNA synthesis.     

Delays in prophase induced by adenosine 2-deoxyriboside and their relation with DNA synthesis

The rate of DNA synthesis in the course of the division cycle in root meristem ofAllium cepa growing under constant temperature and aeration conditions has been studied by means of treatment with AdR, as a specific inhibitor of the synthesis, as well as by the incorporation of tritiated thymidine. The one-hour treatment with AdR or tritiated thymidine was given at various hours in the course of the interphase of a synchronous population of binucleate cells induced by caffeine. In the case of AdR, sensitivity to the inhibition of DNA synthesis was studied by recording the delays produced by the treatment in the appearance of biprophases and bitelophases. The selection by the use of caffeine, of spontaneously synchronous populations of cells going through the telophase and becoming binucleate and the detection of the first biprophases in the subsequent mitosis provide a highly synchronized system with which to study the incorporation of tritiated thymidine during the interphase. The curves representing sensitivity to the inhibition of DNA synthesis by AdR and the rate of tritiated thymidine incorporation coincide, so that we can regard the delays, under our conditions, as proportional to the rate of DNA synthesis at the moment of the AdR treatment. This rate, in the S period, was found to be variable by both methods, being higher in the first and the last thirds of the S period (S₁ and S₃) and lower in the middle third (S₂).     

Some Characteristics of DNA Synthesis and the Mitotic Cycle in Ehrlich Ascites Tumor Cells

In vivo studies of Ehrlich ascites tumor cells during the first 5 days of growth in peritoneal cavities of mice consisted of the following: 1. Determination of growth curves by direct enumeration of cells. 2. Estimation of the duration of each phase of the mitotic cycle based on incidence of cells in different phases. 3. Radioautographic studies to determine the proportion of cells in different phases of the mitotic cycle that incorporate tritiated thymidine during a single brief exposure to this precursor of DNA. 4. Estimation of the rate of incorporation of tritiated thymidine at different times during the period of DNA synthesis by comparison of mean grain counts over nuclei in radioautographs at different times following exposure to tritiated thymidine. The assumptions underlying these experiments and our observations concerning the duration of the period of DNA synthesis and its relation to the mitotic cycle are discussed. It is concluded that DNA synthesis is continuous, occupying a period of 8.5 hours during the interphase and that the average rate of synthesis is approximately constant.     

Tritiated thymidine effects on DNA, RNA, and protein synthetic rates in synchronized L-cells

Exponentially growing L -cells were synchronized by the double thymidine-block method and exposed to high specific activities of tritiated thymidine. DNA, RNA, and protein synthetic rates were measured through one cell cycle with 1-hour pulses of the appropriate C¹⁴-labelled precursors. Equivalent doses of tritiated water were substituted for tritiated thymidine in some experiments. Total amounts of DNA and histones per nucleus were determined photometrically in Feulgen and fast-green stained cells. It was observed that incorporated tritiated thymidine has an effect distinct from that of tritiated water and that it enhances the incorporation of the precursors at specific stages of the cell cycle, to a degree roughly proportional to the dose. Photometric data indicated an increase in DNA net synthesis and a metabolic instability of histones in the H³-thymidine-treated cells, resulting in higher DNA:histone ratios.     

Differences in flow cytometry and 3H-thymidine analyses of perturbed human lymphocytes.

A calf thymocyte crude aqueous extract was tested for DNA synthesis inhibitory activity using phytohemagglutinin-stimulated human peripheral blood lymphocytes. Inhibition of DNA synthesis was assayed using tritiated thymidine and flow cytometry. Although the calf thymocyte crude extract inhibited tritiated thymidine incorporation by over 50%, only very slight changes in the flow cytometric analysis were observed. When dibutyryl-cyclic adenosine monophosphate was used as an inhibitor, a correlation in terms of the inhibition of tritiated thymidine to the inhibition by flow cytometry was observed.     

Serum and insulin initiation of DNA synthesis in mammary gland epithelium in vitro

These experiments demonstrate that serum, like insulin, can initiate DNA synthesis in mouse mammary gland epithelium, resulting in a three- to four-fold increase in the rate of DNA synthesis and number of cells synthesizing DNA. Both serum and insulin also increase the tritiated thymidine counts in the acid soluble material of these cells, suggesting that each alters thymidine transport. When combined at any concentration, these agents produce an additive effect on DNA synthesis, number of cells synthesizing DNA and thymidine transport. The factor(s) in serum responsible for these effects is associated with high molecular weight material. These experiments suggest that DNA synthesis and thymidine transport are affected independently by serum and insulin in mammary gland epithelium.     

Validity of the tritiated thymidine method for estimating bacterial growth rates: measurement of isotope dilution during DNA synthesis.

The rate of tritiated thymidine incorporation into DNA was used to estimate bacterial growth rates in aquatic environments. To be accurate, the calculation of growth rates has to include a factor for the dilution of isotope before incorporation. The validity of an isotope dilution analysis to determine this factor was verified in experiments reported here with cultures of a marine bacterium growing in a chemostat. Growth rates calculated from data on chemostat dilution rates and cell density agreed well with rates calculated by tritiated thymidine incorporation into DNA and isotope dilution analysis. With sufficiently high concentrations of exogenous thymidine, de novo synthesis of deoxythymidine monophosphate was inhibited, thereby preventing the endogenous dilution of isotope. The thymidine technique was also shown to be useful for measuring growth rates of mixed suspensions of bacteria growing anaerobically. Thymidine was incorporated into the DNA of a range of marine pseudomonads that were investigated. Three species did not take up thymidine. The common marine cyanobacterium Synechococcus species did not incorporate thymidine into DNA.     

Discrepancies between precursor uptake and DNA synthesis in mammalian cells

The incorporation of tritiated thymidine and deoxycytidine into DNA of x-irradiated mammalian cells was studied. Both inhibition and stimulation were found due to pool changes rather than to effects on DNA synthesis, indicating that precursor uptake can be a misleading method to measure DNA synthesis rate.     

Kinetics of Incorporation of DNA Precursors from Ingested Bacteria into Macronuclear DNA of Paramecium aurelia12

SYNOPSIS. The kinetics of transfer of tritium-labeled material from the DNA of ingested bacteria into macronuclear DNA of Paramecium was examined by autoradiography. Bacteria labeled with tritiated thymidine were almost immediately incorporated into food vacuoles, thus becoming available for digestion and a potential source of labeled DNA precursors. Soluble label derived from food vacuoles appeared in low concentrations in the cytoplasm soon after cells were transferred to medium with labeled bacteria; incorporation of labeled precursors into macronuclear DNA began within 5 min. Labeled food vacuoles remained as potential sources of tritiated DNA precursors for a long and variable period after removal of labeled cells to non-labeled medium. The activity of the soluble cytoplasmic DNA precursors decreased parallel to the loss of labeled food vacuoles and no soluble DNA precursors were carried over from one macronuclear DNA synthetic period to the next. Labeling experiments were designed, using this information, which allowed determination of the pattern of macronuclear DNA synthesis and nuclear mass increase during the cell cycle. Macronuclear DNA synthesis began 25–30% of the way thru the cell cycle, continued at a constant rate during the middle half, and decreased in rate during the last quarter. Macronuclear mass increased in an approximately linear fashion, beginning with the onset of DNA synthesis and doubling by the time of karyokinesis.     

Deoxyribonucleic Acid synthesis in root cap cells of cultured roots of convolvulus

Isolated cultured roots of Convolvulus arvensis L. were incubated in 0.2 microcurie per milliliter methyl-³H-thymidine for 14 hours, for 64 hours, or for 14 hours followed by transfer to fresh nutrient medium without tritiated thymidine. Autoradiographs of serial, longitudinal sections of roots which were continuously incubated with tritiated thymidine showed that cells of the root cap columella did not undergo DNA synthesis after their formation from the root cap initials. In roots pulse-labeled with tritiated thymidine, the movement of labeled cells through the root cap columella was followed. Labeled cells were displaced at a constant rate of 72 microns per day over a period of 6 to 9 days before they were sloughed off from the root cap. The specialized role of the root cap cells in relation to their distinctive metabolism and longevity is discussed.     

TIMING OF INCORPORATION OF TRITIATED NUCLEOSIDES INTO DNA AND RNA OF EMBRYONIC CELLS OF RANA PIPIENS

The incorporation of tritiated nucleosides into DNA and RNA has been examined in partially synchronized cells of Rana pipiens embryos at the neurula and tailbud stages. Tritiated thymidine and deoxyguanosine are incorporated into the DNA in two maxima, or waves, during the S phase at both stages. More DNA replicates in the early maximum at the neurula stage than at the tailbud stage. A comparison of the degree of incorporation of labelled deoxyguanosine to labelled thymidine into DNA suggests that earlier replicating DNA at both stages may be GC-rich compared to later replicating DNA. The incorporation of tritiated uridine into RNA during the S phase also differs between the neurula and tailbud stages. Pulse and continuous label experiments indicate that at the neurula stage the highest rate of RNA synthesis occurs late in the S phase whereas at the tailbud stage the higher rate of RNA synthesis has shifted to an interval earlier in the S phase.     

Incorporation of tritiated thymidine into testicular deoxyribonucleic acid of the rat. Effect of inhibin]

tritiated thymidine is incorporated into DNA of spermatogonia type B as proved by autohistoradiography when injected in vivo three hours before the sacrifice. Maximum binding and specific activity (labelled thymidine expressed in DPM per mg DNA) are obtained in pubertal rats aged 42 days and weighting 150 g. Inhibin preparation extracted from rete testis fluid (RTF3) specifically inhibits tritiated thymidine into testicular DNA. Thus, no modification of incorporation into hepatic DNA is observed and the preparation loses its inhibitory effect when denatured by heating and trypsin digestion. Tritiated thymidine incorporation into testicular DNA is poor in normal adult rats and in pubertal hypophysectomized animals, RTF3 does not modify the thymidine incorporation in both conditions. The reasons for this lack of effect are discussed. An experimental condition of spermatogonial regeneration is obtained by testicular irradiation. Inhibin preparation inhibits the regenerative DNA synthesis.     

Membrane fatty acid changes during the cell cycle of CV-1 cells

Monolayers of CV-1 cells were synchronized at the G1/S boundary of the cell cycle by a 24-h 2 mM thymidine blockade. Uptake of tritiated thymidine indicated that the peak DNA synthesis occurred 6-8 h after release from the block and that cell cycle time was 18-20 h. The fatty acid composition of phospholipids extracted from cells at 0, 7, and 18 h postblockade was measured by gas chromatography. The results indicate cyclic changes in membrane fatty acids with a significant increase in long-chain polyunsaturated fatty acids during the DNA synthesis phase (S phase) of the cell cycle.     

Oestradiol is effective in stimulating 3H-thymidine incorporation but not on proliferation of breast cancer cultured cells

The growth of numerous human oestrogen target cell lines is said to have been stimulated by oestradiol. We studied the action of this hormone on the growth of two human cancer cell lines originating from endometrium (GUS), and from breast (FAM). Oestradiol was inactive on endometrial cell multiplication as well as on their tritiated thymidine uptake, but in FAM breast cancer cells, we noticed a discrepancy between tritiated thymidine uptake and actual cell proliferation: there was a 40% increase in DNA precursor uptake, but no change in either the number of cells or in their DNA content, both of which were verified by two different methods. Therefore, an actual increased nuclear (autoradiographic) uptake of thymidine did take place in oestrogenized cells, associated with an increase of incorporation into DNA (a rise of radioactivity in the acid-insoluble materials), but finally there was no greater total DNA increase in the whole treated population than in control cells. Then we examined the metabolism of tritiated thymidine in oestradiol-treated FAM cells. We extracted the radioactive thymine nucleotides and characterized them chromatographically: the oestradiol caused an increase in the labelling of deoxythymine monophosphate (TMP). How these results are consistent with both unmodified cell count and whole DNA content is discussed.     

Change in DNA synthesis during compensatory hypertrophy in rat kidney. Stimulating factor in serum]

DNA synthesis by the kidneys was studied in young rats by incorporation of tritiated thymidine. Peak of DNA synthesis was observed as soon as 24 hr after uninephrectomy. No significative difference was observed between control rats and those receiving various doses of serum obtained from uninephrectomized or sham operated rats. Serum of uninephrectomized rats did not increase DNA synthesis in kidney slices in vitro.     

Immunological studies of aging. IX. Impaired proliferation of T lymphocytes detected in elderly humans by flow cytometry

Lymphocytes from humans over the age of 65 incorporate approximately 50% less tritiated thymidine than do lymphocytes from young donors when cultured with phytohemagglutinin. Because lymphocytes from elderly humans are more sensitive to cell cycle arrest induced by tritiated thymidine, it was impossible to determine to what extent impaired thymidine incorporation reflected a defect in proliferation or the increased sensitivity to the radioactive isotope. Flow cytometry was used to measure the proliferative response of T cells from young and old donors in culture with PHA. It was found that 25 percent fewer lymphocytes from old as compared to young humans enter the G1 or complete the S phase of the cell cycle. However, the rate of progression through the cell cycle by activated cells from young and old humans is comparable. Thus, flow cytometry suggested that the difference in thymidine incorporation by lymphocytes from old and young donors is attributable equally to a proliferative defect and to cell cycle arrest induced by tritiated thymidine. This conclusion was supported by the fact that the relative impairment of thymidine incorporation by lymphocytes from old donors was only one-half as great when a 20-min instead of a 24-hr pulse of tritiated thymidine was used.     

Oestradiol is effective in stimulating 3H-Thymidine Incorporation But Not On Proliferation of Breast Cancer Cultured Cells

The growth of numerous human oestrogen target cell lines is said to have been stimulated by oestradiol. We studied the action of this hormone on the growth of two human cancer cell lines originating from endometrium (GUS), and from breast (FAM). Oestradiol was inactive on endometrial cell multiplication as well as on their tritiated thymidine uptake, but in FAM breast cancer cells, we noticed a discrepancy between tritiated thymidine uptake and actual cell proliferation: there was a 40% increase in DNA precursor uptake, but no change in either the number of cells or in their DNA content, both of which were verified by two different methods. Therefore, an actual increased nuclear (autoradiographic) uptake of thymidine did take place in oestrogenized cells, associated with an increase of incorporation into DNA (a rise of radioactivity in the acid-insoluble materials), but finally there was no greater total DNA increase in the whole treated population than in control cells. Then we examined the metabolism of tritiated thymidine in oestradiol-treated FAM cells. We extracted the radioactive thymine nucleotides and characterized them chromatographically: the oestradiol caused an increase in the labelling of deoxythymine monophosphate (TMP). How these results are consistent with both unmodified cell count and whole DNA content is discussed.     

Studies on DNA content of hepatocytes in cirrhosis and hepatoma by means of microspectrophotometry and radioautography

In order to clarify the underlying mechanism of malignant transformation from cirrhosis to hepatoma the cell kinetics of hepatocytes were studied in these two conditions. The content and synthesis of DNA in hepatocyte nuclei were investigated, by means of Feulgen-microspectrophotometry and tritiated thymidine radioautography, in cirrhotic and noncancerous parts of hepatoma with concomitant cirrhosis. The distribution of ploidy patterns was widely spread, from hypodiploid to hyperpolyploid, in the noncancerous parts of a cirrhotic liver containing hepatoma. In normal liver, each paired nuclear DNA content of a binucleate cell recorded almost the same amount, whereas in the noncancerous as well as in hepatoma cells much difference of DNA content was observed between the paired nuclei of the binucleate cells. The ploidy pattern of hepatocytes in patients with liver cirrhosis, who had developed hepatoma during follow-up periods of several months to several years, appeared to resemble that in noncancerous parts of hepatoma cases. On the other hand, the incorporation of tritiated thymidine into hepatocytes was found to be markedly increased in noncancerous parts as well as in cirrhotic liver developing hepatoma during follow-up periods. These results suggest the possibility that the hepatocytes in noncancerous parts of hepatoma have deranged cell-kinetics which might be a driving factor for the development of malignancy.     

Studies on DNA content of hepatocytes in cirrhosis and hepatoma by means of microspectrophotometry and radioautography

Summary In order to clarify the underlying mechanism of malignant transformation from cirrhosis to hepatoma the cell kinetics of hepatocytes were studied in these two conditions. The content and synthesis of DNA in hepatocyte nuclei were investigated, by means of Feulgen-microspectrophotometry and tritiated thymidine radioautography, in cirrhotic and noncancerous parts of hepatoma with concomitant cirrhosis. The distribution of ploidy patterns was widely spread, from hypodiploid to hyperpolyploid, in the noncancerous parts of a cirrhotic liver containing hepatoma. In normal liver, each paired nuclear DNA content of a binucleate cell recorded almost the same amount, whereas in the noncancerous as well as in hepatoma cells much difference of DNA content was observed between the paired nuclei of the binucleate cells. The ploidy pattern of hepatocytes in patients with liver cirrhosis, who had developed hepatoma during follow-up periods of several months to several years, appeared to resemble that in noncancerous parts of hepatoma cases. On the other hand, the incorporation of tritiated thymidine into hepatocytes was found to be markedly increased in noncancerous parts as well as in cirrhotic liver developing hepatoma during follow-up periods. These results suggest the possibility that the hepatocytes in noncancerous parts of hepatoma have deranged cell-kinetics which might be a driving factor for the development of malignancy.