CELL CYCLE TIME DETERMINATIONS BASED ON LIQUID SCINTILLATION COUNTING OF 3H-TdR LABELED MITOTIC CELLS

Following a 10 min pulse labeling with ³H-TdR, flasks of asynchronous monolayer cultures of Chinese hamster ovary cells were subjected to mitotic selection at 2 hr intervals. The mitotic index of the selected populations was always greater than 90%. Counts per min per cell obtained by liquid scintillation counting were plotted versus time after the pulse label. Comparisons were made between cycle times obtained by the mitotic-scintillation counting method and by the standard per cent labeled mitosis technique. The resulting curves were used for calculations of the cell cycle times and the lengths of G₁, S, G₂ and M phases of the cell cycle. There was less than 2% difference in the cell cycle times obtained using the scintillation method as compared to times calculated from autoradiographic data obtained from individual petri dishes. The mitotic-scintillation counting technique is simple, accurate and rapid and allows the calculation of the cell kinetics parameters within 1 hr of the end of the experiment.     

Differential incorporation of 3H-thymidine into DNA in cultured skin fibroblasts derived from patients with cystic fibrosis and controls.

Tritiated thymidine (³H-TdR) incorporation into DNA of the fibroblasts derived from subjects with cystic fibrosis (CF) and their controls was studied with scintillation counting and autoradiography. ³H-TdR incorporation at 24 hours postseeding was significantly less (p<0.005) in CF strains in comparison with cells from controls. The percentage of labeled fibroblasts was not significantly different between the two strains (p>0.1). The cell cycle time and the duration of each phase were studied by a mitotic selection and scintillation counting technique. There was no difference in cell cycle time between CF and control fibroblasts, however, the duration of the synthetic phase was significantly (p<0.005) longer in CF subjects.     

A simple method for the liquid scintillation counting of precipitated protein from red blood cells

A method for the liquid scintillation counting of precipitated protein from red cells in 0.1–1.0 ml of blood is described. Precipitate is incubated for 0.5 hr at 100°C with equal volumes of acetic acid, ethyl acetate, and hydrogen peroxide; an equal volume of hydrochlorie acid is then added, followed by a toluene/Triton X-100 scintillation mixture containing primary and secondary scintillators. Maximum counting efficiencies with precipitate from 0.2 ml of blood were 90% for ¹⁴C and 35% for ³H. Recovery of labeled amino acid was not less than 90%. Chemiluminescence decayed to not more than 15 cpm above background in 45 min.     

Direct counting of tissues containing radioactive cholesterol by a two-phase liquid scintillation method

A rapid and simple method for counting radioactivity in tissue samples containing [³H]- or [¹⁴C]-cholesterol is described.Up to 500 μl of the specimen to be counted (plasma, tissue homogenate) is measured into a counting vial. The lipids of the tissue are extracted into 15 ml of a toluene-based scintillation mixture containing 37.5% ethylene glycol monomethyl ether that is added to the same vial. With the addition of 1 ml water, two phases form: the upper toluene phase containing all cholesterol together with the scintillating phosphor and the lower water phase containing most of the quenching material. Bleaching to reduce color quenching is not necessary. Chemiluminescence is negligible. The counting efficiencies are appreciably higher than those obtained in aqueous one-phase scintillation systems but lower than those obtained with pure standards in one-phase pure toluene scintillation systems.     

X-ray Sensitivity of HeLa S3 Cells in the G2 Phase: Comparison of Two Methods of Synchronization

The sensitivity of HeLa S3 cells to 220 kv X-rays was measured in terms of cell survival (colony development) during the G2 phase of the cell generation cycle, employing two procedures designed to free G2 cultures from contaminating cells from other phases of the cycle. Treatment of synchronous cultures (obtained initially by mitotic selection) with high specific activity tritiated thymidine (HSA-³HTdR) selectively eliminated S phase cells, while addition of vinblastine permitted removal of cells as they entered mitosis. It was found that HeLa S3 cells become increasingly sensitive as they progress through G2. The pattern of sensitivity fluctuations observed in synchronous HeLa S3 populations selected by the foregoing method was compared with that found in synchronous cultures prepared by the HSA-³HTdR method of Whitmore. The latter method had been used previously with mouse L cells, which were found to undergo a different pattern of sensitivity fluctuations. The two methods yield similar results for HeLa cells in the S and G2 phases of the cycle. It may be concluded, therefore, that the discrepancies between HeLa and mouse L cells do not arise from methodological factors, but represent fundamental differences between the cell types.     

The determination of the radioactivity of 14C samples adsorbed on glass vials by direct liquid scintillation counting

A method for obtaining the true activity and counting efficiency of a ¹⁴C sample partially or completely adsorbed on the walls of a counting vial by liquid scintillation counting is presented.     

Problem in liquid scintillation counting: adsorption of (14-C)pholyethylene glycol in dilute solutions.

[¹⁴C]polyethylene glycol is the method of choice for quantitating changes in intestinal water flux during drug absorption experiments in animals and man. This study points out some of the problems which can be encountered in using this method and provides ways to minimize these problems. Polyethylene glycol selectively binds to the glass wall of scintillation vials during counting and results in a decrease in counting efficiency as a function of time. The results obtained when using this method are determined by the choice of scintillation vial, scintillation cocktail, concentration of polyethylene glycol and the time period over which the samples are counted.     

Equilibrium isoelectric focussing in acrylamide gel slabs--reduction of cathodic drift.

A simple, economical method for counting acrylamide gel slices on solid filter paper supports in a toluene-based scintillation cocktail is described. Major advantages of the system include no requirement for either dissolution of the gel or elution of the radioactive material prior to emulsion counting and the direct reutilization of scintillation cocktail and vials. Additionally, ³²P-labeled RNA samples can be counted with better relative efficiencies and those labeled with ¹⁴C or ³³P can be determined at equivalent efficiencies. Tritium was detected less readily, with an absolute efficiency of approximately 10%.     

Counting of p32 in plant tissues using the Cerenkov effect

Summary A procedure for counting p³² in plant tissues is presented. The method, based on the use of Cerenkov radiation, involves practically no sample preparation. Plant tissue are placed into vials containing water or hexane and counted with a liquid scintillation counter. Counts obtained, using this procedure were found to be linearily related to that obtained with a G.M. tube. The counting efficiency was, however, higher with the proposed method. The use of hexane is advantageous if leakage of p³² from the tissue is possible, or when higher counting efficiency is desireable. The use of different liquids may also enable a discriminative count of different beta emitters. As suggested recently⁸ use of wavelength shifter may further increase efficiency of counting Cerenkov radiation.     

Improvements in and Environmental Applications of Double-Vial Radiorespirometry for the Study of Microbial Mineralization

Several variations in the scintillation mixture and the filter paper arrangements for double-vial radiorespirometry were compared. Improved efficiencies (44%) and shorter response times were found by adding wetting agents and methanolic NaOH to the scintillation mixture in the filter paper. The scintillation chemicals used did not contain dioxane and were found to be nontoxic to the test microbiota in this system. Covering the inner reaction vial with aluminum foil minimized the reduction in counting efficiency when testing colored or dense environmental samples. Mineralization rates were determined with ¹⁴C-labeled glucose, acetate, and glutamate and [¹⁴C]cellulose- and [¹⁴C]lignin-labeled lignocellulose for composting cow manure, forest soil, and arctic lake sediment microbiota. This improved method can be used in a variety of procedures involving the measurement of microbial mineralizations of organic compounds. Since no liquid scintillation cocktail is used for counting, the radioactive wastes are aqueous or can be incinerated, making disposal easy.     

Enrichment of cell populations in metaphase, anaphase, and telophase by synchronization using nocodazole and blebbistatin: a novel method suitable for examining dynamic changes in proteins during mitotic progression

Mitosis is a continuous process to separate replicated chromosomes into two daughter cells through prophase, metaphase, anaphase, and telophase. Although a number of methods have been established to synchronize cells at different phases of the cell cycle, it is difficult to synchronize cells at the specific phases, anaphase and telophase, during mitosis because of the short duration of anaphase. Here, we show that HeLa S3 cells in anaphase and in telophase are successfully enriched by treatment with a combination of low concentrations of the microtubule-depolymerizing agent nocodazole and the myosin II inhibitor blebbistatin. After 9-h release from thymidine block at G1/S phase, addition of nocodazole at 20 ng/ml but not 40 ng/ml ensures rapid release from the nocodazole arrest. Subsequently, the cells are cultured in the presence of 50 μM blebbistatin for 20 and 50 min to enrich cells in anaphase and telophase, respectively. Western blot analysis verifies down-regulation of phospho-histone H3-Ser10, phospho-Aurora A/B/C, and cyclin B1 during M-phase progression. Furthermore, we show how the electrophoretic mobility shifts of the Src-family kinases c-Yes and c-Src can change in each phase of mitosis. These results provide a useful synchronization method for biochemically examining protein dynamics during M-phase progression.     

Recognition of cells in mitosis by flow cytofluormetry.

Cells in mitosis may be distinguished from interphase cells based on difference in chromatin structure as revealed by two different methods of staining with acridine orange. In the first method, cells are heated and then stained at neutral pH; the difference in stainability between mitotic and interphase cells reflects the difference in the extent of deoxyribonucleic acid denatured by heat in these cells. At a given temperature the deoxyribonucleic acid of the mitotic cell appears to be more extensively denatured than that of the interphase cell. In the second method, cells are treated with buffer at pH 1.5 (1.3 to 1.9) and then stained at pH 2.6 (2.3 to 2.9). The mechanisms involved in the differential stainability of interphase versus mitotic cells at that low pH are currently under investigation. In both methods, in addition to enumerating cells in mitosis, it is possible to quantitate cells in G1, S and G2 phases of the cell cycle.     

High-efficiency liquid-scintillation counting of 14C-labelled material in aqueous solution and determination of specific activity of labelled proteins

1. Inexpensive scintillation mixtures are described which enable the detection of as little as 40μμc of ¹⁴C in aqueous solution with an efficiency of counting of over 80%. 2. A rapid method for the counting of alkaline, acidic and neutral aqueous solutions of up to 1ml. volume is described. Ethanol or 2-ethoxyethanol is used as blending agent. 3. The scintillation counting of alkaline solutions is applied to the accurate determination of the specific activity of ¹⁴C-labelled proteins from plant tissues. 4. Attention has been paid to the importance of a standardized washing procedure for the removal of all traces of radioactive material from glassware.     

Species-specific growth rate of phytoplankton in the West Pacific sector of the Southern Ocean. I.Prorocentrum scuttellum schröder

Phytoplankton samples were collected from the West Pacific Sector of the Southern Ocean to measure the growth rate from November 30 to December 1, 1995.Prorocentrum scuttellum was selected for growth rate measurement using the method of cell cycle analysis. During the 24 hr sampling cycle, cells ofP. scuttellum changed from 2,500 to 5,000 cells/L. The highest abundance was observed at 8:40 AM, December 1, and lowest at 11:40 PM, November 30. Cellular division seemed to occur sometime between 11:40 PM, November 30 and 2:40 AM, December 1. After cell division, DNA fluorescence shifted slowly towards the right, representing the S phase, and the majority of the cells were in S+G2 phases at 8:40 AM, December 1. Between the next six hours, a sharp drop in DNA fluorescence occurred, representing mitosis, and the majority of the cells returned to the G1 phase by 2:40 PM, December 1. We can not determine the duration time of the terminal event from this result However, the growth rate ofP. scuttellum was calculated as 0.43 d^-1 with the help of curve fitting methods. This unexpected result seems to have resulted due to background noise, unsynchronous cell division, unequal sampling, water column unstability, and migrating behavior ofP. scuttellum.     

An improved scintillation cocktail of high-solubilizing power

A scintillation cocktail containing 25% Triton X-114 in xylene is considered for a broad range of scintillation counting applications. The cocktail gives good counting efficiencies for ³H (47%) and ¹⁴C (93%). It will accept up to 30% (v/v) aqueous sample. The scintillation fluid is also used effectively with samples which are difficult to solubilize, such as the degradation products from the solubilization of polyacrylamide gels. The cocktail can be formulated for less than $2.00 per gallon.     

Agarose-DTNB column for binding sulfhydryl-containing proteins and peptides.

The counting rate of [1-¹⁴C]trichloroacetic acid (TCA) was not stable in a standard toluene/Triton X-100 liquid scintillation solution because this compound becomes partially degraded to ¹⁴CO₂ and CHCl₃. Both toluene and Triton were contributing factors in causing this degradation. The NCS solubilizer added to the toluene/Triton scintillation solution trapped ¹⁴CO₂ and stabilized counting rates of [1-¹⁴C]TCA. When [2-¹⁴C]TCA was used, ¹⁴CHCl₃ remained in the scintillation solution resulting in stable counting rates without the addition of NCS.     

Long duration of mitosis and consequences for the cell cycle concept, as seen in the isthmal cells of the mouse pyloric antrum. II. Duration of mitotic phases and cycle stages, and their relation to one another

The kinetics of isthmal cells in mouse antrum were examined in three ways: the duration of cell cycle and DNA-synthesizing (S) stage was measured by the 'fraction of labelled mitoses' method; the duration of interphase and mitotic phases was determined from how frequently they occurred; and mice were killed at various intervals after an intravenous injection of 3H-thymidine to time the acquisition of label by the various phases of mitosis. The duration of the isthmal cell cycle was found to be 13.8 hr and that of the DNA-synthesizing (S) stage, 5.8 h. Estimates for the duration of the G1 and G2 stages were 6.8 and 1.0 hr, respectively. From the frequency of mitotic phases, defined as indicated in the preceding article (El-Alfy & Leblond, 1987) and corrected for the probability of their occurrence, it was estimated that prophase lasted 4.8 hr; metaphase, 0.2 hr; anaphase, 0.06 hr and telophase, 3.3 hr, while the interphase lasted 5.4 hr. In accordance with this, the duration of the whole mitotic process was 8.4 hr. Ten minutes after an intravenous injection of 3H-thymidine, 38% of labelled isthmal cells were in interphase and 62% in early or mid prophase, while cells in late prophase and other mitotic phases were unlabelled. After 60 min, label was in late prophase, after 120 min, in mid telophase and after 180 min, in late telophase. We conclude that there is overlap between some mitotic phases and cycle stages. Thus, while nuclei are at interphase during the early third of S, they are in prophase during the late two-thirds as well as during G2. Also, nuclei are in telophase during the early half of G1 but at interphase during the late half. Differences in nuclear diameter show that subdivision of both S and G1 into early and late periods is practical.     

Preparation of 14C-labeled algal samples for liquid scintillation counting

Four commonly used techniques for preparation of ¹⁴C-labeled algal samples on membranes for liquid scintillation counting were compared and a simple technique for apparent net assimilation measurement from aqueous samples was introduced. All four techniques yielded similar radioactivities from the test cultures and are thus suitable for measurements of ¹⁴C algal samples. The possibly carcinogenic solvent dioxane was not necessary with PCS scintillation cocktail for dissolving radioactivity from algae on filters.     

Comparison of analytical methods for extraction of chloride from plant tissue using36Cl as tracer

Eleven published and unpublished methods for extraction of chloride from plant tissue were compared, using a homogeneous sample of dried, ground maize leaves previously labelled with³⁶Cl. The most effective method of extraction of Cl^–, estimated by liquid scintillation counting of³⁶Cl, was with hot water. However, six other methods, including either cold water extraction, or dry-ashing at 500°C of plant material previously treated to give an alkaline pH, gave³⁶Cl values that were not statistically different from that obtained with hot water extraction. The lowest estimates of³⁶Cl content were obtained either by wet digestion in nitric/acetic acid or by dry-ashing following Mg(NO₃)₂ treatment of the plant material.     

Phorbol Ester TPA Rapidly Prevents Activation of p34 Histone H1 Kinase and Concomitantly the Transition from G2 Phase to Mitosis in Synchronized HeLa Cells

HeLa cells in G2 phase are temporarily inhibited and prevented from entering mitosis by treatment with the phorbol ester TPA (12-O-tetradecanoylphorbol-13-acetate), whereas cells in mitosis are refractory to TPA and divide. In this study the possibility was tested that TPA may interfere with the regulatory cycle of MPF (mitosis promoting factor), the rate-limiting protein kinase for cell division. MPF, consisting of the catalytic subunit p34^cdc2 and the regulatory subunit Cyclin B, is known to be activated at the transition from G2 phase to mitosis through dephosphorylation at Tyr¹⁵ and to become inactivated after metaphase by proteolysis. Treatment of HeLa cells (synchronized around the G2-M transition) with TPA (10^-7M) has now been shown to induce an overall decrease of the histone H1 kinase activity associated with anti-p34^cdc2 immunoprecipitates after about 20 to 30 min. In metaphase cells, the histone H1 kinase activity of p34^cdc2 was shown to remain unaffected by TPA treatment. In cultures enriched in G2 cells neither the amount of p34^cdc2 protein nor that of Cyclin B was influenced by TPA. Moreover, the p34^cdc2/Cyclin B complex formation was also unaffected. However, p34^cdc2 from cultures treated with TPA was more intensely stained by anti-phosphotyrosine antibodies than that of control cells, indicating that TPA treatment probably prevented the tyrosine dephosphorylation required for expression of the histone H1 kinase activity of the complex. The results indicate that TPA treatment of HeLa cultures rapidly stops the G2-M transition because it very rapidly prevents the p34^cdc2/Cyclin B complex in G2 cells from developing histone H1 kinase activity.