Flow cytometric-based isolation of nucleated erythroid cells during maturation: an approach to cell surface antigen studies

Nucleated red blood cells (NRBCs) are involved in normal physiologic processes, as well as in several malignancies. They are usually counted manually under the microscope. However, blood sample manipulation may be a source of variability and manual counting is imprecise, time-consuming, and subjective. To improve identification of CD45-negative cells, we used a flow cytometry technique that avoids the addition of lysing reagents and stains viable cell nuclei. We applied this method for counting and isolating NRBC subpopulations in whole blood samples, using DNA/RNA viable staining to discriminate nonnucleated erythroid cells and debris. NRBC counts gave 197.95 cells per mm(3) in mobilized peripheral blood samples (1.00%, n = 20), 3897.59 cells per mm(3) in leukapheresis products (3.08%, n = 20), and 765.21 cells per mm(3) in cord blood samples (6.09%, n = 20). Normal bone marrow counts were 5449.42 cells per mm(3) (11.76%, n = 20). Scatter profiles showed three distinct populations, from early to late-stage erythroblasts, consisting of erythroblasts, orthochromatic erythroblasts, and ejected nuclei, as confirmed by Wright-Giemsa staining. In addition, flow cytometry immunophenotyping showed that glycophorin A was expressed dimly on NRBCs during maturation. These findings point to the feasibility of live NRBCs studies, which offer great potential for a wide range of disciplines.     

A novel concentration and viability detection method for <Emphasis Type="Italic">Brettanomyces</Emphasis> using the Cellometer image cytometry

Brettanomyces spp. can present unique cell morphologies comprised of excessive pseudohyphae and budding, leading to difficulties in enumerating cells. The current cell counting methods include manual counting of methylene blue-stained yeasts or measuring optical densities using a spectrophotometer. However, manual counting can be time-consuming and has high operator-dependent variations due to subjectivity. Optical density measurement can also introduce uncertainties where instead of individual cells counted, an average of a cell population is measured. In contrast, by utilizing the fluorescence capability of an image cytometer to detect acridine orange and propidium iodide viability dyes, individual cell nuclei can be counted directly in the pseudohyphae chains, which can improve the accuracy and efficiency of cell counting, as well as eliminating the subjectivity from manual counting. In this work, two experiments were performed to demonstrate the capability of Cellometer image cytometer to monitor Brettanomyces concentrations, viabilities, and budding/pseudohyphae percentages. First, a yeast propagation experiment was conducted to optimize software counting parameters for monitoring the growth of Brettanomyces clausenii, Brettanomyces bruxellensis, and Brettanomyces lambicus, which showed increasing cell concentrations, and varying pseudohyphae percentages. The pseudohyphae formed during propagation were counted either as multiple nuclei or a single multi-nuclei organism, where the results of counting the yeast as a single multi-nuclei organism were directly compared to manual counting. Second, a yeast fermentation experiment was conducted to demonstrate that the proposed image cytometric analysis method can monitor the growth pattern of B. lambicus and B. clausenii during beer fermentation. The results from both experiments displayed different growth patterns, viability, and budding/pseudohyphae percentages for each Brettanomyces species. The proposed Cellometer image cytometry method can improve efficiency and eliminate operator-dependent variations of cell counting compared with the traditional methods, which can potentially improve the quality of beverage products employing Brettanomyces yeasts.     

The crystal violet nuclei staining technique leads to anomalous results in monitoring mammalian cell cultures

Nuclear counts determined by crystal violet staining from samples of stationary or microcarrier cultures of hybridomas, CHO or Vero cells were consistently and significantly higher than cell concentrations determined by the trypan blue or Coulter counter methods. This difference was attributed to the presence of a significant proportion of binucleated cells, which are assumed to be 35% of the cell population in the stationary phase of Vero cultures. The proportion of such cells during exponential growth was variable. However, continuous sub-culture of these cells induced a degree of synchrony during growth which resulted in a cyclic variation of the difference between the cell and nuclei counting techniques. This data indicates that care should be taken in interpreting cell culture profiles based solely on crystal violet nuclei staining counts.     

Automated topographical cell proliferation analysis

BACKGROUND: Cell proliferation is often studied using the incorporation of bromodeoxyuridine (BrdU). Immunohistochemical staining is then used to detect BrdU in the nucleus. To circumvent the observer bias and labor-intensive nature of manually counting BrdU-labeled nuclei, an automated topographical cell proliferation analysis method is developed. METHODS: Sections stained with fluorescein-labeled anti-BrdU and counterstained with To-Pro-3 are scanned using confocal laser scanning microscopy (CLSM). For every point in the image, the nucleus density of BrdU-labeled nuclei and the total nucleus density of the neighborhood of that point are calculated from the BrdU and the To-Pro-3 signal, respectively. The ratio of these densities gives an indication of the amount of cell proliferation at that point. The automated measure is validated by comparing it with the ratio of BrdU-stained nuclei to the total number of nuclei obtained from a manual count. RESULTS: A positive correlation is found between the automated measure and the ratios calculated from the manual counting (r = 0.86, P < 0.001). Calculating the topographical cell proliferation using the automated method is faster and does not suffer from interobserver variability. CONCLUSIONS: Automated topographical cell proliferation analysis is a fast method to objectively find differences in cell proliferation within a tissue. This can be visualized by a topographical map that corresponds to the tissue under study.     

Cell-cycle dependency of radiosensitivity and mutagenesis in fertilized egg cells of rice,Oryza sativa L.

Summary To determine the time and duration of the first and second DNA synthetic phases in fertilized egg cells and central cells of rice, a total of 753 ovules were sampled at 2 h intervals during the first 30 h after pollination and exposed to ³H-thymidine for 2 h at 25 °C. Autoradiographic observation of labeled nuclei was made for fertilized egg cells, as well as for central and antipodal cells. The first and second DNA synthetic phases in fertilized egg cells were found 8–12 h and 21–25 h after pollination, respectively. The durations of each cell-cycle phase in the egg cell were estimated to be 4–6 h for G₁, 4 h vor S and for G₂, and 2 h for M. In the central cell, the first DNA synthesis took place at 3–4 h after pollination, i.e., immediately after fertilization, followed by the formation of the primary endosperm nucleus. Antipodal cells also showed labeled nuclei in the early stages after fertilization. The first divisions of fertilized egg cell and primary endosperm nucleus were observed at 16–18h and at 4–6 h after pollination, respectively. The present observations suggest that sperm and egg nuclei participate in fertilization with haploid amount (1C) of DNA and fertilized egg cell originates thus in 2C state.     

Automated measurement of MIB-1 positive area as an alternative to counting in follicular lymphoma

Manual counting of MIB-1 positive cells which has been suggested as an alternative to centroblast counting for the diagnostic grading of follicular lymphoma is a laborious task. In this study, the validity of automated measurement of the MIB-1 positive area is analyzed as an alternative approach. Archival MIB-1 stained tissue sections of 15 follicular lymphomas were assessed manually and automatically by three independent observers. Concordance correlation coefficients and coefficients of variation were calculated to study reproducibility and variability of both methods and to compare result from both methods. A good concordance was observed between the two methods. The reproducibility of the automated method was slightly better than the manual counting of positive nuclei. Measurement of MIB-1 positive surface area may be used as a simple and fast alternative to tedious manual counting of positive nuclei as a potential help in follicular lymphoma grading.     

The effect of transforming growth factor-β on fibroblast cell proliferation in intact connective tissue in vitro

Summary Transforming growth factor-β (TGF-β) has varying effects on cell proliferation, stimulating some cell types while inhibiting others. Its effect on proliferation has mostly been assessed in cell cultures without consideration for the influence of a tissue matrix. In the present investigation we studied the effect of TGF-β on fibroblast cell proliferation in intact connective tissue in vitro using the membranous part of the rat mesentery. Mesenteric membranes were spread over the hole of a cytocentrifuge paper, incubated in vitro, and exposed to various concentrations of TGF-β with or without serum added. At designated times after incubation, the specimens were fixed, spread out on microscope slides, and stained by the Feulgen reaction. Cell proliferation was estimated by counting mitoses in fibroblasts and mesothelial cells and by DNA cytometry of fibroblast nuclei using computer assisted image analyses. Higher concentrations of TGF-β significantly increased proliferation estimated as either the percentage of cells in the S+G₂ phase of the cell cycle or the mitotic index when serum was added. In medium without serum, TGF-β did slightly, but not significantly, increase proliferation. The results show that TGF-β stimulates connective tissue cell proliferation dose-dependently in intact connective tissue in vitro and that addition of serum to the medium is a prerequisite for optimal stimulation.     

Isolation of gametes and central cells from Oryza sativa L.

In vitro fertilization system of higher plants has been well established using maize gametes and central cells, which can produce embryos and endosperms. In the present study, procedures for isolating gametes and central cells from rice (Oryza sativa L. cv. Nipponbare), a model plant, are reported with the goal of establishing rice in vitro fertilization system. Egg cells and central cells were isolated by manual manipulation of enzyme-treated unpollinated ovules, and an alternative direct isolation method for egg cells that does not use enzymatic treatment was also established. Fluorescent visualization of the granular structures in the cytoplasm of isolated egg cells and the nucleoli in two polar nuclei of isolated central cells suggest that these cells are reliable gametes and central cells. For sperm cell isolation, the contents of rice pollen grains were released by osmotic pressure-induced bursting of the grains. In addition, electrofusion with isolated gametes was successfully conducted.     

Nuclear and cell fusion cause polyploidy in the megagametophyte of common cypress, Cupressus sempervirens L.

In common cypress, Cupressus sempervirens L., the megagametophyte persists in mature seeds as a polyploid endosperm containing cells with even and odd series of DNA contents: 1C, 2C, 3C, 4C, 5C etc., where C is the amount of DNA in the haploid genome. In this study, cytometrical, histological and cytochemical investigations were performed in order to determine the behavior of megagametophyte nuclei during the reproductive cycle. Unexpected nuclear alterations due to a continuous process of nuclear fusion were observed in the megagametophyte, leading to polyploidization and consequently to intense food-reserve synthesis. During the free nuclear stage, the megagametophyte exhibited only sporadic nuclear fusion and limited food-reserve production. When cellularization took place, multinucleated compartments were observed in which nuclei fused, producing odd and even series of DNA contents as proved by flow-cytometric analysis. This polyploidization process considerably increased after fertilization and during embryo development, and was accompanied by increased food-reserve synthesis. During these later stages, fusion mainly involved nuclei of contiguous cells and was preceded by the disintegration of their adjacent walls. Mitoses with incomplete phragmoplast differentiation were also observed to yield polyploid nuclei. Finally, in mature seeds the endosperm still exhibited multinucleate cells and fusion nuclei, and contained high amounts of storage products. The results are interpreted as an alteration of DNA contents in the megagametophyte cells in relation to specific metabolic activity during seed development. Received: 2 September 1998 / Accepted: 31 December 1998     

A robust flow-cytometric protocol for assessing growth rate of hatchery-reared barramundi Lates calcarifer larvae

In this study, a flow-cytometric cell cycle analysis method to assess instantaneous growth rate of whole larvae of the Australian barramundi Lates calcarifer was developed and validated. High-resolution DNA measurements of either fresh, frozen or RNAlater-preserved larvae (gap0-gap1, G(0) -G(1), coefficient of variation (c.v.) < 3, 4 and 5%, respectively) enabled the deconvolution of the DNA histogram and assignment of the proportion of nuclei into cell cycle compartments G(0) -G(1), S (DNA synthesis) and G(2) -M (Gap2-Mitosis). This technique can be also used for individual fish tissues such as brain, liver, fin and muscle. For the first time, the combined proportion of replicating nuclei (into S and G(2) -M phases) of whole fish larvae and absolute growth rate in length (mm day(-1)) has been correlated in commercial aquaculture conditions. Fast growing L. calcarifer larvae had an overall hyperplasia advantage as indicated by a greater proportion of cells in the S+G(2) -M phase compared with slow growing larvae, which might explain the increasing differences in size during culture. In a fasting trial, larvae ceased growth while maintaining the constant initial rates of cell division throughout a 6 day period. For a highly fed fast growing control group, cell division rates significantly increased after day 4. Flow-cytometric cell cycle analysis of whole fish larvae may provide fish biologists and aquaculturists with a better understanding of how cell division rates influence early growth in natural and artificial environments.     

Behavior of mitochondria and their nuclei during amoebae cell proliferation inPhysarum polycephalum

Summary We investigated the manner of mitochondrial DNA (mtDNA) replication and distribution during the culture ofPhysarum polycephalum amoebae cells by microphotometry, anti-BrdU immunofluorescence microscopy, and quantitative hybridization analysis. In amoebae cells ofP. polycephalum, the number of mitochondria per cell and the shape of both mitochondria and mitochondrial nuclei (mt-nuclei) noticeably changed over the culture period. At the time of transfer, about 27 short ellipsoidal shaped mitochondria, which each contained a small amount of DNA, were observed in each cell. The number of mitochondria per cell decreased gradually, while the amount of mtDNA in an mt-nucleus and the length of mt-nuclei increased gradually. Midway through the middle logarithmic growth phase, the number of mitochondria per cell reached a minimum (about 10 mitochondria per cell), but most mtnuclei assumed an elongated shape and contained a large amount of mtDNA. During the late log- and stationary-growth phase, the number of mitochondria per cell increased gradually, while the amount of DNA in an mt-nucleus and mt-nuclei length decreased gradually. Upon completion of the stationary phase, the number and condition of mitochondria within cells returned to that first observed at the time of transfer. The total amount of mtDNA in a cell increased about 1.6-fold the first day, decreased immediately, then maintained a constant level ranging from 130 to 160 T. Except for the fact that mtDNA synthesis began earlier than synthesis of cell nuclei, the rate of increase in mtDNA paralleled that of cell-nuclear DNA throughout the culture. These results indicate that mtDNA is continuously replicated in pace with cell proliferation and the rate of mitochondrial division varies during culture; this mitochondrial division does not synchronize with either mtDNA replication or cell division. Furthermore, we observed the spatial distribution of DNA replication sites along mt-nuclei. Replication began at several sites scattered along an mt-nucleus, and the number of replication sites increased as the length of mt-nuclei increased. These results indicate that mtDNA replication progresses in adjacent replicons, which are collectively termed a mitochondrial replicon cluster.Abbreviations DAPI 4,6-diamidino-2-phenylindole - VIMPCS video-intensified microscope photon counting system - BrdU 5-bromodeoxyuridine - FITC fluorescein isothiocyanate     

Establishment of rapidly proliferating rice cell suspension culture and its characterization by fluorescence-activated cell sorting analysis

A rapidly growing and fine-textured cell line, NB2P, was established from Japonica rice cultivar Nipponbare and characterized in this study. Addition of casein enzymatic hydrolysate (2 g/L) and pectinase (0.005%) to the suspension medium resulted in a 2-fold-increased rate of cell growth and reduced aggregation. Remarkably, the medium and conditions described here resulted in growth leading to a 9-fold increase in fresh weight 7 d after subculture. High-quality, well-dispersed nuclei were obtained from this NB2P cell culture. Fluorescence-activated cell sorting (FACS) analysis of the isolated nuclei showed a clear separation of each cell cycle phase in both small- and large-scale preparations. On the basis of representative data from the nuclei fraction in the G1 phase, purity of the sorted and recovered nuclei was higher than 98%. The studies described here demonstrate that NB2P culture can be a powerful tool for studying many important plant processes, including DNA replication and cell cycle-related pathways.     

Flow-cytometric analysis of mixed cell populations using intermediate filament antibodies

Using two human tumour cell lines, T24 bladder carcinoma and Molt-4 leukemia, flow-cytometric DNA analysis of pure and mixed cell populations was performed using cellular cytokeratin content to distinguish cytokeratin-containing carcinoma cells from leukemia cells which do not contain cytokeratin. Using cytokeratin content to gate DNA analysis, the same specificity and sensitivity of cellular DNA content and distribution measurement could be achieved by single-pass FCM analysis of a mixture of the two cell types as was seen when analysing pure populations of the two cell lines. This technique has broad applicability to FCM analysis of mixed populations composed of cells from different tissues of origin.     

TGFβ1 induces growth arrest and apoptosis but not ciliated cell differentiation in rat tracheal epithelial cell cultures

Summary We are studying the regulation of ciliated cell differentiation using an in vitro model of tracheal regeneration. Previously, we reported that removal of growth stimulating compounds such as epidermal growth factor (EGF) and cholera toxin reduced DNA synthesis and cell number while increasing ciliated cell differentiation (Clark et al., 1995). This result suggested that the induction of growth arrest may stimulate terminal differentiation of airway epithelial cells into ciliated cells. Transforming growth factor βs (TGFβs) inhibit epithelial cell proliferation and have also been shown to stimulate epithelial cell differentiation. In this study, the effect of TGFβ₁ on growth and ciliated cell differentiation of rat tracheal epithelial (RTE) cells was examined. TGFβ₁ inhibited [³H]thymidine incorporation by RTE cells in a dose-dependent manner. A 40% inhibition was observed after a 24-h incubation with 10 pM TGFβ₁. Continuous treatment with TGFβ₁ (1–50 pM) also reduced cell number during the time when ciliogenesis occurs. This reduction resulted in part from a loss of cells through exfoliation, in addition to the inhibition of proliferation. The exfoliated cells exhibited several morphological features characteristic of apoptosis, including shrunken cells, condensed and fragmented nuclei, and intact organelles. In addition, electrophoretic analysis of genomic DNA analysis isolated from exfoliated cells demonstrated the presence of a nucleosomal ladder. However, in contrast to the removal of EGF, treatment with TGFβ₁ for 7 d did not increase ciliated cell differentiation. TGFβ1 is, therefore, capable of inhibiting proliferation and increasing apoptosis in RTE cells without stimulating ciliated cell differentiation.     

Preparing nuclei from cells in monolayer cultures suitable for counting and for following synchronized cells through the cell cycle

A procedure is described for preparing nuclei from cells in monolayer culture so that they may be counted using an electronic particle counter. It takes only 10 to 15 min, and consists of swelling the cells in hypotonic buffer and then lysing them with the quaternary ammonium salt, ethylhexadecyldimethylammonium bromide. The cells are completely lysed, yielding a suspension of clean single nuclei which is stable, free of debris, and easily counted. The method was developed for a cell line of epithelial origin (MCF-7), which is often difficult to trypsinize to single cells. It works equally well at all cell densities up to and beyond confluence, and has been used with a variety of cells in culture, including 3T3 cells, bovine macrophages, rat mammary epithelial cells, mouse mammary tumor cell lines, and human fibroblasts. The size of the nuclei produced by this procedure is related to their DNA content, and the method is thus suitable for following cultures of synchronized cells through the cell cycle, and for performing differential counts of cells with substantial differences in DNA content.     

RNA synthesis by villus and crypt cell nuclei of rat intestinal mucosa

Rat intestinal mucosa was separated by eversion and vibration to provide a sequence of fractions from predominantly villus cells to predominantly crypt cells. The proportions of these cell types in each fraction were computed from the concentrations of alkaline phosphatase (villus cells) and thymidine kinase (crypt cells) in each population. The isolated mucosal fractions varied from about 90% villus cells to 90% crypt cells. Following injection of the rats with [³H]thymidine, the nuclei were isolated from each mucosal cell fraction and the amount of radioactivity incorporated into DNA was measured as an index of crypt cell abundance. The isolated nuclei were also incubated with ribonucleoside triphosphates and the amount of RNA synthesized was measured. Nuclei labeled with [³H]thymidine were found only in fractions rich in crypt cells, whereas capacity for RNA synthesis remained very active in mucosal fractions consisting predominantly of villus cells. It is concluded that non-dividing villus cells continue to make RNA.     

The course of chloroplast DNA replication and its relationship to other reproductive processes in the chloroplast and nucleocytoplasmic compartment during the cell cycle of the algaScenedesmus quadricauda

Summary DNA containing structures (cellular, chloroplast and mitochondrial nuclei) were stained with the fluorochrome DAPI. Fluorescence intensity, as a measure of DNA content, was estimated during the mitotic cycle in synchronized populations of the chlorococcal alga,Scenedesmus quadricauda. In cells yielding eight daughter cells, three consecutive steps in chloroplast DNA increase occurred over one mitotic cycle. The first step was performed shortly after releasing the daughter cells, the second and third steps occurred consecutively during the first half of the mitotic cycle. Commitment to chloroplast DNA replication was chronologically separated from commitment to division of chloroplast nuclei, revealing that these two chloroplast reproductive steps were under different control mechanisms. The replication of chloroplast DNA occurred at a different time to that of cell-nuclear DNA. The coordination of chloroplast reproductive processes and those in the nucleocytoplasmic compartment were governed by the mutual trophic and metabolic dependency of these compartments rather than by any direct or feedback control controlled by either of them.Abbreviations DAPI 46-diamidino-2-phenylindole - ptDNA DNA in chloroplast nuclei - nucDNA DNA in cell nuclei     

Modulation of cell cycle progression and of antibody production in mouse hybridomas by a nucleotide analogue

The nucleotide analogue 9-[2-(phosphonomethoxy)ethyl]guanine (PMEG) has been identified as a powerful antiproliferative substance when acting on hybridoma cells. In the range of 10 nM to 100 nM concentrations this agent reduces cell growth rate, while its apoptosis-inducing activity is marginal. Marked induction of apoptosis can be observed at micromolar and higher order concentrations. In PMEG-supplemented media the cell cycle progression is perturbed, the flow-cytometric DNA profile shows a higher proportion of cells in the S and G2/M phases of the cell cycle. Concomitantly with the reduction of the growth rate, the specific monoclonal antibody production rate may rise by 20–27%. Addition of PMEG at the end of the exponential phase of a batch culture results in an enhancement of the final monoclonal antibody concentration. This revised version was published online in August 2006 with corrections to the Cover Date.     

Flow cytometric cell division tracking using nuclei

BACKGROUND: Labeling cells with 5-(and-6) carboxyfluorescein diacetate succinimidyl ester (CFSE) allows their subsequent division history to be determined by flow cytometry. Whether nuclei isolated from CFSE-labeled cells retain any or sufficient dye to reveal the same division history was unknown. If division tracking in nuclei were possible, it would enable the development of new methods for monitoring quantitative changes in nuclei components and how these might vary with successive divisions. METHODS: Nuclei from CFSE-labeled B cells were prepared by lysing whole cells with nonionic detergent Nonidet P-40 (NP-40). The purified nuclei were subsequently fixed with paraformaldehyde and permeabilized with Tween 20 in order to perform intranuclear staining. RESULTS: Purified nuclei displayed the equivalent asynchronous cell division profile as intact cells. Furthermore, the possibility of simultaneously monitoring division history with intranuclear staining was established by labeling bromodeoxyuridine (BrdU) incorporated into DNA during a brief pulse prior to harvesting cells. This result was verified with the staining of proliferating cell nuclear antigen (PCNA). In addition, aminoactinomycin D (7-AAD) staining established that cell cycle stage and cell division history could be simultaneously determined. CONCLUSIONS: Our results demonstrate that cell division history is retained in purified cell nuclei after CFSE labeling and can be used in combination with intranuclear immunofluorescent labeling and DNA staining to provide a comprehensive analysis of nuclei by flow cytometry. This method should prove useful for assessing differential nuclear translocation and accumulation of molecular components during consecutive division rounds and during different stages of the cell cycle.