Showing papers in "Cytometry in 1992"

Features of apoptotic cells measured by flow cytometry

Abstract: The present review describes several methods to characterize and differentiate between two different mechanisms of cell death, apoptosis and necrosis. Most of these methods were applied to studies of apoptosis triggered in the human leukemic HL-60 cell line by DNA topoisomerase I or II inhibitors, and in rat thymocytes by either topoisomerase inhibitors or prednisolone. In most cases, apoptosis was selective to cells in a particular phase of the cell cycle: only S-phase HL-60 cells and G0 thymocytes were mainly affected. Necrosis was induced by excessively high concentrations of these drugs. The following cell features were found useful to characterize the mode of cell death: a) Activation of an endonuclease in apoptocic cells resulted in extraction of the low molecular weight DNA following cell permeabilization, which, in turn, led to their decreased stainability with DNA-specific fluorochromes. Measurements of DNA content made it possible to identify apoptotic cells and to recognize the cell cycle phase specificity of the apoptotic process. b) Plasma membrane integrity, which is lost in necrotic but not apoptotic cells, was probed by the exclusion of propidium iodide (PI). The combination of PI followed by Hoechst 33342 proved to be an excellent probe to distinguish live, necrotic, early- and late-apoptotic cells. c) Mitochondrial transmembrane potential, assayed by retention of rhodamine 123 was preserved in apoptotic but not necrotic cells. d) The ATP-dependent lysosomal proton pump, tested by the supravital uptake of acridine orange (AO) was also preserved in apoptotic but not necrotic cells. e) Bivariate analysis of cells stained for DNA and protein revealed markedly diminished protein content in apoptotic cells, most likely due to activation of endogenous proteases. Necrotic cells, having leaky membranes, had minimal protein content. f) Staining of RNA allowed for the discrimination of G0 from G1 cells and thus made it possible to reveal that apoptosis was selective to G0 thymocytes. g) The decrease in forward light scatter, paralleled either by no change (HL-60 cells) or an increase (thymocytes) of right angle scatter, were early changes during apoptosis. h) The sensitivity of DNA in situ to denaturation, was increased in apoptotic and necrotic cells. This feature, probed by staining with AO at low pH, provided a sensitive and early assay to discriminate between live, apoptotic and necrotic cells, and to evaluate the cell cycle phase specificity of these processes. i) The in situ nick translation assay employing labeled triphosphonucleotides can be used to reveal DNA strand breaks, to detect the very early stages of apoptosis.(ABSTRACT TRUNCATED AT 400 WORDS)

Dead cell discrimination with 7-amino-actinomycin D in combination with dual color immunofluorescence in single laser flow cytometry.

Abstract: Identification of nonviable cells in immunofluorescently stained cell populations is essential for obtaining accurate data. Fluorescent non-vital DNA dyes, particularly propidium iodide (PI), have been used routinely in flow cytometry for discrimination of dead cells from viable cells on the basis of fluorescence. We describe here the use of an alternative DNA dye, 7-amino-actinomycin D (7-AAD), which can replace PI for the exclusion of nonviable cells. As an example, we present in this paper the utilization of 7-AAD on various leukemic cell lines for dead cell exclusion whenever the viable cell population could not be discriminated reliably from nonviable cells on the light scatter histogram; 7-AAD is suitable for dead cell discrimination in lengthy experiments because it is efficiently excluded by intact cells and has a high DNA binding constant. In addition, the dye is valuable in combination with phycoerythrin (PE)-fluorescence dual-color flow cytometry on a single argon laser instrument, since its emission in the far red can easily be separated from the emission of PE; 7-AAD was used on fluoresceinisothiocyanate (FITC) and PE surface-labeled human thymocytes for characterization of the dying subpopulation of cells which is undergoing programmed cell death. In this heterogeneous cell preparation, the spectral properties of the dye permitted the classification of viable and nonviable cell subpopulations by multiparameter analysis.

Comparative evaluation of several DNA binding dyes in the detection of apoptosis-associated chromatin degradation by flow cytometry.

Abstract: Mouse thymocytes readily undergo apoptosis-associated DNA degradation upon exposure to glucocorticoids or ionizing radiation It has been previously shown that flow cytometric cell cycle analysis of propidium iodide-stained apoptotic thymocytes results in the appearance of a distinct cell cycle region (the A0 region) below the G0/G1 region Cells in this region were shown to be undergoing apoptosis, and determination of apoptosis by flow cytometric analysis was proposed as a superior method for evaluating thymocyte apoptosis In this study, a variety of DNA binding dyes with diverse primary binding mechanisms were evaluated for their ability to detect glucocorticoid and ionizing radiation-induced apoptosis in mouse thymocytes Apoptotic thymocytes stained with DNA binding dyes from the phenanthridinium, acridine, actinomycin, chromomycinone, anthracycline, and bisbenzimidazole groups all demonstrated clearly defined A0 regions with percentages comparable to those obtained for propidium iodide These results indicate that the appearance of the A0 region is not dependent on a particular dye binding characteristic and may be the consequence of extensive changes in chromatin structure resulting in a significant degree of dye exclusion

Time-resolved fluorescence imaging of europium chelate label in immunohistochemistry and in situ hybridization

Abstract: Fluorescent lanthanide chelates with long decay times allow the suppression of the fast decaying autofluorescence in biological specimens. This property makes lanthanide chelates attractive as labels for fluorescence microscopy. As a consequence of the suppression of the background fluorescence the sensitivity can be increased. We modified a standard epifluorescence microscope for time-resolved fluorescence imaging by adding a pulsed light source and a chopper in the narrow aperture plane. A cooled CCD-camera was used for detection and the images were digitally processed. A fluorescent europium chelate was conjugated to antisera and to streptavidin. These conjugates were used for the localization of tumor associated antigen C242 in the malignant mucosa of human colon, for the localization of type II collagen mRNA in developing human cartilaginary growth plates, and for the detection of HPV type specific gene sequences in the squamous epithelium of human cervix. The specific slowly decaying fluorescence of the europium label could be effectively separated from the fast decaying background fluorescence. It was possible to use the europium label at the cell and tissue level and the autofluorescence was effectively suppressed in in situ hybridization and immunohistochemical reactions in both frozen and formaldehydefixed, wax-embedded specimens.

Activated and memory T lymphocytes in human milk

Abstract: Since activated macrophages and cytokines are found in human milk (HM), a flow cytometry study was conducted to determine whether T cells in HM display phenotypic markers of recent or previous activation. HM was collected during the first 3 d of lactation. The Paint-a-Gate program was used to optimize gating on the lymphocyte population. A mean +/- 1 SD of 4 +/- 3% of total HM leukocytes were lymphocytes and 96 +/- 3% were macrophages and granulocytes (N = 33 subjects). HM lymphocyte populations were further analyzed in five subjects. T cells (CD3+) represented 83 +/- 11% and B cells (CD19+) were 6 +/- 4% of HM lymphocytes. The mean CD4/CD8 ratio of T cells in HM was 0.88 (range 0.40-1.25). This ratio was significantly decreased compared to the peripheral blood (PB) of control adults (P less than 0.02) and postpartum women (P less than 0.02), due mostly to a significant increase in CD8+ CD3+ cells in HM compared to the PB of control adults (P less than 0.002) and postpartum women (P less than 0.05). T cells bearing markers of recent activation were significantly increased in HM compared to the PB of control adults: 85 +/- 7% of CD3+ cells in HM were HLA-DR+ (controls, 10 +/- 4%; P less than 0.001), and 15 +/- 6% of CD3+ cells in HM were IL-2R+ (controls, 6 +/- 2%; P less than 0.001).(ABSTRACT TRUNCATED AT 250 WORDS)

Sequential paraformaldehyde and methanol fixation for simultaneous flow cytometric analysis of DNA, cell surface proteins, and intracellular proteins.

Abstract: A cell fixation and permeabilization procedure consisting of sequential paraformaldehyde and methanol was evaluated and found suitable for concomitant flow cytometric quantification of total cellular DNA, immunofluorescence measurements of cell surface proteins, and immunofluorescence measurements of intracellular proteins. Paraformaldehyde/methanol-fixed cells exhibited significantly greater intracellular antitubulin immunofluorescence than cells fixed with paraformaldehyde or methanol alone (p less than 0.002) and significantly greater intracellular antitubulin immunofluorescence than cells fixed with methanol followed by paraformaldehyde (p less than 0.006). With paraformaldehyde/methanol fixation, cell morphology was well preserved and forward and right angle light scatter properties were sufficiently well maintained to permit gating on these parameters. Cell surface marker staining with fluorescent anti-leukocyte antibodies was unaffected by fixation with paraformaldehyde/methanol. Paraformaldehyde effects on the intensity of DNA staining with propidium iodide were dependent on paraformaldehyde concentration and fixation temperature; these effects were least pronounced at low paraformaldehyde concentrations (0.25% or less), and at temperatures lower than 37 degrees C. Paraformaldehyde fixation may result in differences in propidium iodide staining of DNA in some diploid cells, which may produce small spurious aneuploid peaks in normal peripheral blood leukocytes. Paraformaldehyde fixation also produces an apparent increase in the DNA index of aneuploid cell populations in comparison with methanol fixation, particularly when the DNA index exceeds 1.5. Occasionally, this paraformaldehyde fixation-induced effect is useful in identifying biologically distinct near-diploid subpopulations in tumors.

Dose effects of LPS on neutrophils- in a whole blood flow cytometric assay of phagocytosis and oxidative burst

Abstract: Whole blood phagocytosis (P) and oxidative burst (OB), a rapid and sensitive flow cytometric method for quantifying neutrophil activation, was modified for single laser systems by using propidium iodide labeled Staphylococcus aureus and 2',7' dichlorofluorescein diacetate. The purpose of the present study was to characterize this assay with respect to the stimulatory activity of bacterial lipopolysaccharide (LPS) on phagocytosis. Blood from healthy donors was preincubated with log doses of bacterial LPS B (0.1-1,000 ng/ml) or sterile pyrogen-free saline at 37 degrees C from 0-120 minutes. LPS increased both P and OB in a dose-dependent manner (up to 62 and 121%, respectively) at all time points tested, and this effect on P and OB could be detected even with no preincubation. This LPS-induced phagocytic activity could be blocked by the addition of polymyxin B (10 micrograms/ml) during preincubation. The priming effect of LPS was maximal at 45 min. P and OB were inhibited by preincubation with EDTA at doses greater than 2 mM (60 and 80% inhibition, respectively). These observations are consistent with the exquisite sensitivity of the neutrophil to endotoxin. This method can evaluate neutrophil response to immunomodulatory and chemotherapeutic agents in a physiological milieu. These findings re-emphasize the necessity of using pyrogen-free reagents in any study of neutrophil function.

Simultaneous analysis of immunophenotype and apoptosis of murine thymocytes by single laser flow cytometry.

Abstract: The study of the role of apoptosis in thymocyte development has been hampered by the lack of a means of directly immunophenotyping cells undergoing the early phase of apoptosis. This restriction has been overcome by single laser flow cytometry in which apoptosis is detected by Ethidium Bromide (EBr) staining and cell phenotype by binding of FITC-labelled antibody. The initial phase of apoptosis is observed as a cell population that stains faintly with EBr preceding the characteristically bright EBr-staining normally associated with cell death. Here we directly demonstrate using single laser flow cytometry that CD4+ CD8+ CD3low/CD3intermediate thymocytes undergo apoptosis in vitro in response to glucocorticoid treatment.

Fluorescence ratio measurements of double-labeled probes for multiple in situ hybridization by digital imaging microscopy.

Abstract: To expand the multiplicity of the in situ hybridization (ISH) procedure, which is presently limited by the number of fluorochromes spectrally separable in the microscope, a digital fluorescence ratio method is proposed For this purpose, chromosome-specific repetitive probes were double-labeled with two haptens and hybridized to interphase nuclei of human peripheral blood lymphocytes The haptens were immunocytochemically detected with specific antibodies conjugated with the fluorochromes FITC or TRITC The FITC and TRITC fluorescence intensities of spots obtained with different double-haptenized probes were measured, and the fluorescence ratio was calculated for each ISH spot Combinations of different haptens, such as biotin, digoxigenin, fluorescein, sulfonate, acetyl amino fluorene (AAF), and mercury (Hg) were used The fluorescence intensity ratio (FITC/TRITC) of the ISH spots was fairly constant for all combinations used, with coefficients of variation between 10 and 30% To study the feasibility of a probe identification procedure on the basis of probe hapten ratios, one probe was double-labeled with different ratios, by varying the relative concentrations of the modified nucleotides (biotin-11-dUTP and digoxigenin-11-dUTP) in the nick-translation reaction Measurement of the FITC and TRITC intensities of the ISH spots showed that the concentration of modified nucleotides used in the labeling procedures was reflected in the mean fluorescence intensity of the ISH spots Furthermore, the ratio distributions showed little overlap due to the relatively small coefficients of variation The results indicate that a multiple ISH procedure based on fluorescence ratio imaging of double-labeled probes is feasible

Flow cytometric measurement of lipid peroxidation in vital cells using parinaric acid.

Abstract: A method for measuring lipid peroxidation using time resolved flow cytometry is described. Because of its chemical nature, the naturally fluorescent fatty acid cis-parinaric acid is readily consumed in lipid peroxidation reactions. It could be loaded into Chinese hamster ovary cells in a time and concentration dependent manner at 37 degrees C, with 5 microM for 60' giving consistent, bright fluorescence without evidence of cytotoxicity. Examination of cells by fluorescence microscopy showed diffuse staining of surface and internal membranes. Cells were maintained at 37 degrees C while being examined in an Epics Elite flow cytometer equipped with a 325 nm HeCd laser, and parinaric acid fluorescence at 405 nm was measured over time. Addition of the oxidant tert-butyl hydroperoxide resulted in a burst of intracellular oxidation, shown by simultaneously loading the cells with dichlorofluorescein, and loss of parinaric fluorescence over time. This was followed by cell death, indicated by loss of forward light scatter and uptake of propidium iodide. Pretreatment of the cells with the antioxidant alpha-tocopherol, 200 microM, reduced the rate of loss of parinaric acid fluorescence and delayed the onset of cell death. Simultaneous biochemical determination of the lipid peroxidation breakdown product malondialdehyde confirmed a close temporal relationship with loss of parinaric acid fluorescence, both with and without alpha-tocopherol pretreatment and suggested that the flow cytometric assay for lipid peroxidation is of comparable sensitivity. The mitochondrial stain dodecyl acridine orange and the cyanine dye DiOC(6)3 were combined with cis-parinaric acid staining and could be excited by the latter using resonance energy transfer.(ABSTRACT TRUNCATED AT 250 WORDS)

Flow cytometric detection of the mitochondrial BCL-2 protein in normal and neoplastic human lymphoid cells.

Abstract: The bcl-2 proto-oncogene, rearranged and deregulated in B-cell lymphomas bearing the t(14;18) translocation, encodes an inner mitochondrial membrane protein that blocks apoptotic cell death. We have developed a sensitive immunofluorescence assay for the single- and multicolor flow cytometric analysis of bcl-2 protein in relation to other markers and cell cycle, based on a fixation-permeation step of cells with paraformaldehyde and Triton X100 and the use of a bcl-2 specific monoclonal antibody (MoAb). As an application of this method, we have examined the expression of bcl-2 in normal and neoplastic lymphoid cells. We have found that > 80% of normal Tand B-cells are bcl-2 positive; following in vitro mitogen activation, the bcl-2 reactivity decreased slightly in the former but markedly in latter cells. In both cases the bcl-2 expression was not restricted to a specific phase of the cell cycle, as evidenced by two-color analysis. On lymphoblastoid cell lines, the bcl-2 staining intensity was variable and not necessarily correlated to molecular rearrangements of the bcl-2 gene. Among fresh B-cell non-Hodgkin's lymphomas (B-NHL), most sporadic Burkitt's cases were bcl-2 negative. Of four centroblastic-centrocytic cases with rearrangements of the bcl-2 gene, only two presented elevated amounts of bcl-2 protein, indicating that the levels of bcl-2 are not diagnostic of the translocation. The flow cytometric analysis of bcl-2 protein allows study and quantification, as the single cell level and in selected cell subsets, of the expression of the bcl-2 gene and provides an important tool for assessing its role in hematopoietic cell development, proliferation, and neoplastic conversion.

Fixation of mammalian cells for flow cytometric evaluation of DNA content and nuclear immunofluorescence.

Abstract: Mammalian tissue culture cells were fixed with 3 different alcoholic fixatives--acetone:methanol, EtOH, and MeOH. The quality of the resulting DNA histograms was evaluated by comparison of CV, G1/G2 ratio, G1 mode, cell aggregation, and debris formation; 81-90% MeOH (final concentration) was determined to be the optimal fixative by these criteria. A procedure was then examined using a prefix with paraformaldehyde followed by MeOH (PF/MeOH). This procedure produced cell preparations with reduced debris and aggregation, equivalent mode and ratio, but increased CV when compared with MeOH fixation. Both MeOH and PF/MeOH fixation procedures were then compared for their utility in dual staining for DNA and intracellular immunofluorescence for a nuclear protein, SV40 T antigen (Tag). Since alcohols are known to affect immunofluorescence staining of some antigens, fixation with paraformaldehyde followed by Triton X-100 permeabilization (PF/TX) was also included in this comparison to generalize the study by providing an alternative to MeOH permeabilization. The three procedures were evaluated for the quality of the sample by measuring the same descriptors of the DNA parameter as in the alcohol study. PF/TX consistently produced samples with decreased DNA CV and less debris and aggregation compared to MeOH methods. Two criteria were used to evaluate immunofluorescence--the amount of Tag measured and reproducibility. All MeOH methods were equivalently reproducible with CV's less than 3%. PF/TX was slightly less so with a CV of less than 6%. In contrast, different levels of Tag were measured for each procedure. For mouse 3T3 cells infected with a recombinant retroviral vector encoding T antigen, the level of T antigen measured after PF/MeOH was 21% greater than in MeOH fixed cells, and the level in PF/TX fixed cells was 37% less. The fraction of fluorescence specific to T antigen for these cells was 79-83% for all procedures. The lower levels measured after fixation by PF/TX were shown to be due to epitope masking. Why higher levels are measured with PF/MeOH procedures is unknown at present but may be due to antigen retention. Therefore, each of these fixation methods may be used with confidence in reliability but they are not equivalent with respect to the molecular architecture of the nucleus. It is postulated that PF/TX permeabilizes cells but cells retain native supramolecular structure, whereas MeOH based fixatives disrupt this structure and randomize availability of epitope to antibody. If so, the two procedures could be used as complementary procedures to study gene expression and function.

Flow cytometric determination of atypical antigen expression in acute leukemia for the study of minimal residual disease.

Abstract: The aim of this study was to investigate to which extent acute leukemias could be monitored for residual disease by using atypical antigen combinations as leukemia-related markers. Atypical antigenic features were determined by double color flow cytometry and included coexpression of lymphoid and myeloid related antigens, unphysiological coexpression of immature and mature antigens, and lack of an antigen that is normally expressed during maturation. Atypical immunophenotypes were detected in 35 of 68 patients with AML (51.5%) and 15 of 24 patients with ALL (62.5%). When 12 patients with leukemia-associated markers were again analyzed at relapse, the relevant antigen combinations were retained in 11 of them. The sensitivity of this two color flow cytometric assay as determined in dilution experiments was 1 in 10(3) to 10(4) cells. Follow-up studies of bone marrow samples revealed that, after induction chemotherapy cells with leukemia-associated markers were detectable in several patients at a frequency of 0.5 to 4%, but only patients in whom the cells with atypical antigens never disappeared suffered from relapse. In contrast, patients who became negative for the atypical cells remained in complete remission (median remission duration after the first negative bone marrow assessment by flow cytometry 52 weeks, range 20-102). We conclude that atypical antigen combinations, which are present in a meaningful number of acute leukemias, are a valuable means of monitoring acute leukemia patients during follow-up. This flow cytometric approach can complement other strategies to get a more accurate definition of remission in acute leukemia.

Flow-cytometric enumeration of micronucleated polychromatic erythrocytes in mouse peripheral blood.

Abstract: A flow-cytometric assay is described that can be used to determine the frequency and the DNA content of mirronucleated polychromatic (PCE) and normochromatic (NCE) erythrocytes in mouse peripheral blood. Thiazole orange was used for discrimination between PCEs and NCEs, while Hoechst 33342 was used to detect micronucleated PCEs and NCEs. Up to 70,000 polychromatic erythrocytes can be analyzed in less than 10 min. This corresponds to 150–3,000 micronucleated polychromatic erythrocytes, 90–95% of which are true events as determined with a fluorescence microscope after sorting. Using X-rays as the inducing agent in dose-response experiments, a significant increase can be registered at doses of 0. 02 Gy. It seems possible that the method will also allow the detection of clastogenic effects of other inducing agents at lower doses than previously possible. © 1992 Wiley-Liss, Inc.

Preparation and microscopic visualization of multicolor luminescent immunophosphors.

Abstract: The preparation of charge-stabilized suspensions of small phosphor particles (0.1-0.3 micron) and their coupling with antibodies to immunoreactive conjugates is described. Phosphor particles consisting of yttriumoxisulfide activated with europium served as a model system in the evaluation of the stabilizing properties of several polycarboxylic acids. The optimal reagents were then applied to other phosphors which differ in spectral characteristics as well as in luminescence lifetime. These phosphors were ground to a size of 0.1-0.3 micron and proteins or other macromolecules were adsorbed to the phosphor particles to prepare conjugates of different physico-chemical properties. A time-resolved microscope, suitable for real time visualization of the time-delayed luminescence of the immunophosphors by the human eye, is described in detail. Since most phosphors require excitation with far UV light, a special fluorescence microscope allowing far UV excitation was developed for conventional visualization of the luminescence emitted by the phosphor. The possibility of multiple color labeling using various phosphor conjugates was demonstrated in a model system consisting of haptenized latex beads.

Detection of granulocyte reactive oxygen species formation in whole blood using flow cytometry

Abstract: We have developed a technique for analysis of granulocyte reactive oxygen species formation in whole blood using flow cytometry and two color immunofluorescence. This technique relies upon the use of specific fluorescent dye (LDS-751) to stain nucleated cells, eliminating erythrocytes from analysis. Using LDS-751, forward angle light scatter, and 90 degrees side scatter, a granulocyte gate, monocyte gate, and lymphocyte gate were identified. Analysis with multiple FITC conjugated monoclonal antibodies demonstrated greater than 95% purity of a flow cytometrically identified granulocyte population in whole blood without physical manipulation of the blood. Utilizing 2'7' dichlorofluorescein diacetate (DCFH-DA), we were able to measure granulocyte intracellular reactive oxygen species production. Dose response curves were obtained for the effect of granulocyte agonists phorbol myristate acetate, FMLP, and heat fixed Staphylococcus aureus on reactive oxygen species production. The techniques described in this paper should be useful for measuring granulocyte activation in vivo with flow cytometry.

Cell cycle analysis of asynchronous cell populations by flow cytometry using bromodeoxyuridine label and Hoechst-propidium iodide stain.

Abstract: Continuous labelling of cells with deoxybromouridine (BrdUrd) followed by staining with a bis-benzimidazole (Hoechst 33258) and a phenanthridinium (propidium iodide or ethidium bromide) allows the cells to be separated by flow cytometry according to the extent of their DNA replication. This BrdUrd-Hoechst/PI method has been used mainly to observe perturbations of the cell cycle in synchronously growing cells. In this paper we demonstrate that, when the method is applied to asynchronously dividing cells, more extensive information can be derived about the effects of cytotoxic and other treatments on the kinetics of the cell cycle. The interpretation of the data is explained, the effects of different types of cytotoxic agent are described, and the method is compared briefly to other methods for following cell cycle kinetics.

Noise, sensitivity, and resolution of flow cytometers.

Abstract: The sensitivity and resolution of flow cytometers are functions of the signal produced by a given particle as well as by the noise in the presence of which the signal is detected. The noise is primarily due to the fact that emission of light as well as its detection by photoelectric devises are stochastic processes. This fact leads to equations describing how resolution and sensitivity are limited by the magnitude of the signal, the background, and the photoelectron quantum yield of the detector. The equations are pointing to a method by which the signal and noise of a flow cytometer can be measured in absolute terms, as well as a way to determine fluorescence sensitivity without having to extrapolate to the noise level. The equations appear to be validated when applied to measuring data obtained with two different flow cytometers.

Analyzing multivariate flow cytometric data in aquatic sciences.

Abstract: Flow cytometry has recently been introduced in aquatic ecology. Its unique feature is to measure several optical characteristics simultaneously on a large number of cells. Until now, these data have generally been analyzed in simple ways, e.g., frequency histograms and bivariate scatter diagrams, so that the multivariate potential of the data has not been fully exploited. This paper presents a way of answering ecologically meaningful questions, using the multivariate characteristics of the data. In order to do so, the multivariate data are reduced to a small number of classes by clustering, which reduces the data to a categorical variable. Multivariate pairwise comparisons can then be performed among samples using these new data vectors. The test case presented in the paper forms a time series of observations from which the new method enables us to study on the temporal evolution of cell types.

Flow cytometric analysis of whole blood lysis, three anticoagulants, and five cell preparations.

Abstract: We studied the effects of anticoagulants and cell preparation methods on lymphocyte forward-angle scatter (FSC), autofluorescence, and immunofluorescent staining for CD45, CD14, and CD13. Blood samples collected in ethylenediaminetetracetic acid (EDTA), heparin, and acid citrate dextrose (ACD) were processed by using conventional Hypaque-Ficoll (HF) separation and four whole blood (WB) lysis techniques: Immuno-lyse, Q-Prep, FACS Lyse, and Gen Trak Lysis. Lymphocytes prepared by using three of the four whole blood methods gave FCS values comparable to those isolated by HF, while one method (FACS Lyse) gave consistently lower values. Autofluorescence values were comparable by all methods except Immuno-lyse, which showed consistently higher values in blood stored for 24 h with any anticoagulant. Immunofluorescent values for CD45-stained cells were quite consistent across all methods, and among the whole blood methods, FACS Lyse and Q-Prep uniformly gave the highest purity of CD45-positive cells in the lymphocyte light scatter gates. Additionally, propidium iodide (PI) analyses of CD45-stained whole blood, and analyzed without lysis, confirmed that ACD and heparin were superior to EDTA for maintaining viable leucocytes overnight. Future studies should focus on other commonly used reagents, a wide variety of abnormal samples, and cell viability.

Expression of proliferation associated antigens in the cell cycle of synchronized mammalian cells

Abstract: Flow cytometric bivariate analysis was used to investigate the expression of PCNA, p120 and p145 during the cell cycle of a mammalian cell line (CHO-K1) Initially, aliquots of cells in exponential and plateau (G0) phase were analyzed for proliferation associated antigen expression Expression of PCNA and p145 during G0 was markedly depressed (less than 12% positive) while 54% of the G0 cells stained positive for p120 The fluorescent intensity (mean channel fluorescence) of these G0 positive p120 cells, however, was only slightly above the mean channel fluorescence (MCF) of cells stained with a negative isotype control In asynchronous cultures, all three antigens were expressed in greater than 70% of the cells, with PCNA staining being greater than 95% Cells were then synchronized using mitotic selection (mitotic index of 97%) and antigen levels were measured as cells progressed synchronously through the cell cycle From DNA analysis histograms, it appeared that the degree of synchrony was approximately 90% throughout the remainder of the cell cycle The bivariate DNA/PCNA, DNA/p120, and DNA/p145 histograms for mitotic cells indicated that both p120 and p145 expression were elevated (percent positive and MCF) while PCNA levels were near controls (MCF) In early G1, all three markers were depressed (less than 12% positive); however PCNA levels rose precipitously in mid-G1 (greater than 50% positive) In late G1 to early S, p145 levels increased concomitantly with increases in p120 All three antigens were elevated throughout S phase and began to decline as cells moved from G2/M to G1 of the next cell cycle with p145 expression decreasing first This report indicates that all three proliferation associated antigens studied are differentially expressed in the cell cycle and therefore may be useful in detecting and assessing the proliferation state

NADH-dependent dehydrogenase activity estimation by flow cytometric analysis of 3-(4,5-dimethylthiazolyl-2-yl)-2,5-diphenyltetrazolium bromide (MTT) reduction.

Abstract: MTT reduction is usually analysed by colorimetric assay to study mitochondrial dehydrogenase activity as a test of cytotoxicity. This enzymatic reaction produces dark-blue granules of formazan, which increase cell refringency. In this work, we define the conditions for MTT use in quantitative flow cytometric analysis. MTT reduction provides a non-fluorescent dye usable by this technique to study an intracellular NADH-dependent dehydrogenase activity in vital cells. We observe that formazan production increases asymptotically with cell concentration and that this temperature-dependent Michaelis enzymatic reduction is produced essentially by mitochondrial dehydrogenases. In isolated mitochondria from rat hepatocytes and in whole L1210 murine leukemia cells, the Michaelis constants (KM) observed in the presence of respiratory substrates were, respectively, 10 microM and 500 microM. The inhibition of mitochondrial protein synthesis by chloramphenicol, which induces a rise of MTT reduction due to the correlative stimulation of glycolysis (Pasteur effect), is a limit of the MTT assay as a cytotoxicity test.

Comparison of flow cytometry and epifluorescence microscopy for counting bacteria in aquatic ecosystems.

Abstract: Flow cytometry was used to count bacterial cells from diverse origins: one strain of E. coli, one sample of lake water, and 18 samples of estuary water. To verify the accuracy and the precision of this technique, total bacteria counts made by flow cytometry were compared with counts by direct observation using epifluorescence microscopy. The results of this study showed that flow cytometry was a reliable technique for counting a mixture of bacteria in samples from aquatic ecosystems.

HOME : highly optimized microscope environment

Abstract: The Highly Optimized Microscope Environment (HOME) is a computerized microscope designed to assist pathologists and cytotechnicians in clinical routine tasks. The prototype system consists of a IBM-PC compatible computer and a light microscope in which a built-in highresolution computer display image is superimposed on the optical image of the specimen. Also, a manually operated encoding stage and objective turret encoder are used to provide continuous monitoring of the stage coordinates and microscope magnification to the computer. This allows any position on a slide to be uniquely defined and makes it possible to measure interactively lengths and areas larger than the size of the microscope field. Software, written in the C language and operating under the MS-DOS/MS-Windows environment, is controlled by means of a mouse-driven cursor moving over menu light-buttons displayed on the microscope image. The HOME microscope workstation is potentially useful in a wide range of applications such as (i) tagging information on particular cells and tissue structures that can thus be accurately located and relocated, (ii) performing morphometric measurement, differential counting, and stereological assessment of biological specimens, and (iii) training and educating laboratory personnel. Finally, HOME will offer in the near future a userfriendly interface for automatic image processing of cells and tissue entities in interactively selected specimen areas.

Photo-bleaching and photon saturation in flow cytometry.

Abstract: In flow cytometry, small particles travel at a high speed through a bright light spot. The high light intensity at the point of measurement causes measurable photon saturation. This observation indicates that the rate at which individual dye molecules emit photons is close to the maximum emission rate. Despite the short exposure time, individual molecules may go through a few hundred excitation cycles while they are in the light beam. The absorbed light dose causes significant dye destruction. This article presents experimental procedures to determine the extent of photon saturation and photo-bleaching of dyes bound to cell nuclei in a flow cytometer. Measurements of Hoechst and propidium iodide bound to chromatin show that the amount of dye bleached per emitted photon is the same at low and high illumination intensities. This finding indicates that photon emission and dye destruction are both the result of the absorption of single excitation photons. The experimental observations allow rough estimates of the lifetime of the excited state and the lifetime of the molecule. The lifetime of the Hoechst 33258 bound to DNA is estimated to be 100 excitation-relaxation cycles. The average propidium iodide molecule lasts ∼ 200 excitation-relaxation cycles. The theoretical considerations show that the optimal illumination conditions are different for bleaching and nonbleaching dyes. Aoa optical arrangement for high precision measurements of bleaching dyes is presented. Published 1992 by Wiley-Liss, Inc.

Automated image detection and segmentation in blood smears

Abstract: A simple technique which automatically detects and then segments nucleated cells in Wright's giemsa-stained blood smears is presented. Our method differs from others in 1) the simplicity of our algorithms; 2) inclusion of touching (as well as nontouching) cells; and 3) use of these algorithms to segment as well as to detect nucleated cells employing conventionally prepared smears. Our method involves: 1) acquisition of spectral images; 2) preprocessing the acquired images; 3) detection of single and touching cells in the scene; 4) segmentation of the cells into nuclear and cytoplasmic regions; and 5) postprocessing of the segmented regions. The first two steps of this algorithm are employed to obtain high-quality images, to remove random noise, and to correct aberration and shading effects. Spectral information of the image is used in step 3 to segment the nucleated cells from the rest of the scene. Using the initial cell masks, nucleated cells which are just touching are detected and separated. Simple features are then extracted and conditions applied such that single nucleated cells are finally selected. In step 4, the intensity variations of the cells are then used to segment the nucleus from the cytoplasm. The success rate in segmenting the nucleated cells is between 81 and 93%. The major errors in segmentation of the nucleus and the cytoplasm in the recognized nucleated cells are 3.5% and 2.2%, respectively.

Differences between platelet and microparticle glycoprotein IIb/IIIa.

Abstract: Glycoprotein (GP) IIb and IIIa are major constituents of the platelet membrane which are involved in forming the fibrinogen receptor on activated platelets. We used flow cytometry to study the effects of ethylene-diamine tetraacetic acid (EDTA) on the membrane GPIIb/IIIa complexes of platelets and microparticles, and to study the effects of cations on dissociated GP complexes. Microparticles were detected by both the volume signal and by fluorescence using an FITC-conjugated anti-GPIb antibody (NNKY5–5). When platelets were stimulated with ADP, calcium ionophore A23187, or thrombin, fibrinogen binding to the platelet surface increased markedly. However, fibrinogen binding to microparticles showed little increase in response to such agonists. Microparticle GPIIb/IIIa complexes were dissociated by incubation with EFTA at 37°C but did not reassociate after treatment with divalent cations (Ca2+, Mg2+, and Mn2+) in contrast to platelet GPIIb/IIIa complexes. These results suggest that some interaction of GPIIb/IIIa and linked structures like the platelet cytoskeleton may be involved in the reassociation of dissociated GPIIb and GPIIIa, perhaps explaining the failure of reassociation of microparticle GPIIb/IIIa (i.e., the fibrinogen binding to microparticles). © 1992 Wiley-Liss, Inc.

Swine chromosomal DNA quantification by bivariate flow karyotyping and karyotype interpretation.

Abstract: Human and swine chromosomes were analyzed separately and as a mix to obtain bivariate flow karyotypes. They were normalized to each other in order to use the human chromosomal DNA content as standard. Our results led to the characterization of the “DNA line” in swine identical to the human “DNA line.” Estimation of the DNA content in megabase pairs of the swine chromosomes is proposed. Chromosomal assignment to the various resolved peaks on the bivariate swine flow karyotype is suggested from the relation between DNA content quantified by flow cytometry and chromosomal size. Swine chromosomes 1, 13, 6, 5, 10, 16, 11, 18, and Y were assigned to peaks A, B, C, K, L, N, O, Q, and Y, respectively. Peaks D anal E were assumed to contain chromosomes 2 and 14, but without specific assignment. Similarly, P and M peaks were expected to correspond to chromosomes 12 and 17. Of the remaining chromosomes (3, 7, X, 8, 15, 9, and 4), chromosomes 3, 7, and X, which were assigned previously to peaks F, G, and H, respectively, led us to deduce that chromosomes 15 and 8 belonged to peaks I and J, and chromosomes 9, 4, and X to peak H. © 1992 Wiley-Liss, Inc.

In vivo measure of average bacterial cell size from a polarized light scattering function.

Abstract: A particular combination of elements of the Mueller matrix for scattering of polarized light given by (S34 + S14)/(S11 + S13) identical to (S34/S11)++ is measured vs angle at a wavelength of 633 nm for randomly oriented suspensions of several species of bacteria in different stages of growth. (This combination of elements is dominated in the present measurements by the behavior of the normalized S34 matrix element, as is indicated by the notation defined on the right side of the equation.) The resulting graph in each case shows an oscillating function of angle. This function is compressed toward smaller angles when the bacteria are in the exponential phase of growth in comparison with results for a suspension of the same bacteria in the stationary (starving-smaller cells) phase of growth. Microscopic measurements were made to determine, for each case, the average dimensions of the bacterial population. Graphs were then plotted of the peak positions from the Mueller matrix function plots vs either cell length or cell diameter. The function was shown to be strongly correlated with cell diameter under the conditions of this experiment and poorly correlated with cell length. The measurements were shown to have a sensitivity to changes in average diameter of about 20 nm.

Flow cytometric analysis of proliferation associated nuclear antigens using washless staining of unfixed cells

Abstract: The expression of different proliferation associated nuclear antigens was analyzed using a washless double-staining method and flow cytometry. It is a simple and rapid two-step procedure which can be performed on love cell numbers. A series of hematopoietic cell lines and fresh lymphoma cells were tested axed the methodology was found to be applicable to a number of nuclear antigens (PCNA, Ki-67, p105, MPM-2, fibrillarin). For PCNA, the detectability was dependent on the type of antibody used. The immunofluorescence pattern observed by microscopy was altered for antigens stained by the washless technique in comparison with the pattern obtained with fixed cells. With the washless method, detailed cell cycle analysis could be obtained by dual parameter analysis of PCNA and Ki-67.