Histochemical study on the maturation of human megakaryocytes using microfluorometry

Summary A microcytofluorometrical DNA measurement was basically studied and was applied to single megakaryocytes previously identified on a Wright-Giemsa stained smear. The smear was first photographed and the location of each megakaryocyte was recorded on a cell map. The smear was then bleached with 50% acid ethanol and absolute methanol, and re-stained with 4,6-diamidino-2-phenylindole (DAPI) reagent (pH 7.4) at 4° C. Nuclear blue fluorescence was observed and the intensity of this fluorescence was proportional to the amount of DNA with the coefficient of variation (CV) of 3.6% when stained for 30 min. After 30 min DAPI staining, the DNA measurement was microcytofluorometrically performed in single megakaryocytes which had been morphologically classified into 4 groups on the basis of cytoplasmic maturation, Bessis' classification, assessed on Wright-Giemsa-stained bone-marrow smears from normal human beings. The histograms of the cells did not show any difference in DNA ploidy distribution among the classes: that is, the DNA histograms disclosed ploidy distribution from 4 N to 64 N with the largest population of 16 N. These findings suggest that nuclear DNA synthesis is completed before platelet production starts. This method is useful for comparing the morphological features and DNA content of single megakaryocytes.     

Comparison of the DNA content of megakaryocytes identified immunologically with that identified morphologically

 We devised a new microfluorometric method for determining the ploidy of megakaryocytes identified immunologically in bone marrow smears. The smears were immunostained by incubation with mouse monoclonal anti-glycoproteins (GP) IIb antibodies, followed by fluorescein isothiocyanate-conjugated goat anti-mouse IgG antibodies. They were then stained with 4′,6-diamidino-2-phenylindole (DAPI). Megakaryocytes were identified by their GPIIb immunofluorescence using a microfluorometer and, after the filters were changed, their DNA content was assayed by measuring the intensity of DAPI fluorescence. This intensity was shown to be proportional to the DNA content when the aperture of the objective lens was reduced. We compared these results with those obtained when megakaryocytes were identified morphologically, using DAPI staining after Wright-Giemsa destaining. In all 12 normal controls, the ploidy peaks were shown to be 16N by both methods, and the mean ploidy detected by the immunological method was only reduced 0.961 times relative to the estimate from the morphological method. In contrast, in eight myelodysplastic syndrome (MDS) patients, the ploidy peaks were either 8N or 4N and the mean was reduced by 0.906 times (P=0.018). Thus we could immunologically identify small megakaryocytes which we could not identify morphologically. Therefore, this method is useful for measuring megakaryocytic ploidy, especially in the pathological megakaryocytes of MDS patients. Accepted: 29 April 1997     

NASA/American Cancer Society High-Resolution Flow Cytometry Project - II. Effect of pH and DAPI concentration on dual parametric analysis of DNA/DAPI fluorescence and electronic nuclear volume

BACKGROUND: In the present paper, we describe the effect of 4', 6-diamidino-2-phenylindole (DAPI) dihydrochloride concentration and pH on the resolution of DNA distribution histograms generated by dual-parametric simultaneous analysis of DNA content and electronic nuclear volume (ENV). METHODS: Nuclei from tissue culture cell lines and frozen human solid tumors were isolated in nuclear isolation media containing different concentrations of DAPI, at various pH levels, and analyzed on a NASA/American Cancer Society (ACS) flow cytometer. Samples stained with propidium iodide/hypotonic citrate and analyzed in a Coulter XL flow cytometer were used for comparison. RESULTS: Nuclei stained with DAPI concentration of 1-3 microg/ml, pH 6.0, gave the best resolution for the detection of the near-diploid and near-tetraploid populations. Simultaneous use of ENV and DAPI/DNA fluorescence under these conditions identified subpopulations that otherwise could not be detected by DNA analysis alone. CONCLUSIONS: Staining at 1-3 microg/ml DAPI, pH 6.0, was optimal for the detection of aneuploid populations, especially the near-diploid and/or near-tetraploid populations in human tumors.     

Correlation of grade of urothelial cell carcinomas and DNA histogram features assessed by flow cytometry and automated image cytometry.

OBJECTIVE: To analyse how DNA ploidy and S-phase fraction (SPF) by flow cytometry (FCM) and an optimised fully automatic DNA image cytometer (ICM) correlate with grade in TaT1 urothelial cell carcinomas (UC) of the urinary bladder. MATERIALS AND METHODS: Two-hundred-and twenty-eight consensus cases were analysed. Single cell suspensions were stained (DAPI for FCM, Feulgen for ICM). There was enough material for both FCM and ICM in 202 of these cases. FCM and optimised ICM measurements were performed on the 202 UCs. To discriminate between different grades, single- and multivariate analyses was performed on DNA histogram features obtained with the MultiCycle program (using DNA index (DI) and SPF). RESULTS: Overall measurement time of the adapted ICM method was 10.7 minutes per case (range 5.9-29.8 min.) and required little additional interactive object rejection (average 152 objects (84-298) on 3000 objects per case measured, which took 9.9 minutes on average, range 8.3-15.5 minutes). The ICM histograms looked much "cleaner" with less noise than the FCM graphs. The coefficient of variation (CV) of the diploid peak for ICM (5.4%) was significantly lower than for FCM (5.9%) (p<0.0001). ICM features were more strongly correlated to grade than FCM features. In multivariate analysis, the best discriminating set of features was DNA ploidy and SPF (both by ICM). CONCLUSIONS: The adapted fully automated DNA ICM works very well for UCs. Low CV DNA ICM histograms are obtained in a time comparable to FCM. The DNA ICM results have stronger discriminative power than DNA FCM for grade in TaT1 UCs.     

A rapid single step staining technique for DNA analysis by flow microfluorimetry

A new procedure is reported for the staining of DNA, for flow microfluorimetry. It allows the production of stained cell nuclei in a single step by incorporating the DNA stain with a solution of the nonionic detergent Triton-X-100. This method has been found to be applicable to all DNA fluorochromes tested (ethidium bromide, propidium iodide, mithramycin, DAPI, Hoechst 33342). DNA histograms obtained in this way are comparable to those using conventional staining techniques, e.g., ethanol fixation followed by staining. Using this procedure the DNA content distribution of solid tissue or cells from suspension or monolayer cultures can be generated in less than 5 min.     

"Liquidless" cell staining by dye diffusion from gels and analysis by laser scanning cytometry: potential application at microgravity conditions in space

BACKGROUND: Conventional staining of cells or tissue sections on microscope slides involves immersing the slides into solutions of dyes then rinsing to remove the unbound dye. There are instances, however, when use of stain solutions is undesirable-e.g., at microgravity conditions in space, where the possibility of accidental spill (many dyes are known carcinogens) introduces health hazard. Likewise, transporting bulk of liquid stains and rinses may be burdensome in certain situations such as field expeditions or combat. METHODS: The "liquidless" staining procedure is proposed in which the dyes are contained in thin strips of hydrated polyacrylamide or gelatin gels that have been presoaked in the stain solutions. Fluorochromes that have affinity to DNA (propidium iodide, PI; 4,6-diamidino-2-phenylindole, DAPI, Hoechst 33342) or to protein (sulforhodamine 101) were used to saturate the gels. The gel strips were placed over the prefixed cells or tissue sections deposited on microscope slides and relatively low (20 g/cm2) pressure was applied to ensure the contact. The cells were also stained by using commercially available mounting media into which DAPI or PI were admixed. Intensity of fluorescence of the PI stained cells was measured by laser scanning cytometry (LSC). RESULTS: Satisfactory cell and tissue staining, with minimal background, was achieved after 10-20 min contact between the cells and gels. Optimal concentrations of the dyes in the solutions used to presoak the gels was found to be 2-4-fold higher than the concentrations used routinely in cytometry. The measurements of intensity of cellular fluorescence by LSC revealed that the staining of DNA was stoichiometric as reflected by the characteristic cellular DNA content frequency histograms with distinct G1, S, and G2/M cell populations and 2:1 ratio of G2/M to G1 peak fluorescence. Individual gels can be saturated with more than a single dye-e.g., to obtain differential DNA and protein staining. Cell staining with DAPI or PI in the gelatin-based mounting media led to high fluorescence background while staining with DAPI in "aqueous" medium was satisfactory. CONCLUSIONS: Relatively fast staining of cells or tissue sections on microscope slides can be achieved by nonconvective dye diffusion using hydrated gels permeated with the dyes, applied to cells at low pressure. The quality of the staining provided by this methodology is comparable to conventional cell staining in dye solutions.     

Measurement of DNA content in single cells morphologically identified on smears

A method was developed for measuring the nuclear DNA content in single cells previously identified on a bone marrow smear stained by the Wright-Giemsa method. The smear was first photographed and the location of individual cells, identified by morphology, was recorded on a cell map. The smear was then bleached with 50% acid ethanol and absolute methanol, and re-stained by the Feulgen method in 0.05% pararosaniline Schiff's reagent (pH 2.3) at 7 degrees C for 10 min. Nuclear red fluorescence was observed and the intensity of this fluorescence was proportional to the amount of DNA after prior irradiation of smears with green light for 9 hr. The method is useful for measuring cell DNA content in heterogeneous cell populations when morphological cell identification is required.     

Analysis of megakaryocyte ploidy in patients with thrombocytosis

The DNA content of bone marrow megakaryocytes was analyzed in 24 patients with myeloproliferative disorders, 23 patients with secondary thrombocytosis and 15 normal volunteers using 2-color flow cytometry. Compared with normal controls, the majority of patients with secondary thrombocytosis, polycythemia vera and essential thrombocytosis exhibited a relative increase in higher ploidy (greater than 16N) cells. In contrast, patients with chronic myelogenous leukemia exhibited an increase in lower ploidy cells (less than 16N), with a modal DNA content of 8N. Patients with myeloproliferative disorders tended to show a decrease in the 16N megakaryocyte population compared with patients with secondary thrombocytosis. No correlation between ploidy distribution and platelet count was observed.     

Cytofluorometric Determination of Nuclear DNA in Living and Preserved Algae

Three DNA-localizing fluorochromes used in conjunction with epi (incident) UV illumination were examined for sensitivity and selectivity for the cytofluorometric determination of nuclear DNA in ten species of six algal genera: Mougeotia, Oedogonium, Sirogonium, Spirogyra and Zygnema among the green algae, and the marine red alga Polysiphonia boldii. In comparison with absorption photometry for the determination of nuclear DNA, the cytofluorometric procedure proved to be simpler and considerably more sensitive. Following staining with 4',6-diamidino-2-phenylindole (DAPI), nuclei fluoresce blue-white, the fluorescence intensity of the DNA-DAPI complex being considerably greater than that of the unbound dye molecule. Algal strains stained with 2,5-bis[4'-aminopheny](1')]-1,3,4-oxadiazole (BAO) also showed brilliant blue-white nuclear fluorescence. Although the BAO schedule requires the use of freshly prepared dye and sulfite water, and careful control of hydrolysis, nuclear fluorescence of the stained specimens does not fade under irradiation of the UV beam as rapidly as it does with certain other fluorochrome procedures. A more useful fluorochrome was the fungal antibiotic mithramycin. Its staining schedule is simple and the bright orange-yellow fluorescence of the nuclei is associated with an exceptional degree of sensitivity and specificity for DNA. Forty-eight-year-old preserved filaments of Spirogyra jatobae, stained with either BAO or mithramycin, exhibited a fluorescence brilliance of nuclear and chloroplast DNA equal to that of fresh specimens of this species. The three schedules, but particularly the one with mithramycin, have proven useful in providing indirect evidence for variation in ploidy level in several of the above algal genera, and in verifying the assumed ploidy level of the gametophyte (haploid) and tetrasporophyte (diploid) of Polysiphonia boldii     

Standardization of the post-irradiation method to eliminate primary fluorescence in cytofluorometry.

Thorough irradiation of specimen with the strong excitation light after fluorescent Feulgen staining destroys the primary fluorescence in the background with stabilization of specific fluorescence of pararosaniline (post-irradiation method). An apparatus to perform effective post-irradiation was developed and irradiation condition for DNA cytofluorometry on a pararosaniline Feulgen stained smear was standardized. After 10 h irradiation on this condition, the primary fluorescente in the background is almost completely cleared away. Proportionality between amount of fluorescence and DNA content is perfectly preserved and standard deviation in each class of ploidy becomes to be less than 5% of the mean DNA value. The standardized post-irradiation enables us to obtain reproducibly the same values of fluorescence on Feulgen stained nuclei of the same cell population in different smears even if the staining conditions in Schiff's solution might be different to some extent.     

Influence of section thickness, mean nuclear diameter and nuclear crowding on DNA ploidy in histologic sections of melanocytic skin lesions

OBJECTIVE: To determine the influence of section thickness, nuclear diameter (MND) and area percentage of nuclei (a measure of nuclear crowding) on histologic DNA ploidy assessed by image cytometry (ICM) of primary melanocytic skin neoplasms (MSNs). STUDY DESIGN: Initially a feasibility study was performed to determine if comparable DNA ploidy histograms could be obtained from cell disaggregates and tissue sections. Following this, DNA ICM was performed on Feulgen-stained tissue sections (4, 6, 8 and 10 microns thick) from 30 primary MSNs (20 benign, 10 malignant) with nuclear diameters from 5.6 to 8.6 microns. Area percentage of nuclei was assessed in all cases at all section thicknesses. RESULTS: The feasibility study produced comparable results for cytocentrifuge and tissue section preparations. For sectioned MSNs, DNA ploidy histograms from 4-micron sections had a higher coefficient of variation of the 2c peak than those from 6-, 8- and 10-micron sections. Ten-micrometer sections had marked overlapping of nuclei, and only small numbers of cells could be measured, giving inadequate results. MND and area percentage of nuclei did not have an important influence on the results. CONCLUSION: Adequate DNA ploidy profiles can be obtained by DNA ICM on 6- and 8-micron-thick histologic sections of MSNs, provided that a strict measurement protocol is followed.     

Standardization of the post-irradiation method to eliminate primary fluorescence in cytofluorometry

Summary Thorough irradiation of specimen with the strong excitation light after fluorescent Feulgen staining destroys the primary fluorescence in the background with stabilization of specific fluorescence of pararosaniline (post-irradiation method).An apparatus to perform effective post-irradiation was developed and irradiation condition for DNA cytofluorometry on a pararosaniline Feulgen stained smear was standardized. After 10 h irradiation on this condition, the primary fluorescence in the background is almost completely cleared away. Proportionality between amount of fluorescence and DNA content is perfectly preserved and standard deviation in each class of ploidy becomes to be less than 5% of the mean DNA value.The standardized post-irradiation enables us to obtain reproducibly the same values of fluorescence on Feulgen stained nuclei of the same cell population in different smears even if the staining conditions in Schiff's solution might be different to some extent.Partly supported by Alexander von Humboldt-Stiftung     

The effect of chemical radiation protectors on cell cycle progression after gamma or neutron irradiation

Abstract. The effects of two chemical radiation protectors, WR-1065 and WR-151326, were characterized in V79 Chinese hamster cells after either cobalt-60 (⁶⁰Co) gamma or fission spectrum neutron irradiation. Each protector was administered at a concentration of 4 mM to exponentially growing cultures for 30 min prior to and during irradiation with either ⁶⁰Co gamma or JANUS fission spectrum neutrons. After irradiation the cells were either plated immediately for survival or returned to the incubator and assayed for cell progression. Aliquots of cells were removed at selected times, counted, fixed and stained with 4'6-diamidino-2-phenylindole (DAPI). Analysis of DNA histograms indicate that the presence of the protector during irradiation reduced the division delay experienced at the G₂-M interface. Implications of these effects are discussed.     

Violet laser diodes as light sources for cytometry

BACKGROUND: Violet laser diodes have recently become commercially available. These devices emit 5-25 mW in the range of 395-415 nm, and are available in systems that incorporate the diodes with collimating optics and regulated power supplies in housing incorporating thermoelectric coolers, which are necessary to maintain stable output. Such systems now cost several thousand dollars, but are expected to drop substantially in price. Materials and Methods A 4-mW, 397-nm violet diode system was used in a laboratory-built flow cytometer to excite fluorescence of DAPI and Hoechst dyes in permeabilized and intact cells. Forward and orthogonal light scattering were also measured. RESULTS: DNA content histograms with good precision (G(0)/G(1) coefficient of variation 1.7%) were obtained with DAPI staining; precision was lower using Hoechst 33342. Hoechst 34580, with an excitation maximum nearer 400 nm, yielded the highest fluorescence intensity, but appeared to decompose after a short time in solution. Scatter signals exhibited relatively broad distributions. CONCLUSIONS: Violet laser diodes are relatively inexpensive, compact, efficient, and quiet light sources for DNA fluorescence measurement using DAPI and Hoechst dyes; they can also excite several other fluorescent probes.     

Effects of denaturation with HCl on the immunological staining of bromodeoxyuridine incorporated into DNA

Immunochemical procedures for detection of BrdUrd incorporated into DNA require a denaturation step of DNA. Denaturation with HCl is widely used for flow cytometric analysis of the cell cycle and for histological preparations. This brief communication describes an attempt to standardize a denaturation procedure with HCl. Various denaturation conditions at 20 degrees C were examined for human promyelocytic leukemia cells (HL-60 cells) fixed in ethanol. After denaturation of DNA, the cells were stained by an indirect immunofluorescence method using a commercially available monoclonal anti-BrdUrd antibody or by propidium iodide. The relative fluorescence intensities of stained BrdUrd and double-stranded DNA were altered reciprocally by changing HCl concentration and/or denaturation time. Treatment with 4N HCl for 10-20 min at 20 degrees C allowed denaturation of more than 80% of DNA and the maximum BrdUrd-linked immunofluorescence. Under this condition, the coefficient of variation of the DNA histograms remained relatively small.     

Comparison of DNA ploidy and nuclear size, shape and chromatin irregularity in tissue sections and smears of prostatic carcinoma

Image analysis measurements of nuclear size, shape, texture and DNA ploidy were compared in smears versus the corresponding 4-microns tissue sections, both prepared from radical prostatectomy specimens obtained from resections for prostatic cancer. Thirty-nine cases (78%) showed concordant DNA histograms between the smear and the tissue section. In six cases (12%), both preparations were nondiploid, but a tetraploid population was also present in one, but not both, of the preparations. In five cases (10%), there was a major discordance between the smear and the tissue section, with one preparation diploid and the other nondiploid. One source of discrepancy between the smear and tissue histograms was the overlapping of larger nuclei in tissue sections, which often precluded the analysis of the most atypical cells. Some tissue histograms were difficult to interpret due to wide coefficients of variation, irregular peaks and some shift from 2n in the diploid peaks. The best morphometric correlation (0.78) between the smears and the tissue sections was for the modal nuclear shape. Nuclear size and texture measurements showed poorer correlations. These findings suggest that cytologic preparations of prostatic carcinoma should be preferred for image analysis.     

Direct measurement of femtogram amounts of DNA in cells and chloroplasts by quantitative microspectrofluorometry

Absolute DNA amounts of individual chloroplasts were determined by measuring the fluorescence intensity of chloroplasts stained with 4',6-diamidino-2-phenylindole (DAPI) relative to that of the bacterium Pediococcus damnosus (cerevisiae) smeared on the same slide. An absolute DNA content of 7.7 X 10(15) g for a standard P. damnosus cell type was calculated by comparing the relative fluorescence values and frequency of each stage of cellular development in a culture to the average DNA content of all cell types determined by chemical methods. Chlorophyll was extracted from the chloroplasts during fixation so that chlorophyll autofluorescence was not present when DAPI fluorescence was measured. Absolute amounts of DNA could then be determined for single chloroplasts, either within cells that were individually selected from a mixed cell population or in small preparations of isolated chloroplasts. The DNA amounts of chloroplasts from mesophyll cells determined in this way were similar to the values previously determined by bulk averaging methods. Chloroplast DNA amounts from different cell types of the leaf could be measured by microspectrofluorometry, and it was found that chloroplasts from spinach epidermal cells contained about half as much DNA as chloroplasts from adjacent mesophyll cells.     

Flow cytometric bivariate analysis of DNA and cytokeratin in colorectal cancer.

Different opinions about flow cytometric estimates of DNA aneuploidy and/or S-phase fraction (SPF) as supplementary prognostic markers in colorectal cancer are to some degree associated with methodology. Using univariate DNA analysis, we have previously investigated the DNA ploidy in colorectal cancer, its heterogeneity within and between tumors and its relation to survival. To improve detection of DNA aneuploid subpopulations and particularly estimation of their SPF's we investigated a method for bivariate DNA/cytokeratin analysis on fine-needle aspirates of 728 frozen biopsies from 157 colorectal tumors. Unfixed aspirates were stained with propidium iodide and FITC-conjugated anti-cytokeratin antibody in a saponin-buffer. A significant association between SPF and debris was observed. There were no substantial difference in DNA ploidy patterns between univariate and bivariate measurements (concordance was 92-95%). No new DNA aneuploid subpopulations were detected in cytokeratin-gated compared to ungated or univariate histograms. Debris-adjusted SPF's of cytokeratin-gated histograms were significantly higher than of ungated histograms, also for subpopulations with DI>1.4 (p<0.0001). There was no significant association between SPF and survival.     

Intercellular adhesion in butyrate-treated HeLa S3 cultures : Flow cytometric analysis

The application of DNA flow cytometry (FCM) for analysis of sodium butyrate-induced intercellular adhesion in human carcinoma (HeLa S3) cell cultures is described. To prepare cell suspensions for FCM, the monolayers of cells were treated with medium containing 10% serum, 0.2% non-ionic detergent Triton X-100 and 1 μg/ml DNA fluorochrome 4,6′-diamidino-2-phenylindole (DAPI). Total numbers of single cells, and aggregates containing two, three, four or more cells, were determined from DNA histograms. In cultures treated with 5 mM butyrate for 16 h, more than 80% of the cells were aggregated. Intercellular adhesion began to appear 8 h after addition of butyrate, was maximal at 16–24 h and stable in the presence of butyrate, but disappeared 24 h after its removal. Treatment with EDTA (0.2%) dissociated only 50%, whereas trypsin (0.1%) separated all cell aggregates into single cells. Actinomycin D (actD) (0.5 μg/ml) prevented cell adhesion while blocking of cells in S phase with 250 μM 5-fluorouracil or 10 μM methotrexate did not interfere with aggregation. The number of cell aggregates estimated from DNA histograms of butyrate-treated HeLa S3 cultures was the same after staining with DAPI in the presence of Triton X-100 or after vital staining with Hoechst 33342. The DNA content was used as a marker to estimate the cellular composition of aggregates in mixed cultures of HeLa S3 cells and human fibroblasts (U cells). Intercellular adhesion in these cultures was seen only between HeLa S3 cells, indicating specificity of butyrate-induced cell aggregation. FCM provides fast automatic measurement of cell aggregate formation, estimates frequency of aggregates containing different cell numbers, shows participation of cells at different cycle phases in aggregates, and allows the detection of homotypic from heterotypic cell aggregates if the interacting cells have different DNA ploidy.     

Hematoporphyrin/DAPI staining: simplified simultaneous one-step staining of DNA and cell protein and trial application in automated cytological screening by flow cytometry

We describe a procedure for simplified, simultaneous one-step staining in 10 min for DNA and cell and tissue proteins using a newly developed staining solution containing 0.03% hematoporphyrin (HP) with 0.001% DAPI [or with Hoeschst 33342 (HO)]. These HP/DAPI or HP/HO solutions were especially developed to facilitate a trial of automated cancer cell screening on sputum samples using flow cytometry. Under UV light (365 nm) with fluorescence microscopy, HP/DAPI-stained cells showed red fluorescence (max. 670 nm) of cytoplasm and simultaneous blue fluorescence (max. 470 nm) of nuclei. The distance between the maximum peak of fluorescence spectra of DNA and that of protein was as large as 200 nm, and there was no detectable overlapping of each spectrum at the photometric filter range, which provided accurate measurement of DNA and protein. On flow cytometry, a single UV beam (370 nm) from the argon laser was used for excitation of both dyes. Measurement of DNA was done using a 470-nm bandpass filter and of protein using a 640-nm longpass (or 670-nm bandpass) filter. Reflecting the undetectable overlapping of the fluorescence spectra of protein and DNA, normal diploid cells in sputum revealed horizontal distributions along the 2C level on the dot-plot display of flow cytometry, which made sorting of abnormal hyperdiploid cells and cancer cells easier.