Detection of cell cycle subcompartments by flow cytometric estimation of DNA-RNA content in combination with dual-color immunofluorescence

BACKGROUND: Correlated flow cytometric measurements of phenotype and DNA-RNA content offer detailed information on cell cycle status of subpopulations in heterogeneous cell preparations in response to stimulation. We have developed a method for flow cytometric analysis of DNA-RNA content that has been optimized for simultaneous measurement of dual-color immunofluorescence. METHODS: Nucleic acid staining was performed at low pH in the presence of saponin. DNA was stained with 7-aminoactinomycin D (7-AAD) and RNA with pyronin Y(G) (PY); both dyes were used at low concentrations, and 7-AAD was exchanged with nonfluorescent actinomycin D after DNA staining to minimize fluorochrome-fluorochrome interactions. For cell surface antigen staining, allophycocyanin was combined with pH-independent Alexa488 instead of fluorescein-isothiocyanate (FITC) because FITC is pH sensitive. RESULTS: This method identified cell cycle subcompartments in CEM cells comparable to published results on cell lines using other dyes and staining methods. Measurement of DNA-RNA content in CD8 lymphocyte subsets of human peripheral blood mononuclear cells costimulated with CD3/CD28.2 showed that, after 48 h of stimulation, 80% of CD8(+) T cells were in the proliferative state, whereas 86% of CD8(+) non-T cells remained in G(0). CONCLUSIONS: This technique permits the clear identification of cellular subpopulations by phenotype and assessment of their cell cycle status.     

Flow cytometric analysis of live cell proliferation and phenotype in populations with low viability.

BACKGROUND: Combined analysis of DNA content and immunofluorescence on single cells by flow cytometry provides information on the proliferative response of subpopulations to stimuli in mixed cell preparations; however, in low-viability cell preparations, dead cells interfere with accurate flow cytometric data analysis because of nonspecific binding of antibodies and altered DNA-staining profiles. Light scatter differences between nonviable and viable cells are unreliable, particularly after the cell permeabilization step that is necessary for DNA staining. We developed a method for identification of nonviable cells by fluorescence in cell preparations that are stained simultaneously for cell surface or intracellular immunofluorescence and DNA content. MATERIALS AND METHODS: Nonviable cells that have lost membrane integrity are identified by uptake of 7-amino-actinomycin D (7-AAD). Transfer of 7-AAD from stained nonviable cells to unstained viable cells after permeabilization is prevented by blocking DNA binding with nonfluorescent actinomycin D (AD). Pyronin Y(G) (PY) is used for DNA staining because the orange spectral emission of PY can be separated from the green fluorescein isothiocyanate (FITC) emission and the red emission of 7-AAD, respectively. RESULTS: Application of the method to the analysis of the T-cell leukemia cell line Molt-4f and of cultured human peripheral blood mononuclear cells is presented. In both cell preparations, 7-AAD staining permitted reliable dead cell exclusion. Live, 7-AAD-negative Molt-4f cells showed higher expression levels of cell surface CD4 and of intracellular CD3, showed a higher proportion of cells in the G1 phase of the cell cycle, and showed a lower coefficient of variation of the G1 peak compared with data obtained from all the cells in the preparation. Live, CD8+ lymphocytes from OKT3-stimulated cultures of human peripheral blood mononuclear cells showed a specific proliferative response as measured by DNA content analysis. CONCLUSIONS: The results show that cells stained with FITC-labeled antibodies can be analyzed by single-laser flow cytometry for DNA content combined with dead cell discrimination. Furthermore, they emphasize the need for exclusion of dead cells from the analysis of cell preparations with low viability to obtain reliable data on immunofluorescence and cell-cycle distributions.     

Immunohistochemical Double Staining with Immunogold-Silver and Alkaline Phosphatase to Identify Nuclear Markers of Cellular Proliferation

To facilitate cell kinetics studies of brain tumors labeled with thymidine analogs, we developed a new method to identify nuclei labeled sequentially with bromodeoxyuridine (BUdR) and iododeoxyuridine (IUdR) by double staining with immunogold-silver and alkaline phosphatase. Patients received an intraoperative infusion of BUdR: excised tumor specimens were immediately labeled with IUdR in vitro. fixed with 70% alcohol, embedded in paraffin, and cut into 6 pm sections. The sections were incubated first with BR-3. a monoclonal antibody that recognizes only BUdR, and then with IU-4. a monoclonal antibody that recognizes both BUdR and IUdR: sections were counterstained with hematoxylin to identify unlabeled nuclei. Nuclei labeled only with IUdR stained red, whereas those labeled with BUdR or with both BUdR and IUdR stained black against a red background: unlabeled nuclei stained blue. This method was the most efficient differential staining technique to identify nuclei labeled only with IUdR and those labeled with BUdR among unlabeled nuclei.     

Immunocytochemical staining of central neurones in Periplaneta americana using monoclonal antibodies to choline acetyltransferase

Immunocytochemical mapping of cholinergic neurones in the CNS of the cockroach Periplaneta americana has been attempted using monoclonal antibodies to choline acetyltransferase (ChAT, acetyl-CoA: choline O-acetyltransferase, EC 2.3.1.6). Monoclonal antibodies 11 255 and 1E6 raised against rat brain ChAT and 1C8 raised against Drosophila melanogaster ChAT were ineffective in staining Periplaneta neurones. However, the cytoplasm of certain neuronal cell bodies was stained by monoclonal antibody 4D7 prepared against rat ChAT. Staining of cell bodies by 4D7 was enhanced following in vivo pre-treatment with colchicine. The staining of specific neurones by monoclonal antibody 4D7 indicates that these cockroach cells are rich in a protein with antigenic determinants resembling those of vertebrate ChAT. For some unidentified neurones, 4D7 staining is associated with the presence of acetylcholinesterase indicating that this monoclonal antibody offers a probe for mapping cholinergic neurones in the CNS of Periplaneta americana. The fast coxal depressor motoneurone (D(f)) was not stained by monoclonal antibody 4D7. Some neuronal processes in the sixth abdominal ganglion, and sensory cell bodies in the cerci were lightly stained by monoclonal antibody 4D7 following pre-injection of animals for 36 hr with colchicine.     

Flow cytometric estimation of cell cycle parameters using a monoclonal antibody to bromodeoxyuridine

An estimation of cell kinetic parameters was made by simultaneous flow cytometric measurements of DNA and bromodeoxyuridine (BrdUrd) contents of cells. The procedure described in this paper involves the incorporation of BrdUrd by S phase cells, labeling the BrdUrd with an indirect immunofluorescent technique using a monoclonal anti-BrdUrd antibody, and staining DNA with propidium iodide (PI). The amount of incorporated BrdUrd in HeLa cells was proportional to that of synthesized DNA through S phase. For all cell lines examined, the pattern of BrdUrd incorporation was essentially the same and the rate of DNA synthesis during S phase was not constant. The bivariate BrdUrd/DNA distributions showed a horse-shoe pattern, maximum in the mid S phase and minimum in the early and late S phases. Furthermore, the durations of cell cycle (Tc) and S phase (Ts) were estimated from a FLSm (fraction of labeled cells in mid S phase) curve that was generated by plotting the percentage of BrdUrd pulse-labeled cells in a narrow window defined in the mid S phase of the DNA histogram. The values of these parameters in NIH 3T3, HeLa S3, and HL-60 cells were in good accordance with the reported data. This FCM method using the monoclonal anti-BrdUrd antibody allows rapid determination of both cell cycle compartments and also Ts and Tc without the use of radioactive DNA precursors.     

Immunohistochemical identification of proliferating cells in organ culture using bromodeoxyuridine and a monoclonal antibody

The ability to measure cell proliferation is important in the study of cancer biology. The usual technique for quantitating proliferating cells in tissue explant and organ culture by detection of [3H]-thymidine incorporation into DNA by autoradiography is tedious and time-consuming. We have developed a technique for identification and quantitation of bromodeoxyuridine (an analogue of thymidine) in cultured tissue explants. Fetal mouse colon explants were exposed in vitro to bromodeoxyuridine (BUdR) or [3H]-thymidine for 3 to 72 hr and then for various periods to unlabeled thymidine. The tissues were stained with a monoclonal anti-bromodeoxyuridine antibody and in parallel [3H]-thymidine incorporation was detected by autoradiography. Incorporation of BUdR was measured by quantitating the amount of pigment deposited over nuclei after immunohistochemical staining, using an optical data digitizer. It was found that both techniques identified proliferating cells. Dividing cells were present both in crypts and in the surrounding stroma in Day 14 fetal mouse colon cultures. The immunohistochemical technique was more rapid and less cumbersome than autoradiography.     

Cell Cycle Kinetics of Aerated, Hypoxic and Re-Aerated Cells In Vitro Using Flow Cytometric Determination of Cellular Dna and Incorporated Bromodeoxyuridine

Abstract. The effects of extreme hypoxia on cell cycle progression were studied by simultaneous determination of DNA and bromodeoxyuridine (BrdU) contents of individual cells. V79-379A cells were pulse-labelled with BrdU (1 μM, 20 min, 37°C) and then incubated for up to 12 hr in BrdU-free medium under either aerated or extremely hypoxic conditions. After the incubation interval (0-12 hr), the cells were trypsinized and fixed in 50% EtOH. Propidium iodide and a fluorescein-labelled monoclonal antibody to BrdU were then used to quantify DNA content and incorporated BrdU, respectively. Measurements in individual cells were made by simultaneous detection of green and red fluorescence upon excitation at 488 nm using flow cytometry. Bivariate analysis revealed progression of BrdU-labelled cells in aerated cultures out of S phase, into G₂ and cell division, with halving of mean fluorescence, and back into S phase by approximately 9 hr after the BrdU pulse. Hypoxia immediately arrested cells in all phases of the cell cycle. Both the DNA distribution and the bivariate profile of cells that were fixed from 2 to 12 hr after induction of hypoxia were identical to the 0 hr controls. the percent of cells with green fluorescence in a mid-S phase window remained 100% and the mean fluorescence of these cells remained at control (0 hr) levels. This indicates that, under hypoxic conditions, cells were moving neither into nor out of S phase. Cultures that had been hypoxic for 12 hr exhibited an increasing rate of BrdU uptake with time after re-aeration. Re-aerated cells were able to complete or initiate DNA synthesis, but their rates of progression through the cell cycle were markedly reduced. A large fraction of cells appeared unable to divide up to 12 hr following release from hypoxia.     

Live-cell assay for detection of apoptosis by dual-laser flow cytometry using Hoechst 33342 and 7-amino-actinomycin D

This protocol describes a rapid and simple method for the identification of apoptotic cells. Owing to changes in membrane permeability, early apoptotic cells show an increased uptake of the vital DNA dye Hoechst 33342 (HO342) compared with live cells. The nonvital DNA dye 7-amino-actinomycin D (7-AAD) is added to distinguish late apoptotic or necrotic cells that have lost membrane integrity from early apoptotic cells that still have intact membranes as assayed by dye exclusion. The method is suitable to be combined with cell surface staining using Abs of interest labeled with fluorochromes that are compatible with HO342 and 7-AAD emissions. Surface antigen staining is carried out according to standard methods before staining for apoptosis. The basic assay can be completed in 30 min, and extra time is needed for cell surface antigen staining.     

Cell cycle kinetics of aerated, hypoxic and re-aerated cells in vitro using flow cytometric determination of cellular DNA and incorporated bromodeoxyuridine

The effects of extreme hypoxia on cell cycle progression were studied by simultaneous determination of DNA and bromodeoxyuridine (BrdU) contents of individual cells. V79-379A cells were pulse-labelled with BrdU (1 microM, 20 min, 37 degrees C) and then incubated for up to 12 hr in BrdU-free medium under either aerated or extremely hypoxic conditions. After the incubation interval (0-12 hr), the cells were trypsinized and fixed in 50% EtOH. Propidium iodide and a fluorescein-labelled monoclonal antibody to BrdU were then used to quantify DNA content and incorporated BrdU, respectively. Measurements in individual cells were made by simultaneous detection of green and red fluorescence upon excitation at 488 nm using flow cytometry. Bivariate analysis revealed progression of BrdU-labelled cells in aerated cultures out of S phase, into G2 and cell division, with halving of mean fluorescence, and back into S phase by approximately 9 hr after the BrdU pulse. Hypoxia immediately arrested cells in all phases of the cell cycle. Both the DNA distribution and the bivariate profile of cells that were fixed from 2 to 12 hr after induction of hypoxia were identical to the 0 hr controls. The percent of cells with green fluorescence in a mid-S phase window remained 100% and the mean fluorescence of these cells remained at control (0 hr) levels. This indicates that, under hypoxic conditions, cells were moving neither into nor out of S phase. Cultures that had been hypoxic for 12 hr exhibited an increasing rate of BrdU uptake with time after re-aeration. Re-aerated cells were able to complete or initiate DNA synthesis, but their rates of progression through the cell cycle were markedly reduced. A large fraction of cells appeared unable to divide up to 12 hr following release from hypoxia.     

Simultaneous cell cycle analysis and two-color surface immunofluorescence using 7-amino-actinomycin D and single laser excitation: applications to study of cell activation and the cell cycle of murine Ly-1 B cells

The DNA-binding, fluorescent dye 7-amino-actinomycin D (7AAD) is efficiently excited by the 488 nm laser line commonly used in flow cytometry, but yields fluorescence emission further into the red spectrum than alternative DNA-specific fluorochromes. In this report, we show that the spectral properties of 7AAD allow single-laser analysis of DNA content and cell cycle simultaneously with two cell surface markers labeled with fluorescein (green)-and phycoerythrin (orange)-conjugated antibodies. The use of 7AAD makes three-color analysis practical and feasible, using the most widely available flow cytometric instruments. The power of this technique was demonstrated in two systems. Staining of human peripheral blood lymphocytes (PBL) with 7AAD was demonstrated to be dependent on cell activation and chromatin conformation; PHA-stimulated cells which have become activated and express IL 2 receptors had greater 7AAD fluorescence than nonactivated, IL 2 receptor-negative cells. Cell cycle analysis of mouse splenocytes stained with fluorescent antibodies to IgM and to Ly-1 demonstrated that the proportion of S and G2 phase cells in native spleen varies strongly among the subsets of cells identified with these markers. Of particular interest was the striking finding that the Ly-1+/IgM+ subset (Ly-1 B cells) is greatly enriched for cells in the S phase fraction. This is important because Ly-1 B cells have been associated with the production of autoantibodies, and is consistent with reports that these cells have a lymphoblastoid or a plasmablast morphology. We hypothesize that Ly-1 B cells may belong to a subset of in vivo activated cells which are either rapidly proliferating or are arrested in S phase.     

Simultaneous detection of DNA synthesis, activation and cytokine secretion in collagen II (250-270)-activated T lymphocytes by flow cytometry

T cell activation and secretion of cytokines from activated peripheral blood mononuclear cells (PBMC) in culture have traditionally been measured by 3H-thymidine incorporation for assessment of cell proliferation. However, this method has many disadvantages that limit its usage in analyzing antigen-specific T responses, because of the low specific frequencies of the cells. Collagen II (250-270) may be an important autoantigen involved in the pathology of rheumatoid arthritis (RA). To further study the specific T cells response to CII 250-270, we developed an improved method for measuring lymphocyte proliferation and activation, and intracellular cytokine production, by flow cytometry at the single cell level. BrdU, an analog of thymidine, was incorporated into cellular DNA as a marker of individual cell proliferation. The cells were fixed and permeabilized, and a monoclonal antibody against BrdU conjugated with a fluorescent dye was used to measure BrdU incorporation. A Tris staining technique for the simultaneous determination of cell surface activation markers (CD69 or CD25) and intracellular cytokine production was also used and the parameters were assessed by 3-color flow cytometry. Optimal conditions were selected to improve the sensitivity and specificity of the assays. This method allowed simultaneous detection of lymphocytic DNA synthesis, phenotype analysis and cytokine production at the single cell level, and thus it may be a useful tool for analyzing immune responses.     

Simultaneous flow cytometric detection of cellular c-myc protein, incorporated bromodeoxyuridine, and DNA

We describe a multivariate flow cytometric technique for simultaneous analysis of specific nuclear protein, bromodeoxyuridine (BrdUrd) incorporated into DNA and DNA content in single cells in suspension. The procedure involves fixation of BrdUrd-exposed cells with paraformaldehyde, heat denaturation of cellular DNA, followed by sequential immunochemical reactions to label incorporated BrdUrd and nuclear protein, and finally staining of total DNA with propidium iodide. The cells are analyzed flow cytometrically and multivariate data acquired in list mode to facilitate analyses of heterogeneous subpopulations. We applied this technique to measure c-myc protein, incorporated BrdUrd, and DNA content in subpopulations present in a recombinant Chinese hamster ovary (CHO) cell line carrying approximately 800 copies of murine c-myc sequences under control of an inducible heat shock promoter.     

Evaluation of four methods of DNA distribution data analysis based on bromodeoxyuridine/DNA bivariate data

Four published methods of DNA-content histogram analysis (those of Fried, Dean and Jett, simplified Dean, and Fox) were compared using a double labeling of different cell populations. Partially synchronized and asynchronous cell populations were incubated with bromodeoxyuridine (BrdUrd) and then stained with an anti-BrdUrd monoclonal antibody and propidium iodide (PI). The fractions of cells in the G1, S, and G2 + M phases were calculated by each method and compared with those derived from G1, S, and G2 + M areas plotted on BrdUrd/DNA bivariate histograms, taken as the "true" values. This procedure enabled an optimal choice of method for a given cell population.     

A gentle fixation and permeabilization method for combined cell surface and intracellular staining with improved precision in DNA quantification.

A method was developed for gentle fixation of mammalian cells and permeabilization of their membranes. The method is useful for staining of intracellular antigens or quantification of DNA content simultaneously with cell surface staining. Cells are treated for 1 h at 4 degrees C with 0.25% buffered paraformaldehyde then for 15 min at 37 degrees C with 0.2% Tween 20 detergent in PBS. The procedure permits excellent staining of intracellular proteins, very low coefficients of variation (CV) on the G0G1-peak of DNA distributions, and preservation of the integrity of cell surface antigens. The low vs. 90 degrees angle light scatter profile of cell clusters is maintained thereby allowing discrimination of different cell populations including human peripheral blood lymphocytes and monocytes for gating and analytic purposes. The method was successfully used on a variety of other cell types, including human thymocytes, murine thymocytes and spleen cells, and several leukemic cell lines. Dual-color surface antigen staining combined with DNA staining with 7-amino-actinomycin D (7-AAD) on peripheral blood mononuclear cells (PBMC) cultured with tetanus toxoid allowed the determination of the cell subset that was preferentially stimulated. Staining for internal antigens was done on CCRF-CEM for expression of CD3 epsilon and on NALM-6 for expression of mu. The technique we developed gave bright and specific staining of internal antigens in the examples presented here. It is particularly suited for correlations of internal antigen staining with DNA staining and/or surface immunofluorescence.     

Application of 7-amino-actinomycin D for the fluorescence microscopical analysis of DNA in cells and polytene chromosomes

Summary The cytochemical properties of a guanine-specific synthetic fluorescent analogue of actinomycin D, 7-amino-actinomycin D, have been studied in fixed and living preparations of L cells and polytene chromosomes of salivary glands ofChironomus thummi thummi andDrosophila lummei (Hackman).7-Amino-actinomycin D has been shown to bind to DNA-containing structures, thereby inducing in them a bright red fluorescence. No specific fluorescence has been found in RNA-containing structures treated with this fluorescent probe.The fluorescence pattern of some regions of polytene chromosomes with a known nucleotide composition was analysed. It has been established that 7-amino-actinomycin D induces a very weak fluorescence in GC-poor chromosome regions of theDrosophila lummei toromere structure. Data indicating a nonlinear dependence between the fluorescence intensity of a stained chromosome region and the GC content in its DNA have been obtained. The influence of DNA nucleotide composition in a chromosome region on the fluorescence of 7-amino-actinomycin D is discussed. In combination with quinacrine staining and the Feulgen fluorescence reaction, treatment with 7-amino-actinomycin D provides useful information about the distribution of GC base pairs in the chromosome region under study.     

Cytochemistry for bromodeoxyuridine/DNA analysis: stoichiometry and sensitivity

This report describes an improved immunochemical procedure for staining cells in suspension for amount of incorporated bromodeoxyuridine (BrdUrd) and total DNA. In this procedure, cellular DNA is partially denatured by extracting the cells with 0.1 M HCl and then heating them to 80 degrees C in a 50% formamide solution. The cells are then immunofluorescently stained using a monoclonal antibody against BrdUrd in single-strand DNA (ssDNA) and counterstained for DNA content with propidium iodide (PI), a dye that fluoresces preferentially when bound to double-strand DNA (dsDNA). We show that the relative amounts of immunofluorescently stained BrdUrd in ssDNA and PI in dsDNA can be altered reciprocally by changing the formamide concentration, denaturation time, and denaturation temperature. We show that this new immunochemical staining procedure allows more complete DNA denaturation so that fivefold lower levels of BrdUrd incorporation can be quantified. In addition, we show that the BrdUrd-linked immunofluorescence achieved using the new denaturation procedure is more linearly related to cellular BrdUrd content than that achieved after acid DNA denaturation. However, cell loss is sufficiently severe with the thermal denaturation procedure that it may not be applicable to all cell types.     

Simultaneous measurement of transferrin receptor and DNA content of human IL 2 dependent T cells by flow cytometry

This paper describes a method which enables the simultaneous measurement of both the concentration of cell surface receptors and the DNA content of individual lymphoid cells. Cells fixed with PLP (periodate-lysine-paraformaldehyde) were treated with ribonuclease (RNase). Transferrin receptors were then successively bound with monoclonal antibody against them and FITC-labeled antibody against the monoclonal antibody. Cells thus treated were stained with propidium iodide and two-parameter flow cytometric analysis was carried out. Using this method, the expression of transferrin receptors on lymphoid cells was analyzed in relation to the action of T-cell growth factor (IL 2). It was found that cells in the G1 phase were stimulated by IL 2 which increased transferrin receptor concentration after a lag of a few hours. Subsequently, the cells entered the S phase and the receptor levels remained high throughout the S, G2 and M phases of the cell cycle.     

Detection of cells resistant to alkylating agents by flow cytometric analysis of DNA damage

DNA damage was measured by flow cytometric analysis of cells sensitive and resistant to alkylating agents. Human ovarian carcinoma cell line A2780 and a subline which is 7 times more resistant to L-phenylalanine mustard (L-PAM) were treated with the drug, fixed, and stained with monoclonal antibody (MOAB) F7-26 which detects single-stranded regions in alkylated DNA. Mean fluorescent intensity was measured on a flow cytometer. Cells were heated before staining to amplify single-strandedness in alkylated DNA. Significantly larger amount of MOAB was bound to DNA in sensitive than in resistant cells. Fluorescence increased by 80 channels per micrograms L-PAM insensitive cells and only by 17 channels in resistant cells. Sensitive and resistant cells were treated with L-PAM, mixed in different proportions, and stained with MOAB. Populations of sensitive and resistant cells were clearly separated on fluorescence histograms by more than a decade difference in fluorescence intensity. Presence of 2-5% resistant cells was detected among sensitive cells as a separate cell subset. We conclude that staining with MOAB F7-26 can be used as an indicator of cell sensitivity or resistance to alkylating agents. Detection of minor subsets of resistant cells in heterogeneous populations by FCM analysis may be useful for monitoring emerging drug resistance.     

7-Amino-actinomycin D as a specific fluorophore for DNA content analysis by laser flow cytometry

A technique for DNA amount determination by flow cytometry based on the use of 7-amino-actinomycin D (7-amino-AMD), a fluorescent analogue of antibiotic actinomycin has been investigated, and a particular staining procedure has been developed. The procedure includes short fixation in 70% ethanol and staining for 20 min in 10(-5)M solution of 7-amino-AMD at pH7. The results of DNA content measurements are very reproducible. The histograms obtained have a coefficient of variation less than 3%. The absorption maximum of the complex of 7-amino-AMD with DNA is situated in the green spectrum region, making this stain particularly suitable for argon laser flow cytometry.     

Simultaneous paired analysis by flow cytometry of surface markers, cytoplasmic antigens, or oncogene expression with DNA content

Flow cytometry is a useful tool for measuring DNA content and differentiation as expressed by cell surface markers. We have extended this technology to measure simultaneously either surface, cytoplasmic, or nuclear antigens (particularly oncoproteins) with DNA content. Mononuclear blood cells isolated from normal subjects and HL60 leukemic cells were permeabilized and fixed in suspension utilizing 40 micrograms/ml lysolecithin and 1% paraformaldehyde. A range of lysolecithin concentrations in 1% paraformaldehyde was studied to optimize permeabilization of the antibodies to the cell interior without destroying cell integrity. The optimal concentration (40 micrograms lysolecithin/ml) resulted in good cell recovery with a high percentage of cells positive for surface and intracellular antigens. Cells are first stained with fluorescein isothiocyanate conjugated (FITC) antimyeloperoxidase (an azurophil granule enzyme), or with an anti-c-myc antibody and FITC goat anti-mouse IgG F(ab')2. Cells are then incubated with RNase and stained for DNA content with propidium iodide. Alternatively, cells were stained for the cell surface markers Leu M3, OKM1, or the transferrin receptor and were then fixed and permeabilized and stained with propidium iodide. Using this method, we correlated cytoplasmic, nuclear, or cell surface antigens with cell cycle kinetics. This technique should be useful for studies of cellular differentiation and proliferation.