Cytometry最新文献

Background: Most assays used to measure invasion are based on manual counting of the number of cells that have migrated completely through commercial coated filters. We describe here a confocal fluorescence-imaging method that can assess the relative rates of invasion of cells into a matrix.

Methods: After being seeded on the matrix and a period of incubation, the cells are fixed and treated with RNase. Propidium iodide is then added to stain the double-stranded DNA. A confocal microscope system is used to obtain high-resolution images of the red propidium iodide fluorescence and laser reflectance from optical sections at increasing depths in the matrix. The section with high laser reflectance marks the top of the matrix.

Results: Data were calculated as the total area of red fluorescence above background in each section and were plotted as a percentage of the summed fluorescent areas in all sections.

Conclusions: Because the distance into the matrix of the nuclei can be calculated by measuring from the reflective upper surface of the matrix, the method is useful for assessing the rate of cell migration and for comparing the ability of different cells to invade through different matrices under varying conditions.

Background: Microparticles released from platelets may play a role in the normal hemostatic response to vascular injury, because they exhibit prothrombinase activity. Microparticles are generated by high shear stress and may be formed in diseased small arteries and arterioles in various clinical settings. However, the surface composition of high shear-induced platelet microparticles is unknown. It was recently shown that some cytokines modulate platelet activation. However, no reports are available concerning the effect of cytokines on high shear-induced platelet aggregation (SIPA) microparticle generation.

Materials and methods: Measurement of SIPA was performed with a cone-plate viscometer. The conformational characteristics of high shear (108 dynes/cm(2))-induced platelet microparticles were analyzed by flow cytometry and confocal laser scanning microscopy. Effects of cytokines for high SIPA microparticle generation were also analyzed using flow cytometry.

Results: The overall pattern of monoclonal antibody binding in high shear-induced microparticles was almost the same as that in activated platelets under high shear stress. Microparticles exhibited markedly increased Annexin V binding. In fluorescent confocal images, small and fine regions of fluorescence (microparticles) were recognized separate from platelet fluorescence. Thrombopoietin not only induced platelet activation, as demonstrated by CD62P expression, but also increased the number of microparticles. Erythropoietin and interleukin-6 enhanced only microparticle generation.

Conclusions: These results suggest that microparticles possessing procoagulant activity are released by platelet activation when levels of certain cytokines increase under high shear stress in various clinical settings.

Background: Volume regulation is essential for cellular functions, including cell death, such as apoptosis. Flow cytometry is standard for nonadherent cells, such as blood cells. Our aim was to explore image analysis methods to study adherent cancer cells of a solid tumor.

Methods: P31 mesothelioma cells were perifused (40 min) and studied by phase-contrast microscopy. A noise reduction of the cell contour was tested to more accurately yield the cell shape factor (SF). The optical halo around the cell was analyzed for information about membrane blebbing.

Results: The projected cell area (PCA) slowly increased under control perfusion, the halo outside more than the halo inside. Cisplatin (apoptosis) caused an immediate increase in the PCA-halo outside (5.9 +/- 1.2 %, P < 0.01, 1-5 min) and the SF indicated decreased roundness (P < 0.05). The SF-halo inside became more irregular than the outside, which was different from the control cells. The morphology reflected instant blebbing, and the cell bodies showed fragmentation after about 20 min. Ouabain resulted in only small changes in PCA and SF, significantly different from both control and cisplatin conditions.

Conclusions: Image analysis (PCA and SF) on perifused adherent cancer cells may serve as a tool to follow the sensitivity of cancer chemotherapy and to study cell death patterns.

Background: Traditional culture methods well established in the past and still in use are not able to detect the environmental microorganisms that exist in a viable but not culturable state. A number of different fluorescence-based assays have been developed over the past decade to detect and identify viable bacteria in the environment.

Methods: We have developed a simple and rapid method for measuring the number and viability of immunolabeled bacteria by means of a two/three color fluorescence flow cytometric analysis. After washing, cultured bacteria in suspension were labeled with a rabbit polyclonal antibody recognizing the wall lipopolysaccharide complex. A secondary biotinylated anti-rabbit polyclonal antibody was added allowing the cells to be labeled with the streptavidin R-phycoerythrin-Cyanine 5 (RPE-Cy5) fluorochrome. Before flow cytometric analysis, bacterial suspensions were stained with SYBR Green I and propidium iodide which stain all of the cells and the non viable ones, respectively.

Results and conclusions: With the appropriate filter sets of both Bryte-HS (Bio-Rad, Hercules, CA) and FACScan (Becton Dickinson, San Jose, CA) flow cytometers, the measurement of separated green (SYBR Green I), orange-red (propidium iodide), and far red (RPE-Cy5) fluorescence was possible, allowing the enumeration of viable immunodetected bacteria. The entire protocol is completed in less than 3 h, offering numerous possibilities for rapid and precise analyses in sanitary, industrial, and environmental microbiology.

Background: Neural stem cell research regularly utilizes neurosphere cultures as a continuous source of primitive neural cells. Results from current progenitor cell assays show that these cultures contain a low number of neural progenitors. Our goal is to characterize neurosphere cultures and define subpopulations in order to purify neural progenitor cells.

Methods: Cells from embryonic mouse neurosphere cultures were stained with Hoechst 33342 and analyzed by flow cytometry. Subpopulations were sorted based on their relative fluorescence intensity in the blue and red regions of the spectrum. Individual sorted subpopulations were reanalyzed after 7 days in culture.

Results: Neurosphere cultures contain a relatively high number of cells that stain weakly with Hoechst 33342. This subpopulation is present when cultured as an entire batch in the presence of epidermal growth factor (EGF). When cultured separately, this subpopulation gives rise to a neurosphere population with essentially the same characteristics as freshly isolated embryonic mouse brain cells but contains substantially fewer weakly Hoechst-stained cells.

Conclusions: Similar to hemopoietic systems, neurosphere cultures contain a subpopulation that can be characterized by a low emission of Hoechst fluorescence. When cultured separately, this subpopulation gives rise to a phenotype similar to freshly isolated, uncultured neural cells.

B-cell chronic lymphocytic leukemia (B-CLL) is characterized by the accumulation of mature-appearing clonal B cells exhibiting coexpression of CD5 and CD23. In addition to the accumulation of neoplastic B cells, numerous T-cell abnormalities also occur in B-CLL patients. In this study, the presence, and distribution within the T-cell subsets, of clonal/oligoclonal T cells was studied. Multicolor flow cytometric techniques were employed using combinations of anti-CD3, anti-CD4, and anti-CD8 antibodies coupled with antibodies specific for V(alpha) and V(beta) T-cell receptor (TCR) epitopes. Molecular studies of TCR gene sequences were done to confirm the presence of clonal/oligoclonal T-cell populations. In the flow cytometric studies, examination of V(alpha)/V(beta)expression found evidence of clonal/oligoclonal expansion in 9 of 19 patients studied. In eight of the nine patients, the expansions were restricted to the CD3(+)CD8(+) cell population. Molecular analyses were performed in 16 patients, 12 of whom showed a clonal or oligoclonal pattern. Of the four patients who were negative in the molecular analyses, all demonstrated flow cytometric evidence of clonal/oligoclonal expansions. Thus, when the flow cytometric and molecular analyses were considered together, all 16 patients for whom parallel analyses were done showed evidence of clonal/oligoclonal expansions. These results confirm previous work demonstrating that the majority of B-CLL patients harbor clonal/oligoclonal expansions within the T-cell population. Additionally, based on the relative numbers of cells expressing specific V(alpha) or V(beta)epitopes, these results show that these expansions occur primarily within the CD3(+)CD8(+) T-cell population.

The alternative application of an automated hematology analyzer, H*3 system, has been described for the detection of apoptosis. Apoptosis induction by the topoisomerase I inhibitor, camptothecin (CAM) on several cell lines is followed by typical morphological alterations. On the H*3 cytogram, measurement of CAM-treated cells revealed an increased population of cells with reduced size suggesting cell contraction during apoptosis. The decreased LUC/Lymph ratio also indicated the enhanced degree of apoptosis directly correlated with increasing CAM concentration and/or incubation period. Quantitative analysis shows a good correlation between the H*3 measurement and flow cytometry measurements of Annexin V-fluorescein isothiocyanate-labeled method. Thus, the H*3 measurement, under an appropriate adjustment, can be used as a rapid monitor for evaluating the degree of apoptotic changes in drug susceptibility testing of homogeneous cell samples.

We evaluated the effect of specimen processing variations and quantitation methods on quantitative determination of CD38 expression on CD8 T lymphocytes. Neither lysing reagent (ammonium chloride versus BD FACSlyse), fixation (paraformaldehyde versus no final fixation step), nor acquisition delay (acquisition within 6 h after fixation versus 24 h after fixation) had a significant effect on CD38 relative fluorescent intensity or CD38 quantitative estimates (RFI or antibodies bound per cell). The only significant difference in fluorescent intensity and CD38 antibodies bound per cell (ABC) was encountered when whole blood was held for 24 h prior to staining and fixation and then acquired after another 24-h hold. However, for all sample processing methods above, the CD4 biologic calibrator and QuantiBRITE bead methods gave significantly different estimates of CD38 intensity. In many cases, however, these differences are relatively small and were more pronounced in certain laboratories. We conclude that there is some flexibility in sample processing methods for quantitative CD38 determination; however, it is preferable for a laboratory to employ one method of fluorescence quantitation calculation consistently because small differences are detected between different methods. Cytometry (Comm. Clin. Cytometry) 42:174-179, 2000.

Background: The relationship between DNA sequence copy number aberrations (DSCNAs) and DNA ploidy in head and neck squamous cell carcinomas (HNSCCs) is still controversial. Materials and Methods We analyzed DSCNAs by comparative genomic hybridization (CGH) combined with microdissection and DNA ploidy by laser scanning cytometry (LSC) in 18 surgically removed HNSCCs and compared the data.

Results: Copy number increases were most frequently observed on chromosomes 3q (16 cases), 8q (13 cases), and 12p (11 cases). Copy number decreases were observed on chromosome 3p (14 cases). LSC revealed DNA aneuploidy in 10 of the 18 cases. All DNA aneuploid tumors exhibited gain or amplification of DNA copy number at 12p11-12.1, whereas gain of DNA copy number was found in only 1 of 8 diploid tumors. DSCNAs were more frequent in DNA aneuploid tumors than in diploid tumors (P < 0.005).

Conclusions: The present observations indicate a close relationship between DSCNAs and DNA ploidy in HNSCCs.

Background: Cell transduction with multiple genes offers opportunities to investigate specific gene interactions on cell function. Detection of multiple transduced genes in hematopoietic cells requires strategies to combine measurements of gene expression with phenotypic cell discriminants. We describe simultaneous flow cytometric detection of two green fluorescent protein (GFP) variants in immunophenotypically defined human hematopoietic subpopulations using only a minor physical adjustment to a standard FACSCalibur.

Methods: The accuracy and sensitivity of enhanced GFP (EGFP) and enhanced yellow fluorescent protein (EYFP) detection in mixtures of transduced and nontransduced PG13 packaging cells were evaluated by flow cytometry. Retroviral vectors encoding EGFP or EYFP were used to transduce CD34(+) hematopoietic cells derived from umbilical cord blood. The transduction efficiency into subpopulations of hematopoietic cells was measured using multivariate flow cytometry.

Results: A bicistronic retroviral vector containing the EGFP and puromycin N-acetyltransferase (pac) genes afforded brighter EGFP signals in transduced cells than a retroviral vector encoding a pac-EGFP fusion protein. The sensitivity of detecting EGFP and EYFP-expressing cells among a background of nonexpressing cells was 0.01% and 0.05%, respectively. EGFP or EYFP was expressed in up to 95% of CD34(+) DR(-) or CD34(+) 38(-) subpopulations in cord blood 48 h posttransduction. Simultaneous transduction with EGFP and EYFP viral supernatants (1:1 mixture) led to coexpression of both GFP variants in 15% of CD34(+) DR(-) and 20% of CD34(+) 38(-) cells.

Conclusions: These results demonstrate simultaneous detection of EGFP and EYFP in immunophenotypically discriminated human hematopoietic cells. This technique will be useful to quantify transduction of multiple retroviral constructs in discriminated subpopulations.