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1.
There is increasing need to verify the identities of cell subpopulations enriched by laser flow cytometry and fluorescence-activated cell sorting (FACS). When cell subpopulations isolated from whole organs or tissues have similar characteristics (e.g., size, granularity, staining), light, phase contrast or fluorescence microscopy may not provide sufficient resolution to identify isolated cells accurately and many flow cytometric parameters (e.g., viability, fluorescence) require the cells to be live at the point of analysis where the cell transects the laser beam. In some studies, cells identified by fluorescence microscopy as a highly enriched subpopulation were found by electron microscopy to contain significant populations of other cell types. A technique, fixation-in-flow (FIF), has been developed to increase ability to correlate morphological and laser analyses of cell subpopulations. Sheath fluid is replaced by fixative, permitting fixation to be initiated immediately after laser beam analysis of live cells. This new procedure yields improved cytoarchitectural preservation of recovered cell subpopulation(s) for evaluation by transmission or scanning electron microscopy. This report presents results from applying the methodology to identify more accurately cell subpopulations of the distal lung, specifically type II pneumocytes, Clara cells and pulmonary macrophages. A modification of this procedure was employed to isolate fibroblast subpopulations from murine lung fibroblasts grown in vitro and the procedure is being used to determine the responses of cultured fibroblasts to other permutations (e.g., X-irradiation, cytokines).  相似文献   

2.
E. Kohen  C. Kohen  B. Thorell 《BBA》1971,234(3):531-536
An optimized photon counting technique allows the microfluorimetric study of NAD+ (or NADP+) reduction-reoxidation transients in single living cells with a time resolution in the range of 1/50-1/100 sec. The transients resulting from the micro-electrophoretic addition of metabolites (e.g. Glc-6-P or Glc-1-P) can be analyzed in terms of early parameters (e.g. initial lag, rise half time or full rise time) and overall parameters (time of rise and half decay, amplitude, reoxidation time). Both the initial lag and rise half time are considerably longer with Glc-1-P than with Glc-6-P, possibly due to control at the phosphoglucomutase or compartmentation of glycolytic phosphate esters. While glycolytic NAD+ (or NADP+) reduction proceeds adequately in aerobic EL2 and EAT ascites cells (although ΔNADH/Δt is higher at anaerobiosis), it is critically dependent upon anaerobiosis in L and astrocytoma cells. Thus by rapid microfluorimetry it is possible to resolve the rising phase or other segments of the fluorescence transients into components each corresponding to a particular step in the sequence of intracellular events or control states.  相似文献   

3.
Lectins are proteins or glycoproteins from plants, animals or microorganisms, which typically bind specifically to sugar residues, e.g., located in cell walls or membranes. This reaction might change the physiology of the cell wall and influences the metabolism inside the cell. Some lectins of plants stimulate the immune system by unspecific activation of T-cells or influence cell division; others cause agglutination of cells (e.g., erythrocytes) and are therefore from therapeutic interest.

In a new approach, biomolecular interaction analysis (BIA) was utilised for a screening program on lectins. The BIA has been done by surface plasmon resonance (SPR). The system can be used either for characterisation of lectin-binding domains or for a screening on lectins from natural sources. Several lectin-binding surfaces on the basis of SPR have been established.  相似文献   


4.
Cell populations dissociated from fetal rabbit lungs were analyzed by laser flow cytometry for the presence of type II pneumocytes. These cells are distinguishable by the staining of their lamellar bodies with the fluorescent lipophilic dye, phosphine-3R and by their intensity of low-angle light scatter. Lung cells were obtained by enzymatic dissociation from fetal rabbits at gestational ages of 24 d, 27 d, and from 2-d newborn rabbits. Flow cytometric analysis was sufficiently sensitive to discriminate between fetuses. Quantitative analysis of type II pneumocytes showed that newborn rabbits had a distinct cell subpopulation in a region of low-angle light scatter and phosphine-3R fluorescence intensity similar to that previously reported on type II cells from adult rabbits. By contrast, 24-d gestation rabbits had a negligible type II cell subpopulation. Fetuses of 27 and 30 d gestation showed a slow but progressive increase in the numbers of cells in the type II region. Mathematical analyses of light scatter and fluorescence intensity distributions were used to define statistically significant (P less than .05) boundaries that characterize the development of the type II cell subpopulation in fetal rabbit lung. The methods employed offer new possibilities for quantification of developing lung cell subpopulations of particular interest to the problem of respiratory distress syndrome in human neonates.  相似文献   

5.
We have demonstrated a method for the in situ determination of the cell cycle phases of TIG-7 fibroblasts using a laser scanning cytometer (LSC) which has not only a function equivalent to flow cytometry (FCM) but also has a capability unique in itself. LSC allows a more detailed analysis of the cell cycle in cells stained with propidium iodide (PI) than FCM. With LSC it is possible to discriminate between mitotic cells and G2 cells, between post-mitotic cells and G1 cells, and between quiescent cells and cycling cells in a PI fluorescence peak (chromatin condensation) vs. fluorescence value (DNA content) cytogram for cells stained with PI. These were amply confirmed by experiments using colcemid and adriamycin. We were able to identify at least six cell subpopulations for PI stained cells using LSC; namely G1, S, G2, M, postmitotic and quiescent cell populations. LSC analysis facilitates the monitoring of effects of drugs on the cell cycle.  相似文献   

6.
Rat carrier erythrocytes prepared by hypotonic dialysis (80 mOsm/kg) are a heterogeneous cell population that can be fractionated into two-well-defined cell subpopulations by a single partition step, in charge-sensitive dextran-poly(ethylene glycol) aqueous two-phase systems. One subpopulation (65% of total cells) has a decreased cell surface charge and is partitioned at the interface in a single step and then fractionated by counter-current distribution as a low-G subpopulation. The other subpopulation (35% of total cells) has charge surface properties more like those of the untreated control rat erythrocytes. These last cells are partitioned in the top phase in a single step and then fractionated by counter-current distribution as a high-G subpopulation. Partitioning is more effective in reducing cell heterogeneity in hypotonized rat erythrocyte populations than is density separation in Ficoll-paque which only separates a small less dense cell subpopulation (5% of total cells), with the most fragile cells, from a larger and more dense cell subpopulation (95% of total cells), with a mixture of fragile and normal cells. This simple cell separation procedure quickly reduces carrier erythrocyte heterogeneity in a single partitioning step so it can be used to prepare cells for in vivo studies.  相似文献   

7.
We demonstrate broad-field, non-scanning, two-photon excitation fluorescence (2PEF) close to a glass/cell interface by total internal reflection of a femtosecond-pulsed infrared laser beam. We exploit the quadratic intensity dependence of 2PEF to provide non-linear evanescent wave (EW) excitation in a well-defined sample volume and to eliminate scattered background excitation. A simple model is shown to describe the resulting 2PEF intensity and to predict the effective excitation volume in terms of easily measurable beam, objective and interface properties. We demonstrate non-linear evanescent wave excitation at 860 nm of acridine orange-labelled secretory granules in live chromaffin cells, and excitation at 900 nm of TRITC-phalloidin-actin/GPI-GFP double-labelled fibroblasts. The confined excitation volume and the possibility of simultaneous multi-colour excitation of several fluorophores make EW 2PEF particularly advantageous for quantitative microscopy, imaging biochemistry inside live cells, or biosensing and screening applications in miniature high-density multi-well plates.Abbreviations 1PEF one-photon excited fluorescence - 2PEF two-photon excited fluorescence - APD avalanche photo diode - CHO Chinese hamster ovary - DMEM Dulbecco's modified Eagle's medium - EGFP enhanced green fluorescent protein - EW evanescent wave - FCS fetal calf serum - GPI glycosylphosphatidylinositol - TIR total internal reflectionThis paper is dedicated to the memory of Prof. Horst Harreis (1940–2002)  相似文献   

8.
The Giemsa stain is one of the most widely used staining techniques in cytology, especially in hematology. A standardized Romanowsky-Giemsa staining procedure using pure cationic azure B (C.I. 52010) and anionic eosin (C.I. 45380) has been described by Wittekind et al (1982). A revised standard Giemsa staining procedure was recently published (Wittekind and Kretschmer 1987). Usually the Romanowsky-Giemsa stain is applied to air dried and methanol fixed cytological material, e.g. blood smears and bone marrow films (ICSH 1984).  相似文献   

9.
Surface immunoglobulin (sIg)-positive and sIg-negative subpopulations of macrophage-depleted murine splenic lymphocytes were obtained by Sephadex anti-Fab immunoabsorbent fractionation. These lymphocyte subpopulations were analyzed for the presence of Thy 1 and Ia alloantigens and also for Fc receptors by fluorescence microscopy. Concurrently, these lymphocyte subpopulations were studied for effector cell activity in antibody-dependent cellular cytotoxicity (ADCC). Effector cells mediating ADCC were contained in the sIg-negative lymphocyte subpopulation and sIg-positive lymphocytes did not mediate cytotoxicity. The majority of sIg-positive lymphocytes were found to bear Ia antigens and Fc receptors, and these cell surface structures were associated in that treatment of these cells with anti-Ia sera inhibited binding of complexed immunoglobulin to Fc receptors. In contrast, most sIg-negative, Thy 1-negative lymphocytes lacked Ia Antigens, and the Fc receptors detected on such cells were not blocked by anti-Ia sera. In addition, a small subpopulation of sIg-negative, Ia antigen-positive, Fc receptor-positive lymphocytes was found. Elimination of this subpopulation of Ia antigen-positive cells from sIg-negative lymphocytes, by treatment with anti-Ia serum and complement, did not diminish ADCC effector cell activity in the resultant cell population when compared with untreated sIg-negative lymphocytes. Thus, in murine spleen, nonphagocytic mononuclear cells that lack both sIg and Ia antigens were shown to mediate ADCC.  相似文献   

10.
An instrument is described that can automatically analyze and select for a subpopulation of anchorage-dependent cells in tissue culture. Cells that label with fluorescently tagged antibodies or demonstrate structural variations are saved from exposure to a destructive high-intensity argon laser beam. The surviving population may then be cloned. The cell selection may occur in a tissue culture plate or in a microflow incubator which is designed to maintain a constant flow of media at 37 degrees C across cells growing on a glass coverslip. This incubator sits on an inverted microscope which focuses the laser beam to a diameter as small as 1 micron. A high-speed computer-controlled two-dimensional stage moves the cells past the beam for analysis, the results of which determine the fate of each cell: whether it is to be destroyed by radiant energy or selected for survival and subsequent proliferation. Another selection strategy performed by the instrument involves growing the cells on a thin, blackened polyester film which can be cut by the argon laser beam. Cells selected for cloning are then circumscribed. The heat of cutting welds the circumscribed film to a plastic coverslip surface or tissue culture chamber bottom. Nonselected cells may be removed by pulling the unattached polyester sheet from the attachment surface. The selected cells remain on polyester film disks welded to the plastic. Selections may be done automatically under computer control or manually by operator direction of stage movements. This instrument extends the art of automated cell selection and analysis to normal cell lines that must maintain cell-substratum contact (anchorage dependence) for differentiated cell function, e.g., neurons, fibroblasts, or kidney cells.  相似文献   

11.
Three distinct subpopulations (A, B, C) derived from a dimethylbenzanthracene-induced rat rhabdomyosarcoma were established as permanent cell lines. Although the clonal nature of each of these subpopulations was confirmed by repeated recloning procedures, a striking intraclonal phenotypic heterogeneity was observed. By means of immunofluorescence microscopy and transmission electron microscopy, it could be shown that these subpopulations closely recapitulate stages of embryonic rhabdomyogenesis both in vitro and in vivo, but differ in their particular range of maximum differentiation. Embryonic rhabdomyogenesis is imitated most perfectly by subpopulation C, in which multinuclear myotubes are formed in vitro by fusion of mononuclear cells, and alpha-sarcomeric actin is expressed in the multinuclear cells and in a few mononuclear cells. After retransplantation in vivo, subpopulation C further proceeds in fine structural differentiation, now exhibiting myofibrils with a sarcomeric organization in the myotube-like giant cells. The cells of subpopulation B do not exceed the stage of mononuclear desmin-positive cells in vitro, but synthesize thin and thick myofilaments after retransplantation in vivo. The cells of subpopulation A recapitulate embryonic rhabdomyogenesis least successfully being confined to the stage of mononuclear desmin-positive cells. Thus, the coexistence of diverse subpopulations and the cellular maturation within these subpopulations together contribute to the phenotypic heterogeneity of rhabdomyosarcomas.  相似文献   

12.
Cancer stem cells (CSCs) represent a population of cancer cells that possess unique self-renewal and differentiation characteristics required for tumorigenesis and are resistant to chemotherapy-induced apoptosis. Lung CSCs can be enriched by several markers including drug-resistant side population (SP), CD133pos and ALDHhigh. Using human non-small cell lung adenocarcinoma cell lines and patient-derived primary tumor cells, we demonstrate that SP cells represent a subpopulation distinct from other cancer stem/progenitor cell (CS/PC) populations marked by CD133pos or ALDHhigh. The non-CS/PCs and CS/PCs of each subpopulation are interconvertible. Epithelial-mesenchymal transition (EMT) promotes the formation of CD133pos and ALDHhigh CS/PC subpopulations while suppressing the SP CS/PC subpopulation. Rac1 GTPase activity is significantly increased in cells that have undergone EMT, and targeting Rac1 is effective in inhibiting the dynamic conversion of non-CS/PCs to CS/PCs, as well as the CS/PC activity. These results imply that various subpopulations of CS/PCs and non-CS/PCs may achieve a stochastic equilibrium in a defined microenvironment, and eliminating multiple subpopulations of CS/PCs and effectively blocking non-CS/PC to CS/PC transition, by an approach such as targeting Rac1, can be a more effective therapy.  相似文献   

13.
Highly synchronized cultures of HSF-55 human diploid fibroblasts contain subpopulations of cells with intact plasma membranes that do not participate in the parasynchronous division wave. To determine the fate of these laggard cells, cultures were incubated with BrdU for variable periods to label newly replicated DNA in both the readily synchronizable and nonsynchronizable subpopulations. The kinetics of labeling with BrdU were determined with a two-laser flow cytometric technique that did not employ antibody to BrdU, but instead monitored emission of fluorescence from DNA-specific stains that differed in the degree of BrdU-induced quenching of their fluorescence signals. Approximately 90% of the cells rapidly incorporated BrdU and later divided within a 3 hr period. The remaining 10% of the cells, however, were found to reside within a minority subpopulation that maintained the capacity to traverse the cell cycle, but at a greatly reduced rate relative to the progression capacity of the majority of cells. Cells were viably sorted from these cohorts within the synchronized culture, and their kinetic behavior was determined through direct measurement of their growth rates and plating efficiencies. As predicted by the BrdU labeling studies, the sorted cells from the minority, slowly traversing subpopulation divided at a rate that was 30 to 50% lower than that obtained with cells sorted from the readily synchronizable subpopulation. From consideration of the kinetics of entry into S-phase of the majority and minority subpopulations, protocols are described that should allow preparation of relatively pure populations of both early- and late-replicating species of human DNA.  相似文献   

14.
Salmonella can cause a typhoid fever like disease in genetically susceptible mice. In contrast to in vitro cell culture models, most host cells in infected tissues contain only one or two Salmonella, but a small subpopulation of infected host cells contains many Salmonella. It has been proposed that these various subpopulations have differential relevance during infection but to test this, methods for isolating such Salmonella will be required. We developed a method to purify differentially infected host cells by flow cytometry using Salmonella expressing the green fluorescent protein (GFP). Critical parameters for this method were sufficient GFP expression to detect infected cells against strong host cell autofluorescence, and low variation in GFP content of individual Salmonella. We evaluated more than hundred different GFP-constructs but only one single-copy chromosomal P(sifB)-gfp fusion met these criteria and enabled differentiation of weakly and highly infected cells based on total GFP fluorescence. Confocal microscopy of sorted cells confirmed the successful separation of these subpopulations. In addition to isolation of infected cells, our method also enabled enumeration of the subpopulations and phenotypic characterization by staining with antibodies to surface markers. Surprisingly, a small subpopulation of highly infected host cells contained the majority of Salmonella but based on MHC II and ICAM I expression, this subpopulation was not more strongly activated than weakly infected cells. Our method will facilitate future characterization of the different subpopulations and the identification of bacterial and host factors that control Salmonella load and proliferation in vivo.  相似文献   

15.
To better understand neuroendocrine regulation and the intracellular mechanisms mediating pituitary-hormone release, it is necessary to study the physiology of identified single cells. We have developed a system to identify gonadotropin, growth-hormone, and prolactin cells in primary cultures of goldfish pituitary cells. Using Nomarski differential interference-contrast microscopy, the unique morphologies of discrete subpopulations of cells were characterized. To aid in the initial characterization of different pituitary-cell types, a discontinuous Percoll density-gradient cell-separation technique was developed. This method provided fractions enriched with functional gonadotropin, growth-hormone, and prolactin cells. The morphology of each cell type was initially characterized in enriched fractions of immunofluorescently labelled cells using differential interference-contrast microscopy. The cell type-specific morphologies were then confirmed in live pituitary-cell cultures. Gonadotropin, growth-hormone, and prolactin cells were correctly identified in live pituitary-cell cultures. Gonadotropin, growth-hormone, and prolactin cells were correctly identified in live mixed cultures in 92, 94, and 100% of the trials, respectively. The ability to directly identify cells in primary cultures allows the physiological study of identified single cells with minimal pretreatment.  相似文献   

16.
A protocol is given that uses NaOH, benzene, acetone and methanol to extract epoxy resins from semithin sections. Such sections appear superior to paraffin or unsectioned materials for fluorescence microscopic observations. Use of ultrarapid films (e.g., Kodak T-Max P3200) at ISO 3200 minimizes fading without use of antifading agents and without introducing unacceptable photographic grain size.  相似文献   

17.
The electrophoretic mobility distributions of human peripheral blood lymphocytes isolated on Ficoll-Hypaque gradients were characterized by laser Doppler spectroscopy. Three major subpopulations were spectrally resolved, due to differences in their mobility, when an electric field was applied to the scattering cuvette. The fastest component (centered at 2.35 mum/sec/V/cm for 25 degrees C, 0.28 M sucrose medium of 0.005 ionic strength) passed through nylon fiber columns and was identified as a T cell subpopulation. The slowest component (1.85 mum/sec/V/cm) which was further enriched by a one-step rosette procedure with sheep erythrocytes, reacted with activated-complement (C3) and antiserum to human immunoglobulins and was therefore identified as a B cell subpopulation. The intermediate component (centered at 2.15 mum/sec/V/cm) appears to be another T cellsubpopulation. Although cells of this component did not pass through nylon fiber columns, they did rosette with sheep erythrocytes. Furthermore, these cells did not appear to have surface immunoglobulins or complement receptors.  相似文献   

18.
Irradiation of starved cultures of Saccharomyces cerevisiae with blue light under aerobic conditions inhibited the capacity of the yeast cells to respire added substrates (e.g., ethanol) and stimulated endogenous respiration. Spectroscopic examination of the cells showed that the irradiation destroyed both cytochrome a and a3 components of cytochrome oxidase and a part of the cytochrome b. Irradiation under anaerobic conditions had no effect on the respiratory capacity or the cytochrome content of the cells. Under aerobic conditions cytochrome a3 was protected against photodestruction when complexed with cyanide and cytochrome a was protected when complexed with azide.  相似文献   

19.
The measurement of time-resolved fluorescence parameters in living cells provides a powerful approach to study cell structure and dynamics. An epifluorescence microscope was constructed to resolve multi-component fluorescence lifetimes and complex anisotropy decay rapidly in labile biological samples. The excitation source consisted of focused, polarized laser light modulated by an impulse-driven Pockels' cell; parallel acquisition of phase angles and modulation amplitudes at more than 40 frequencies (5-250 MHz) was obtained by multi-harmonic cross-correlation detection. Lifetime decay was measured against standard solutions introduced into the light path proximal to the microscope objective. Anisotropy decay was measured by rotation of a Glan-Thompson polarizer in the emission path. Phase reference light was split from the beam proximal to the microscope. Optical components were selected to avoid depolarization and to optimize fluorescence detection efficiency. The dichoric was replaced by a 1 mm square mirror. Fitting routine statistics were optimized for model discrimination in realistic biological samples. Instrument performance was evaluated using fluorescein in H2O/glycerol and H2O/ethylene glycol mixtures and in Swiss 3T3 fibroblasts in monolayer culture. Objective depolarization effects were evaluated by measurement of anisotropy decay using objectives of different numerical aperture. Lifetime and anisotropy decay measured by microscopy (0.5 micron laser spot) agreed with data obtained by cuvette fluorimetry. New biological applications for time-resolved fluorescence microscopy are discussed.  相似文献   

20.
We studied the effect of symmetric, biphasic sinusoidal electromagnetic fields (EMF) (20 Hz, 6 mT) on the differentiation of normal human skin fibroblasts (HH-8), normal human lung fibroblasts (WI38), and SV40-transformed human lung fibroblasts (WI38SV40) in in vitro cultures. Cells were exposed up to 21 days for 2 x 6 h per day to EMF. Normal mitotic human skin and lung fibroblasts could be induced to differentiate into postmitotic cells upon exposure to EMF. Concomitantly, the synthesis of total collagen as well as total cellular protein increased significantly by a factor of 5-13 in EMF-induced postmitotic cells. As analyzed by two-dimensional gel electrophoresis of [35S]methionine-labeled polypeptides, EMF-induced postmitotic cells express the same differentiation-dependent and cell type-specific marker proteins as their spontaneously arising counterparts. In SV40-transformed human lung fibroblasts (cell line WI38SV40) the exposure to EMF induced the differentiation of mitotic WI38SV40 cells into postmitotic and degenerating cells in subpopulations of WI38SV40 cell cultures. Other subpopulations of WI38SV40 cells did not show any effect of EMF on cell proliferation and differentiation. These results indicate that long-term EMF exposure of fibroblasts in vitro induces the differentiation of mitotic to postmitotic cells that are characterized by differentiation-specific proteins and differentiation-dependent enhanced metabolic activities.  相似文献   

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