Light Scatter Intensity Research Articles

Determination of Bacterial Biomass from Flow Cytometric Measurements of Forward Light Scatter Intensity

This unit presents methods for measuring biomass of bacteria by flow cytometry. Such measurements are an integral part of determining growth rates and kinetics. This unit discusses calibration and standardization methods for bacterial studies using flow cytometry and provides a detailed discussion of the components involved. The serious microbiologist will appreciate the advantages flow cytometry brings to many aspects of microbial study, and this unit is no exception.

Determination of the biomasses of small bacteria at low concentrations in a mixture of species with forward light scatter measurements by flow cytometry

The forward light scatter intensity of bacteria analyzed by flow cytometry varied with their dry mass, in accordance with theory. A standard curve was formulated with Rayleigh-Gans theory to accommodate cell shape and alignment. It was calibrated with an extinction-culture isolate of the small marine organism Cycloclasticus oligotrophus, for which dry weight was determined by CHN analysis and 14C-acetate incorporation. Increased light scatter intensity due to formaldehyde accumulation in preserved cells was included in the standard curve. When differences in the refractive indices of culture media and interspecies differences in the effects of preservation were taken into account, there was agreement between cell mass obtained by flow cytometry for various bacterial species and cell mass computed from Coulter Counter volume and buoyant density. This agreement validated the standard curve and supported the assumption that cells were aligned in the flow stream. Several subpopulations were resolved in a mixture of three species analyzed according to forward light scatter and DNA-bound DAPI (4', 6-diamidino-2-phenylindole) fluorescence intensity. The total biomass of the mixture was 340 &mgr;g/liter. The lowest value for mean dry mass, 0.027 +/- 0.008 pg/cell, was for the subpopulation of C. oligotrophus containing cells with a single chromosome. Calculations from measurements of dry mass, Coulter Counter volume, and buoyant density revealed that the dry weight of the isolate was 14 to 18% of its wet weight, compared to 30% for Escherichia coli. The method is suitable for cells with 0.005 to about 1.2 pg of dry weight at concentrations of as low as 10(3) cells/ml and offers a unique capability for determining biomass distributions in mixed bacterial populations.

Comparative analysis of whole blood lysis methods for flow cytometry

We performed a parallel evaluation of six whole blood lysis methods comparing light scatter and quantitative fluorescence intensity based on quantitative flow cytometry, of selected lymphocyte subsets and CD34+ cells. Leukocytes prepared with FACS Lysing Solution (BDIS), Immunolyse (Coulter) and Optilyse B (Immunotech) consistently gave lower forward scatter values than those prepared with ACK (BioWhitaker), Ortho-mune (Ortho) and ImmunoPrep (Coulter). Debris, defined as CD45 negative events with the threshold off, accounted approximately 80% of all events with ACK and Ortho-mune. The other lysing methods consistently yielded less debris (approximately 50%) with Immunolyse generating only approximately 16% debris. Optilyse and FACS lyse consistently displayed the lowest percentage of lymphoid cells (CD45+/CD14-) in the three part differential. The percentage of CD3+, CD20+, CD5+, and CD16/CD56+ cells was consistent with all methods but CD4 and CD8 determinants showed inconsistent variation with ACK and Ortho-mune. In addition, the fluorescence intensity of CD14 PE and CD8 PE staining was markedly decreased on cells prepared with ImmunoPrep. Finally, the clearest separation of CD34+ cells was observed with ACK and Ortho-mune. Our data demonstrate that the method used for red cell lysis can have definite impact on immunophenotyping and selected methods appear to be more suitable for specific applications.

Hematopoietic Supportive Functions of Mouse Bone Marrow and Fetal Liver Microenvironment: Dissection of Granulocyte, B-Lymphocyte, and Hematopoietic Progenitor Support at the Stroma Cell Clone Level

We dissected the functions of the microenvironment of bone marrow (BM) and fetal liver (FL) at the cellular level by cloning individual stromal calls and characterizing their phenotypical and functional features. Stromal cell clones derived from FL are large in size (mean forward light scatter intensity [mFSC] of 450), express the surface antigen Thy-1 but not Sca-1 and 6 out of 6 are able to differentiate into fat accumulating adipocytes. BM derived stromal cell clones are either small (mFSC of 250) or large (mFSC of 450), express Sca-1 but not Thy-1 and only 2 out of 7 differentiate towards adipocytes. Heterogeneity in terms of vascular adhesion molecule-1, intracellular adhesion molecule-1 and heat stable antigen expression was found among the different cell clones. Functional assays using long- and short-term cocultures of stromal and hematopoietic calls revealed: (1) the capacity of 8 out of 12 stromal cell clones to support the expansion of primitive hematopoietic progenitors (colony forming unit spleen day 12) more than 10 weeks. Fat accumulation but not expression of stem cell factor by stromal cells did correlate with this supportive function. (2) Better support of granulocyte maturation and proliferation by BM- compared to FL-derived stromal cell clones. However, stromal cell clones from both organs expressed macrophage-colony stimulating factor. (3) The ability of 4 out of 12 stromal cell clones (derived from both, FL and BM) to support the expansion of Interleukin-7 dependent pre-B cells from the BM. Pre-B cell growth stimulating factor was not restricted to supporters. (4) Mutual exclusiveness of myeloid and lymphoid support in that a given stromal cell clone supported either pre B-cell or granulocyte expansion. Experiments comparing the support of BM- and FL-derived hematopoietic progenitors showed identical responses of late (B220+/c-kit-) but strikingly different responses of early (B220+/c-kit+) pre-B cells, revealing different proliferation requirements for FL- versus BM- derived early pre-B cells in vitro.

Chapter 28 Oxidative Product Formation Analysis by Flow Cytometry

Publisher Summary This chapter discusses the oxidative product formation analysis by flow cytometry. The advantages of the flow-based methods are that a significantly reduced cell number is required, the procedure is relatively easy, and, if a flow cytometer is already available, the procedure is inexpensive to perform. A significant feature of the flow-based methods not available using any other technique is the capability to determine heterogeneity of response. Subpopulations defined by either light scatter or fluorescence intensity can be identified and quantified. Thus unresponsive or poorly responsive cell populations are easily discerned. A calibration curve can be generated based upon spectrophotometric data and flow cytometric measurements. This allows for conversion of flow cytometry fluorescence channels into quantitative estimations of H­ 2 O 2 , if necessary.

Flow cytometric analysis of lipid droplet formation in cells of the human monocytic cell line, U937

Active uptake of a free fatty acid, oleate, and its incorporation into triacylglycerol and phospholipid in the human monocytic cell line, U937, was identified using 14C-labelled oleate. Excess triacylglycerol accumulates in the form of lipid droplets in the cytoplasm. The extent of lipid droplet formation in each cell can be assessed in the absence of any staining by 90 degrees light scatter intensity, one of the basic parameters of flow cytometry.

A one step cell sorting procedure for the enrichment of murine bone marrow CFU-S which is independent of their proliferative activity

Murine bone marrow day 9 splenic colony-forming units (CFU-S) have been concentrated using a one step cell sorting technique. CFU-S were discriminated on the basis of their rather high forward light scatter intensity, their high affinity for the lectin WGA and the absence of a cell surface marker expressed by the majority of hematopoietic cells and recognized by the RA3-5B3 MoAb. This procedure permitted a 40-fold enrichment of quiescent or cycling CFU-S (obtained from normal and Ara-C-treated mice respectively) and did not alter their differentiation pathways towards the various myeloid lineages.

Long-Term Preservation of Whole Blood Samples for Flow Cytometry Analysis in Normal and HIV-Infected Individuals from Africa

A whole blood method requiring less than 4 ml of heparinized blood was developed to assess the practicality of preparing whole blood samples that could be easily stored, transported and readily used to determine the lymphocyte phenotypes and proliferation responses of individuals from remote areas who are infected with the human immunodeficiency virus. Minor modifications in standard whole blood procedure for lymphocyte phenotyping have significantly increased the stability of light scatter and fluorescence intensity of the cells for subsequent flow cytometry (FC) analysis. These changes include removal of lysis solution prior to fixation, fixation of monoclonal antibody-stained cells in 1% paraformaldehyde for 30 minutes and storage of fixed samples in medium containing 1% bovine serum albumin. Lymphocyte subsets and their functional subsets could reliably be determined on samples stored for up to 4 weeks. Further, blood samples could be kept at room temperature for up to 96 hours or at ambient temperature during transportation from Africa before staining for FC without affecting their quantitation. While samples could be processed for FC analysis under field-laboratory conditions, proliferation assays could only be performed on samples that were transported within 48 hours of their collection. The whole blood method saves time and expense and decreases the volumes of blood required to perform phenotypic analysis and functional assays on specimens collected in remote areas.

Flow cytometric evaluation of nitro blue tetrazolium (NBT) reduction in human polymorphonuclear leukocytes

Oxidative metabolic burst of activated human polymorphonuclear leukocytes (PMN) is most commonly investigated in clinical practice by evaluating nitroblue tetrazolium (NBT) reduction at the single cell level. Reduced NBT precipitates where the redox reaction has taken place and can be visualized as PMN-associated dark blue granules of formazan in light microscopy. Although widely used and not technically demanding, this method remains subjective and labor intensive, especially when large numbers of samples need to be investigated. We developed a new flow cytometry technique in which PMN membrane was rendered fluorescent by a short incubation with fluorescein-conjugated Concanavalin A. PMN were then incubated with NBT and increasing doses of a suitable stimulus, such as phorbol myristate acetate (PMA). Formazan has a distinct peak of absorption at 520 nm that represents the peak of emission of fluorescein. As a consequence, formazan quenches the PMN-associated fluorescence. Data show that a dose-dependent reduction of fluorescence can be obtained using graded amounts of PMA in normal PMN cultures. PMN-associated fluorescence remains unchanged in control patients with chronic granulomatous (CGD) disease, a disorder characterized by a selective impairment of PMN oxidative metabolism. Electronic cell size increases upon PMA incubation in normal PMN, irrespective of the presence of NBT. Conversely, forward light scatter intensity decreases in the presence, but not in the absence, of NBT indicating that the phenomenon is due to the capacity of formazan to absorb/scatter the incident light. The present method for easily detecting NBT reducing activity at single cell level by flow cytometry makes use of commonly available, inexpensive reagents and standard instrumentation. It could become a useful test for clinical purposes.

Cells with marrow and spleen repopulating ability and forming spleen colonies on day 16, 12, and 8 are sequentially ordered on the basis of increasing rhodamine 123 retention.

Mouse bone marrow cells (BMC) were subjected to countercurrent centrifugal elutriation and subsequently separated on the basis of light scatter and fluorescence intensity after being labeled with the supravital dye Rhodamine 123 (Rh-123). The sorted cells were then assayed for their in vivo spleen colony-forming ability (day -8, -12, and -16 CFU-S) and their ability to repopulate the bone marrow or spleen over a 13-day period with CFU-S-12, CFU-GM, or nucleated cells. Cells with marrow repopulating ability (MRA), as measured by the ability of the sorted cells to repopulate the marrow with secondary CFU-S-12 or CFU-GM, had low affinity for Rh-123. These cells showed minimal spleen colony-forming ability, and the ratio of MRA to CFU-S-12 in this preparation was 309. Cells with spleen repopulating ability (SRA), CFU-S-16, CFU-S-12, and CFU-S-8 retained increasing amounts of Rh-123, respectively, and CFU-S-8 were almost exclusively found among cells with high Rh-123 affinity. These cells also included about half of all day-12 CFU-S, and the ratio of MRA to day-12 CFU-S was 0. The results show that MRA cells, SRA cells, CFU-S-16, CFU-S-12, and CFU-S-8 can be sequentially ordered on the basis of increasing mitochondrial activity. The data also demonstrate for the first time, and without the application of negative selection by the use of cytostatic agents, that MRA cells are a separate class of primitive hemopoietic stem cells that fully meet the criteria of pre-CFU-S.

An EPROM-based programmable contour generator for use in flow cytometry.

An erasable programmable read-only memory (EPROM) contour generator has been fabricated to produce contours for use in flow cytometry. Contours are analog waveforms representing the fluorescence or light-scatter intensity distribution along a cell or object. The generator has particular utility in the development and testing of slit-scan instrumentation and analysis algorithms. Contours are generated without the requirement of specimens or full operation of the flow instrumentation. The generator provides control of contour height, width, offset, and rate. The EPROM may be custom programmed to produce contours for specific test applications or for reproducing "real" contour events. The generator is useful in situations where constant repetitive contours of predetermined characteristics are required.

Quantitative flow cytometric and clonogenic evaluation of glass bead affinity fractionation of antibody-labeled murine bone marrow

Monoclonal antibodies and a glass bead affinity fractionation technique were used to selectively deplete subpopulations of murine bone marrow cells. Flow cytometric analyses permitted quantitative measurement of subpopulation depletion and characterization (light scatter and fluorescence intensity) of both the eluted and bound cell subpopulations. Mouse bone marrow cells were labeled with selected monoclonal rat anti-mouse antibodies directed against cell surface antigens and were eluted through a glass bead column coated with goat anti-rat immunoglobulin. Unlabeled cells passed through the column, whereas cells labelled with the antibody were selectively retained. Column operating conditions for optimal depletion of labeled cells were determined. With specific column conditions, 97% of the antibody positive cells were retained on the column. In addition, clonogenic assays on cells sorted from unfractionated and column fractionated preparations provided estimates of the fraction of granulocyte macrophage progenitors (CFU-GM) in the different cell subpopulations. The enrichment of CFU-GM achieved in the eluted cell populations was dependent upon the antibody used for cell labeling and ranged from four- to six-fold. Since large numbers of cells can be processed rapidly, this technique, in combination with antibodies specific for non-clonogenic cells, is particularly suitable when preparations enriched in colony-forming progenitors are required.

Anomalous behaviour of forward and perpendicular light scattering of a cyanobacterium owing to intracellular gas vacuoles.

Extinction, absorption, and forward and perpendicular light scatter of the blue-green alga Microcystis aeruginosa with different amounts of intracellular gas vacuoles were determined. The amount of gas vacuoles in the cells was controlled by application of pressure. The presence of the gas vacuoles caused a tenfold increase in perpendicular light scatter, and a fivefold decrease in forward light scatter as measured by flow cytometry. Chlorophyll fluorescence showed a 16% decrease. The presence of gas vacuoles did not affect the size of the algae. The absorption spectrum of Microcystis aeruginosa was slightly raised but practically not distorted by the gas vacuoles. The attenuation spectrum, a measure for light extinction by the algal cells, was significantly distorted. The increase of perpendicular light scatter intensity of the cells is a direct consequence of the relatively high scatter of each vacuole, whereas the forward light scatter decrease is attributed to a lower phase-shift factor rho of the whole cells, caused by the intact gas vacuoles.

Flow Cytometric Measurement of Rat Lymphocyte Subpopulations After Burn Injury and Burn Injury With Infection

Increased infection rates in burned patients may result from a disproportionate increase in the suppressor subpopulations. Measurement of lymphocyte subpopulations is difficult in burned patients because gradient-purified cells are contaminated by nonlymphoid cells. The accuracy of flow cytometric subpopulation analysis was improved by restricting (gating) the analysis to cells with light-scatter intensity typical of lymphocytes. Blood was obtained 48 hours after burn from rats receiving no burns, 30% scald burns, or burns seeded with Pseudomonas aeruginosa to induce infection. Subpopulations were identified by monoclonal antibodies to T-lymphocyte antigens. Gating increased the values obtained for most subpopulations, but the relative differences between groups were unchanged. Burned and infected animals, but not animals burned only, had a decreased ratio of helper to suppressor lymphocytes (HSR) relative to control. A decreased HSR correlated with sepsis, but not with infection susceptibility. This suggests that a decrease in HSR may be a result of infection rather than a cause of susceptibility to infection.

Light scatter study of the process of formation of the microheterogeneous structure of network polymers based on oligoester acrylates

The light scattering method has been used to investigate the process of formation of the microheterogeneous structure of dense network polymers based on oligoester acrylates. The character of the change in the intensity of light scatter and the mean size of the scattering centres in the course of radically initiated polymerization of TGM-3 allows one to consider most reliable the following evolution of the structure of the reaction medium: oligomer→polymer solution in the oligomer→gel with polymer coils in the nodes of the spatial network→gel with heterogeneous polymer grains in the nodes of the same network→microheterogeneous polymer.

A quantitative study of the development of type II pneumocytes in fetal lung.

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.

A fractionation procedure of mouse bone marrow cells yielding exclusively pluripotent stem cells and committed progenitors

The cell surface phenotype of pluripotent hemopoietic stem cells (CFU-S) and committed progenitors (CFU-C1, CFU-C2, BFU-E) of mouse bone marrow was analyzed with respect to their binding of wheat germ agglutinin (WGA) and two monoclonal antibodies, anti-GM-1.2 and anti-PGP-1. Stained cells were fractionated on the basis of differences in fluorescence and light scatter intensity using a light-activated cell sorter. The 6% of the cells that bound most WGA and that also had a relatively high forward light scatter (FLS) and low perpendicular light scatter (PLS) contained nearly all stem cells (CFU-S) and progenitors. Anti-GM-1.2 stained only mature myeloid cells, not CFU-S or the in vitro colony-forming cells. Anti-PGP-1 stained all bone marrow cells in varying intensities: lymphoid cells were dull, CFU-S were intermediate, CFU-C2 were brighter, and mature myeloid cells very bright. Enrichment of progenitor cells was performed by a two-step sorting procedure. First, the 6% most WGA-binding cells with high FLS and low PLS were sorted out. A 10-15-fold enrichment of progenitors and CFU-S was obtained. Next, these cells were restained with anti-GM-1.2 or anti-PGP-1 and again fractionated on the FACS. The GM-1.2-negative cells were then another four- to sevenfold more enriched for stem cells and progenitors. Of the cells in this fraction, 95% could be assigned to a colony-forming unit. With anti-PGP-1, CFU-C2 could be partly separated from more early cells such as CFU-S and BFU-E.

Analysis of human platelet glycoproteins IIb-IIIa and Glanzmann's thrombasthenia in whole blood by flow cytometry

Antibodies that bind to human platelet membrane glycoproteins IIb and IIIa were used to develop methods for analyzing platelet membrane components by flow cytometry. Platelets were tentatively identified by their low-intensity light scatter profiles in whole blood or platelet- rich plasma preparations. Identification of this cell population as platelets was verified by using platelet-specific antibodies and fluorescein-conjugated antiimmunoglobulin. Two-parameter analysis of light scatter versus fluorescence intensity identified greater than 98% of the cells in the “platelet” light scatter profile as platelets due to their acquired fluorescence. Both platelet-rich plasma and whole blood were used to study platelet membrane glycoproteins IIb and IIIa on a single cell basis in an unwashed system. Prostacycline was included in these preparations as a precautionary step to inhibit platelet aggregation during analysis. Flow cytometry is a successful technique for rapid detection of platelet membrane defects such as Glanzmann's thrombasthenia. Platelets from Glanzmann's thrombasthenic individuals were readily distinguished from platelets with normal levels of glycoprotein IIb and IIIa and from platelets with glycoprotein levels characteristic of heterozygote carriers of this disorder. This technique provides a sensitive tool for investigating platelet functional defects due to altered expression or deficiency of platelet surface proteins.

Analysis of Human Platelet Glycoproteins IIb-IIIa and Glanzmann’s Thrombasthenia in Whole Blood by Flow Cytometry

Antibodies that bind to human platelet membrane glycoproteins IIb and IIIa were used to develop methods for analyzing platelet membrane components by flow cytometry. Platelets were tentatively identified by their low-intensity light scatter profiles in whole blood or platelet-rich plasma preparations. Identification of this cell population as platelets was verified by using platelet-specific antibodies and fluorescein-conjugated antiimmunoglobulin. Two-parameter analysis of light scatter versus fluorescence intensity identified greater than 98% of the cells in the "platelet" light scatter profile as platelets due to their acquired fluorescence. Both platelet-rich plasma and whole blood were used to study platelet membrane glycoproteins IIb and IIIa on a single cell basis in an unwashed system. Prostacycline was included in these preparations as a precautionary step to inhibit platelet aggregation during analysis. Flow cytometry is a successful technique for rapid detection of platelet membrane defects such as Glanzmann's thrombasthenia. Platelets from Glanzmann's thrombasthenic individuals were readily distinguished from platelets with normal levels of glycoprotein IIb and IIIa and from platelets with glycoprotein levels characteristic of heterozygote carriers of this disorder. This technique provides a sensitive tool for investigating platelet functional defects due to altered expression or deficiency of platelet surface proteins.

Relative real refractive index of marine microorganisms: a technique for flow cytometric estimation

A flow cytometer was used to estimate the relative real refractive indices of six species of phytoplankton cells. Light scatter measurements at 90° and a near-forward region (1.5–19°) were made with hydrocarbon dispersions and a glass bead suspension having known refractive indices. The ratios of the intensity of light scatter in these two angular regions for these standards was found (and can be shown, theoretically) to be proportional to the refractive index of the material. Using these calibration materials, light scatter measurements of individual phytoplankton cells yielded estimates of the relative refractive indices of these algae. These measurements are well within the historically accepted range of algal refractive indices, however, a significant degree of interspecific variability exists. The resolution of this technique to measure relative real refractive index (±0.005) represents a new capability in the assessment of optical properties of marine particulates.