Alice L. Givan

Flow Cytometric Analysis of Leukocytes in the Human Female Reproductive Tract: Comparison of Fallopian Tube, Uterus, Cervix, and Vagina

PROBLEM: The tissues of the human female reproductive tract (Fallopian tube, uterus, cervix, and vagina) may play different roles in the provision of mucosal immunity. The purpose of this study was to develop a uniform method suitable for quantitative comparison of the leukocytes from all these tissues.

Endotoxin induces rapid metalloproteinase-mediated shedding followed by up-regulation of the monocyte hemoglobin scavenger receptor CD163

CD163, a monocyte and macrophage‐specific surface glycoprotein, which is increased by interleukin‐10 and glucocorticoids, is a scavenger receptor for hemoglobin/haptoglobin complexes. We report a rapid and highly reproducible rise in soluble CD163 in the plasma of human volunteers given intravenous lipopolysaccharide (LPS). We also show that LPS induces shedding of CD163 from the surface of isolated monocytes, identifying shedding from monocytes and macrophages as a likely mechanism for the endotoxemia‐associated rise in plasma CD163 in vivo. Studies using the inhibitor TAPI‐0 indicate that a metalloproteinase is responsible for LPS‐mediated shedding of CD163. Finally, we demonstrate a marked increase in surface CD163 expression on circulating monocytes 24 h following experimental endotoxemia. These findings show that CD163 is rapidly mobilized in response to bacterial endotoxin. As hemoglobin can bind LPS and enhance its toxicity, it will be important to determine how cell surface and soluble CD163 influence inflammatory processes during sepsis.

A flow cytometric method to estimate the precursor frequencies of cells proliferating in response to specific antigens

Fluorescent dyes that stain cell membranes or cytoplasm and then partition between daughter cells at division have been used in conjunction with flow cytometry to measure the proliferation of cells. In this paper, using peripheral blood mononuclear cells responding to tetanus toxoid, we describe an extension of this dye methodology to calculate the precursor frequency of antigen-specific T-cells. With mathematical deconvolution of the fluorescence histograms providing information about the proportion of cells in each of the daughter generations, information can be derived about the precursor frequency of cells in the original population that responded to the specific stimulus. Data from a model system with different proportions of fixed and viable cells indicate that the flow method returns accurate values for precursor frequency. Based on the characteristics of flow cytometric data acquisition, it is estimated that the flow method could detect proliferation of cells that represented, before addition of the stimulus, approximately 1/10(5) of the population. When comparing results to those from the limiting dilution technique, the flow cytometric method returns values that indicate higher precursor frequencies. Possible reasons for this discrepancy are discussed. The flow cytometric method offers the advantage of simplicity as well as the additional ability to phenotype the responding cells and determine their rate of proliferation. The flow method may find use as a simple, routine assay in the fields of allergy, transplant rejection, and autoimmunity and for quantitating responses to vaccination and cancer immunotherapy.

Insulin increases neutrophil count and phagocytic capacity after cardiac surgery

We previously reported that a continuous insulin infusion improves neutrophil phagocytic function after cardiac surgery in diabetic patients. These data suggested that hyperglycemia impairs neutrophil function, and because nondiabetic patients also experience hyperglycemia during cardiac surgery, we hypothesized that a continuous insulin infusion would improve glucose control and neutrophil function in nondiabetic cardiac surgical patients. Patients were randomized to receive either no insulin (Control group) or a continuous insulin infusion (Insulin group), with glucose measurements every 10 min during cardiopulmonary bypass (CPB). Blood glucose was significantly lower in the Insulin group immediately after surgery but not during surgery. When assessed as the percentage of phagocytic cells, neutrophil function was similar in the Control and Insulin groups at baseline (55% and 57%, respectively) and after CPB (38% and 43%, respectively). However, a quantitative determination of neutrophil phagocytic activity showed that whole blood neutrophil phagocytic capacity increased significantly in both groups at 60 min after CPB when compared with their respective baseline values and that the increase in total neutrophil phagocytic capacity was significantly more in the Insulin group compared with the Control group (P = 0.036). This observation was primarily due to a larger increase in the peripheral blood neutrophil count and not to increased activation of neutrophils.

Flow Cytometry: An Introduction

A flow cytometer is an instrument that illuminates cells (or other particles) as they flow individually in front of a light source and then detects and correlates the signals from those cells that result from the illumination. In this chapter, each of the aspects of that definition will be described: the characteristics of cells suitable for flow cytometry, methods to illuminate cells, the use of fluidics to guide the cells individually past the illuminating beam, the types of signals emitted by the cells and the detection of those signals, the conversion of light signals to digital data, and the use of computers to correlate and analyze the data after they are stored in a data file. The final section of the chapter will discuss the use of a flow cytometer to sort cells. This chapter can be read as a brief, self-contained survey. It can also be read as a gateway with signposts into the field. Other chapters in this book will provide more details, more references, and even an intriguing view of the future of cytometry.

Mucosal immunity in the human female reproductive tract : Cytotoxic T lymphocyte function in the cervix and vagina of premenopausal and postmenopausal women

PROBLEM: To investigate the mucosal immune system in the cervix and vagina of premenopausal women in terms of immune cells present and cytolytic capacity of mucosal CD3+ T cells in the lower reproductive tract.

Decreased physiologic variability as a generalized response to human endotoxemia

Objective:To test the effect in normal human volunteers of transient systemic inflammation on the variability in time-series behaviors of widely divergent physiologic measures of the human inflammatory response. Design:Prospective study of human volunteers who were tested on 2 consecutive days, a control day and a treatment day. Each participant served as his or her own control. Setting:Critical care facility of a university medical center. Subjects:Subjects were eight healthy human volunteers. Interventions:Participant subjects were tested on both a baseline day with no intervention and on a treatment day when they received 4 ng/kg intravenous Escherichia coli endotoxin. Measurements and Main Results:Continuous electrocardiographic recordings and serial blood sampling (performed every 5 mins) were used to create time-series of heart rate (R-R intervals), neutrophil function (phagocytosis), and plasma cortisol concentrations. For each primary measure, we recorded a significant increase in the regularity (decreased variability) of the functional measurement as assessed by the statistical entity, approximate entropy. Conclusions:Increased regularity, or decreased variability, of organ functions is a generalized response to systemic inflammation that occurs in widely divergent systems during endotoxemia.

Chapter 2 Principles of flow cytometry: An overview

Publisher Summary This chapter presents a cohesive overview of the theory of flow cytometric instrumentation; the chapter cites a selection of representative references from the literature and describes a generalized flow cytometer in an attempt to provide an introduction into the field—with the background necessary for a critical understanding of the strengths, pitfalls, and potential of this technique and its applications. Flow cytometry is a system for detecting and then analyzing the light signals generated by particles as they flow in a liquid stream past an illuminating beam. By this definition, it is apparent that a chapter providing a description of flow cytometry will involve a confluence of the disciplines of electronics (detecting); computational data analysis (analyzing); optics (light signals, illuminating beam); and fluidics (flow in a liquid stream). The power of flow cytometry comes from rapid, objective, and quantitative computing, allowing calculations, correlations, and statistical conclusions from those few numbers derived from each of many cells.

Multiparameter precursor analysis of T-cell responses to antigen

Triggering of the T-cell receptor by cognate antigen induces a variety of cellular events leading to cell proliferation and differentiation. While the plasticity and diversity of T-cell responses have been recognized for a long time, few quantitative studies have been conducted to measure what proportion of specific T cells will enter a given differentiation program after antigen stimulation. In the present study, we analyzed human T cells cultured with influenza-peptide-loaded dendritic cells. We compared three individual methods for assaying the frequency of antigen-specific T cells: ELISPOT, tetramer-binding, and proliferation. The three methods yielded similar but not identical results. In order to study these differences at the single cell level, we developed a multiparameter flow cytometric method, which allows simultaneous analysis of antigen-specific tetramer binding, T-cell proliferation, and cytokine production. Based on these data, we used flow precursor frequency analysis to calculate the proportion of eight different precursor subsets in the original, resting population. We conclude that approximately half of the cells that bound specific tetramers actually proliferated and synthesized IFNgamma in response to antigen. In addition, similar numbers of cells that did not bind tetramer proliferated (but did not synthesize IFNgamma). The method allows for an estimate of the precursor frequency of each functional subset within the initial population. It could be applied to additional markers of function and differentiation, combining all parameters into a description of the complex response potential of a T-cell pool.

Bispecific antibody-targeted phagocytosis of HER-2/neu expressing tumor cells by myeloid cells activated in vivo.

Studies from our laboratory and others have established that both mononuclear phagocytes and neutrophils mediate very efficient cytotoxicity when targeted through Fc receptors using a suitable monoclonal or bispecific antibody (BsAb). Cross-linking an Fc receptor for IgG (FcgammaR) triggers multiple anti-tumor activities including superoxide generation, cytokine and enzyme release, phagocytosis and antibody-dependent cellular cytotoxicity (ADCC). In this report, using unfractionated leukocytes and two color flow cytometric analysis, we describe the phagocytic capacity of peripheral blood polymorphonuclear cells (PMN) and monocytes isolated from patients enrolled in a phase I clinical trial of MDX-H210 given in combination with IFNgamma. MDX-H210 is a BsAb targeting the myeloid trigger molecule FcgammaRI and the HER-2/neu proto-oncogene product overexpressed on a variety of adenocarcinomas. In this trial, cohorts of patients received escalating doses of MDX-H210 3 times per week for 3 weeks. Interferon-gamma (IFNgamma) was given 24 h prior to each BsAb infusion. Our results demonstrate that monocytes from these patients were inherently capable of phagocytosing the HER-2/neu positive SK-BR-3 cell line and that addition of MDX-H210 into the assay significantly enhanced the number of targets phagocytosed. Two days after administration of an immunologically active dose of MDX-H210 (10 mg/m2), monocytes from these patients were able to phagocytose greater amounts of target cell material, indicating that these cells remained armed with functionally sufficient BsAb for at least 48 h. PMN from these patients very efficiently mediated phagocytosis through FcgammaRI after being treated with IFNgamma, but not before. We conclude that phagocytosis is not only an efficient mechanism of myeloid cell-mediated cytotoxicity, but may also be a mechanism by which antigens from phagocytosed cells can enter a professional antigen presenting cell for processing and presentation.