Your search keyword '"Weller, Peter Fahey"' showing total 42 results

1. The transcription factor XBP1 is selectively required for eosinophil differentiation

Author

Bettigole, Sarah Elizabeth, Lis, Raphael, Adoro, Stanley, Lee, Ann-Hwee, Spencer, Lisa Ann, Weller, Peter Fahey, and Glimcher, Laurie Hollis

Abstract

The transcription factor XBP1 has been linked to the development of highly secretory tissues such as plasma cells and Paneth cells, yet its function in granulocyte maturation has remained unknown. Here we discovered an unexpectedly selective and absolute requirement for XBP1 in eosinophil differentiation without an effect on the survival of basophils or neutrophils. Progenitors of myeloid cells and eosinophils selectively activated the endoribonuclease IRE1α and spliced Xbp1 mRNA without inducing parallel endoplasmic reticulum (ER) stress signaling pathways. Without XBP1, nascent eosinophils exhibited massive defects in the post-translational maturation of key granule proteins required for survival, and these unresolvable structural defects fed back to suppress critical aspects of the transcriptional developmental program. Hence, we present evidence that granulocyte subsets can be distinguished by their differential reliance on secretory-pathway homeostasis.

Published

2015

2. Unraveling the complexity of lipid body organelles in human eosinophils

Author

Melo, Rossana and Weller, Peter Fahey

Subjects

cell activation, eicosanoids, electron microscopy, immune responses, inflammation, lipid droplets

Abstract

Lipid-rich organelles are common in many cell types. In cells, such as adipocytes, these organelles are termed LDs, whereas in other cells, such as leukocytes, they are called LBs. The study of leukocyte LBs has attracted attention as a result of their association with human diseases. In leukocytes, such as eosinophils, LB accumulation has been documented extensively during inflammatory conditions. In these cells, LBs are linked to the regulation of immune responses by compartmentalization of several proteins and lipids involved in the control and biosynthesis of inflammatory mediators (eicosanoids). However, it has been unclear how diverse proteins, including membrane-associated enzymes involved in eicosanoid formation, incorporate into LBs, especially if the internal content of LBs is assumed to consist solely of stores of neutral lipids, as present within adipocyte LDs. Studies of the formation, function, and ultrastructure of LBs in eosinophils have been providing insights pertinent to LBs in other leukocytes. Here, we review current knowledge of the composition and function of leukocyte LBs as provided by studies of human eosinophil LBs, including recognitions of the internal architecture of eosinophil LBs based on 3D electron tomographic analyses.

Published

2014

3. Pre-embedding immunogold labeling to optimize protein localization at subcellular compartments and membrane microdomains of leukocytes

Author

Melo, Rossana, Morgan, Ellen, Monahan-Earley, Rita, Dvorak, Ann Marie, and Weller, Peter Fahey

Abstract

Precise immunolocalization of proteins within a cell is central to understanding cell processes and functions such as intracellular trafficking and secretion of molecules during immune responses. Here we describe a protocol for ultrastructural detection of proteins in leukocytes. The method uses a pre-embedding approach (immunolabeling before standard processing for transmission electron microscopy (TEM)). This protocol combines several strategies for ultrastructure and antigen preservation, robust blocking of nonspecific binding sites, as well as superior antibody penetration for detecting molecules at subcellular compartments and membrane microdomains. A further advantage of this technique is that electron microscopy (EM) processing is quick. This method has been used to study leukocyte biology, and it has helped demonstrate how activated leukocytes deliver specific cargos. It may also potentially be applied to a variety of different cell types. Excluding the initial time required for sample preparation (15 h) and the final resin polymerization step (16 h), the protocol (immunolabeling and EM procedures) can be completed in 8 h.

Published

2014

4. Eosinophil purification from peripheral blood

Author

Akuthota, Praveen, Capron, Kelsey, and Weller, Peter Fahey

Subjects

humans, eosinophils, granulocytes, cell separation/instrumentation, cell separation/methods

Abstract

Eosinophils are granulocytes integral to allergic inflammation and parasitic responses and comprise 1-4 % of the circulating leukocytes in human beings under normal conditions. Isolation of human eosinophils allows for ex vivo and in vitro experimentation, providing a valuable tool for the study of allergic mechanisms. Here, we describe a technique for the isolation of human eosinophils by negative selection from whole blood obtained by venipuncture.

Published

2014

5. The Internal Architecture of Leukocyte Lipid Body Organelles Captured by Three-Dimensional Electron Microscopy Tomography

Author

Melo, Rossana C. N., Paganoti, Guillherme F., Dvorak, Ann Marie, and Weller, Peter Fahey

Subjects

Biology, Immunology, Immune System, Cytokines, Immunity, Immune Activation, Inflammation, Innate Immunity, Immune Response, Immunomodulation, Molecular Cell Biology, Cellular Structures, Subcellular Organelles, Cellular Types, Immune Cells, Medicine, Hematology, White Cells

Abstract

Lipid bodies (LBs), also known as lipid droplets, are complex organelles of all eukaryotic cells linked to a variety of biological functions as well as to the development of human diseases. In cells from the immune system, such as eosinophils, neutrophils and macrophages, LBs are rapidly formed in the cytoplasm in response to inflammatory and infectious diseases and are sites of synthesis of eicosanoid lipid mediators. However, little is known about the structural organization of these organelles. It is unclear whether leukocyte LBs contain a hydrophobic core of neutral lipids as found in lipid droplets from adipocytes and how diverse proteins, including enzymes involved in eicosanoid formation, incorporate into LBs. Here, leukocyte LB ultrastructure was studied in detail by conventional transmission electron microscopy (TEM), immunogold EM and electron tomography. By careful analysis of the two-dimensional ultrastructure of LBs from human blood eosinophils under different conditions, we identified membranous structures within LBs in both resting and activated cells. Cyclooxygenase, a membrane inserted protein that catalyzes the first step in prostaglandin synthesis, was localized throughout the internum of LBs. We used fully automated dual-axis electron tomography to study the three-dimensional architecture of LBs in high resolution. By tracking 4 nm-thick serial digital sections we found that leukocyte LBs enclose an intricate system of membranes within their “cores”. After computational reconstruction, we showed that these membranes are organized as a network of tubules which resemble the endoplasmic reticulum (ER). Our findings explain how membrane-bound proteins interact and are spatially arranged within LB “cores” and support a model for LB formation by incorporating cytoplasmic membranes of the ER, instead of the conventional view that LBs emerge from the ER leaflets. This is important to understand the functional capabilities of leukocyte LBs in health and during diverse diseases in which these organelles are functionally involved.

Published

2013

6. Contemporary consensus proposal on criteria and classification of eosinophilic disorders and related syndromes

Author

Valent, Peter, Klion, Amy D., Horny, Hans-Peter, Roufosse, Florence, Gotlib, Jason, Weller, Peter Fahey, Hellmann, Andrzej, Metzgeroth, Georgia, Leiferman, Kristin M., Arock, Michel, Butterfield, Joseph H., Sperr, Wolfgang R., Sotlar, Karl, Vandenberghe, Peter, Haferlach, Torsten, Simon, Hans-Uwe, Reiter, Andreas, and Gleich, Gerald J.

Subjects

Hypereosinophilic syndrome, eosinophilic leukemia, criteria, classification, hypereosinophilia of undetermined significance

Abstract

Eosinophilia is an important indicator of various neoplastic and nonneoplastic conditions. Depending on the underlying disease and mechanisms, eosinophil infiltration can lead to organ dysfunction, clinical symptoms, or both. During the past 2 decades, several different classifications of eosinophilic disorders and related syndromes have been proposed in various fields of medicine. Although criteria and definitions are, in part, overlapping, no global consensus has been presented to date. The Year 2011 Working Conference on Eosinophil Disorders and Syndromes was organized to update and refine the criteria and definitions for eosinophilic disorders and to merge prior classifications in a contemporary multidisciplinary schema. A panel of experts from the fields of immunology, allergy, hematology, and pathology contributed to this project. The expert group agreed on unifying terminologies and criteria and a classification that delineates various forms of hypereosinophilia, including primary and secondary variants based on specific hematologic and immunologic conditions, and various forms of the hypereosinophilic syndrome. For patients in whom no underlying disease or hypereosinophilic syndrome is found, the term hypereosinophilia of undetermined significance is introduced. The proposed novel criteria, definitions, and terminologies should assist in daily practice, as well as in the preparation and conduct of clinical trials.

Published

2012

7. Eosinophils and disease pathogenesis

Author

Akuthota, Praveen and Weller, Peter Fahey

Abstract

Eosinophils are granulocytic innate immune cells whose presence is conspicuous in a variety of disease states, including eosinophilic hyperproliferative and infiltrative processes, as well as conditions associated with maladaptive Th2 inflammation. This review discusses the role of eosinophils in disease pathogenesis, including a consideration of relevant eosinophil biology. Eosinophilic disease patterns of tissue infiltration are also detailed, as are candidate mechanisms by which eosinophils cause fibrosis and hypercoagulability and the importance of eosinophils in allergic inflammation. Eosinophils are unique cells in their spectrum of associated disease, with the promise of future discoveries in delineating the manner in which they contribute to disease pathogenesis.

Published

2012

8. Pathogenesis and classification of eosinophil disorders: a review of recent developments in the field

Author

Valent, Peter, Gleich, Gerald J, Reiter, Andreas, Roufosse, Florence, Weller, Peter Fahey, Hellmann, Andrzej, Metzgeroth, Georgia, Leiferman, Kristin M, Arock, Michel, Sotlar, Karl, Butterfield, Joseph H, Cerny-Reiterer, Sabine, Mayerhofer, Matthias, Vandenberghe, Peter, Haferlach, Torsten, Bochner, Bruce S, Gotlib, Jason, Horny, Hans-Peter, Simon, Hans-Uwe, and Klion, Amy D

Subjects

classification, eosinophilic leukemia, FIP1L1-PDGFRA, hypereosinophilia, hypereosinophilic syndromes, targeted therapy

Abstract

Eosinophils and their products play an essential role in the pathogenesis of various reactive and neoplastic disorders. Depending on the underlying disease, molecular defect and involved cytokines, hypereosinophilia may develop and may lead to organ damage. In other patients, persistent eosinophilia is accompanied by typical clinical findings, but the causative role and impact of eosinophilia remain uncertain. For patients with eosinophil-mediated organ pathology, early therapeutic intervention with agents reducing eosinophil counts can be effective in limiting or preventing irreversible organ damage. Therefore, it is important to approach eosinophil disorders and related syndromes early by using established criteria, to perform all appropriate staging investigations, and to search for molecular targets of therapy. In this article, we review current concepts in the pathogenesis and evolution of eosinophilia and eosinophil-related organ damage in neoplastic and non-neoplastic conditions. In addition, we discuss classifications of eosinophil disorders and related syndromes as well as diagnostic algorithms and standard treatment for various eosinophil-related disorders.

Published

2012

9. Novel targeted therapies for eosinophilic disorders

Author

Wechsler, Michael E., Fulkerson, Patricia C., Bochner, Bruce S., Gauvreau, Gail M., Gleich, Gerald J., Henkel, Tim, Kolbeck, Roland, Mathur, Sameer K., Ortega, Hector, Patel, Jatin, Prussin, Calman, Renzi, Paolo, Rothenberg, Marc E., Roufosse, Florence, Simon, Dagmar, Simon, Hans-Uwe, Wardlaw, Andrew, Weller, Peter Fahey, and Klion, Amy D.

Subjects

Hypereosinophilic syndromes, eosinophil-associated gastrointestinal disorders, eosinophilic esophagitis, Churg-Strauss syndrome, IL-5, mepolizumab, reslizumab

Abstract

Hypereosinophilic syndromes (HESs) are a diverse group of conditions characterized by clinical manifestations attributable to eosinophilia and eosinophilic infiltration of tissues. HESs are chronic disorders with significant morbidity and mortality. Although the availability of targeted chemotherapeutic agents, including imatinib, has improved quality of life and survival in some patients with HESs, additional agents with increased efficacy and decreased toxicity are sorely needed. The purpose of this review is to provide an overview of eosinophil biology with an emphasis on potential targets of pharmacotherapy and to provide a summary of potential eosinophil-targeting agents, including those in development, in clinical trials, or approved for other disorders.

Published

2012

10. Workshop report from the National Institutes of Health Taskforce on the Research Needs of Eosinophil-Associated Diseases (TREAD)

Author

Bochner, Bruce S., Book, Wendy, Busse, William W., Butterfield, Joseph, Furuta, Glenn T., Gleich, Gerald J., Klion, Amy D., Lee, James J., Leiferman, Kristin M., Minnicozzi, Michael, Moqbel, Redwan, Rothenberg, Marc E., Schwartz, Lawrence B., Simon, Hans-Uwe, Wechsler, Michael E., and Weller, Peter Fahey

Subjects

eosinophil, apoptosis, therapeutics, research, discovery, fusion oncoproteins, hypereosinophilic syndromes, Churg-Strauss syndrome, coagulopathy

Abstract

BACKGROUND: Eosinophils are blood cells that are often found in high numbers in the tissues of allergic conditions and helminthic parasite infections. The pathophysiologic roles that eosinophils may serve in other human "eosinophil-associated" diseases remain obscure. OBJECTIVE: National Institutes of Health (NIH) Institutes and the Office of Disease Prevention assembled an international taskforce of clinical and basic scientists with the charge to propose and prioritize unmet research needs in eosinophil-associated diseases. METHODS: The taskforce used an organ system approach to identify the different and common themes of eosinophil cell involvement in these diseases. In early 2012, a draft document was circulated for review. The document was amended and the prioritizations were set at a NIH-organized workshop in June 2012. RESULTS: The taskforce identified significant research needs. These needs cross disease entities but some are disease specific. There are substantial shortcomings to the various preclinical animal models, as well as significant gaps in our epidemiologic, pathophysiologic, diagnostic, prognostic, and therapeutic knowledge. The taskforce recognized that recent efforts by patient advocacy groups have played instrumental roles in improving the identification and characterization of these disorders. However, communications among the eosinophil-interested communities, for example, governmental funding and regulatory agencies, and industry and clinician scientists need to be more comprehensive. CONCLUSIONS: Significant efforts are required to address our knowledge gaps to improve the outcomes of eosinophil-associated diseases. NIH Institutes, other federal agencies, lay organizations, and the pharmaceutical industry should consider the taskforce's recommendations in their future research activities.

Published

2012

11. Eosinophilic pneumonias

Author

Akuthota, P. and Weller, Peter Fahey

Abstract

This review starts with discussions of several infectious causes of eosinophilic pneumonia, which are almost exclusively parasitic in nature. Pulmonary infections due specifically to Ascaris, hookworms, Strongyloides, Paragonimus, filariasis, and Toxocara are considered in detail. The discussion then moves to noninfectious causes of eosinophilic pulmonary infiltration, including allergic sensitization to Aspergillus, acute and chronic eosinophilic pneumonias, Churg-Strauss syndrome, hypereosinophilic syndromes, and pulmonary eosinophilia due to exposure to specific medications or toxins.

Published

2012

12. Identifying Intracellular Sites of Eicosanoid Lipid Mediator Synthesis with EicosaCell Assays

Author

Bandeira-Melo, Christianne, Weller, Peter Fahey, and Bozza, Patricia T.

Abstract

Eicosanoids, arachidonic acid-derived signaling lipid mediators, are newly formed and nonstorable molecules that have important roles in physiological and pathological processes. EicosaCell is a microscopic assay that enables the intracellular detection and localization of eicosanoid lipid mediator-synthesizing compartments by means of a strategy to covalently cross-link and immobilize eicosanoids at their sites of synthesis followed by immunofluorescent-based localization of the targeted eicosanoid. EicosaCell is a versatile assay which allows analyses of different types of cell preparations, such as cells isolated from humans or harvested cells from in vivo models of inflammation and adherent or suspension cells stimulated in vitro. EicosaCell assays have been successfully used to identify different intracellular compartments of synthesis of prostaglandins and leukotrienes upon cellular activation. This is of particular interest given that over the past decade intracellular compartmentalization of eicosanoid-synthetic machinery has emerged both as a key component in the regulation of eicosanoid synthesis and in delineating functional intracellular and extracellular actions of eicosanoids. This review covers basics of EicosaCell assay including its selection of reagents, immunodetection design as well as some troubleshooting recommendations.

Published

2011

13. Cysteinyl leukotrienes acting via granule membrane-expressed receptors elicit secretion from within cell-free human eosinophil granules

Author

Neves, Josiane S., Radke, Amy L., and Weller, Peter Fahey

Abstract

Background—Cysteinyl leukotrienes are recognized to act via receptors (CysLTRs) expressed on cell surface plasma membranes. Agents that block CysLT1R, are therapeutics for allergic disorders. Eosinophils contain multiple preformed proteins stored within their intracellular granules. Cell-free eosinophil granules are present extracellularly as intact membrane-bound organelles in sites associated with eosinophil infiltration, including asthma, rhinitis and urticaria, but have unknown functional capabilities. Objective—We evaluated the expression of CysLTRs on eosinophil granule membranes and their functional roles in eliciting protein secretion from within eosinophil granules. Methods—We studied secretory responses of human eosinophil granules isolated by subcellular fractionation. Granules were stimulated with cysteinyl leukotrienes and eosinophil cationic protein and cytokines were measured in the supernatants. Receptor expression on granule membranes and eosinophils was evaluated by flow cytometry and western blot. Results—We report that receptors for cysteinyl leukotrienes, CysLT1R, CysLT2R and the purinergic P2Y12 receptor (P2Y12R), are expressed on eosinophil granule membranes. Leukotriene (LT) C4 and extracellularly generated LTD4 and LTE4 stimulated isolated eosinophil granules to secrete eosinophil cationic protein. MRS 2395, a P2Y12R antagonist, inhibited cysteinyl leukotrienes-induced eosinophil cationic protein release. Montelukast, likely not solely as an inhibitor of CysLT1R, inhibited eosinophil cationic protein release elicited by LTC4 and LTD4 as well as by LTE4. Conclusion—These studies identify previously unrecognized sites of localization, the membranes of intracellular eosinophil granule organelles, and function for cysteinyl leukotriene-responsive receptors that mediate cysteinyl leukotriene-stimulated secretion from within eosinophil granules, including those present extracellularly.

Published

2010

14. Practical approach to the patient with hypereosinophilia

Author

Roufosse, Florence and Weller, Peter Fahey

Abstract

Markedly increased blood eosinophilia (ie, ≥1.5 × 109/L), whether discovered fortuitously or found with signs and symptoms of associated organ involvement, commands diagnostic evaluation and often therapeutic interventions. This degree of hypereosinophilia is often but not uniformly associated with eosinophilic infiltration of tissues that can potentially lead to irreversible, life-threatening organ damage. Initial approaches focus on ascertaining that eosinophilia is not secondary to other underlying disease processes, including helminthic parasite infections, varied types of adverse reactions to medications, and other eosinophil-associated syndromes, such as eosinophilic gastroenteritides, eosinophilic pneumonias, and Churg-Strauss syndrome vasculitis. If evaluations exclude eosinophilia attributable to secondary causes or other eosinophil-related syndromes or organ-specific diseases, attention must be directed to considerations of varied other forms of the hypereosinophilic syndromes, which include myeloproliferative variants, lymphocytic variants, and many of still unknown causes. Cognizant of the capacitaies of eosinophils to mediate tissue damage, the varied causes for hypereosinophilia are considered, and a contemporary stepwise practical approach to the diagnosis and treatment of patients with hypereosinophilia is presented.

Published

2010

15. Eosinophils and Th2 immunity: contemporary insights

Author

Spencer, Lisa Ann and Weller, Peter Fahey

Abstract

Eosinophils, innate immune leukocytes elicited by Th2 cells, have long been associated with the effector arm of Th2 immune responses. However, accumulating data over the past decade reveal a much more dynamic picture of Th2 immunity, where eosinophils are present very early in response to Th2-inducing agents and function in the initiation of Th2 immunity. Here we discuss recent data showing immune functions of eosinophils distinct from their previously appreciated tissue- and helminth-destructive capacities, providing strong evidence for a new paradigm of Th2 immunity defined by a dynamic interplay between eosinophils and T cells.

Published

2010

16. Eosinophils as antigen-presenting cells in allergic upper airway disease

Author

Akuthota, Praveen, Wang, Haibin, and Weller, Peter Fahey

Abstract

Purpose of Review—The recognition of eosinophils as complex immunomodulatory cells has been increasing in recent years. One prominent novel immunomodulatory function of eosinophils is their role as antigen presenting cells (APCs). This review will examine the evidence that has enhanced the understanding of eosinophils as APCs in the context of allergic inflammation, with a focus on data applicable to allergic upper airway disease. Recent Findings—Recent studies expand on prior findings that eosinophils can express MHC Class II and co-stimulatory molecules. Eosinophils have also been found to traffic to regional lymph nodes and act as professional APCs in various experimental settings. Summary Accumulating evidence of the ability of eosinophils to act as APCs suggests that eosinophils may have more complex immunomodulatory roles in allergic upper airway disease than previously appreciated.

Published

2010

17. Contributions of Electron Microscopy to Understand Secretion of Immune Mediators by Human Eosinophils

Author

Melo, Rossana C.N., Dvorak, Ann M., and Weller, Peter Fahey

Abstract

Mechanisms governing secretion of proteins underlie the biologic activities and functions of human eosinophils, leukocytes of the innate immune system, involved in allergic, inflammatory, and immunoregulatory responses. In response to varied stimuli, eosinophils are recruited from the circulation into inflammatory foci, where they modulate immune responses through the release of granule-derived products. Transmission electron microscopy (TEM) is the only technique that can clearly identify and distinguish between different modes of cell secretion. In this review, we highlight the advances in understanding mechanisms of eosinophil secretion, based on TEM findings, that have been made over the past years and that have provided unprecedented insights into the functional capabilities of these cells.

Published

2010

18. Imaging Lipid Bodies Within Leukocytes with Different Light Microscopy Techniques

Author

Melo, Rossana C.N., D’Ávila, Heloisa, Bozza, Patricia T., and Weller, Peter Fahey

Abstract

Lipid bodies, also known as lipid droplets, are present in most eukaryotic cells. In leukocytes, lipid bodies are functionally active organelles with central roles in inflammation and are considered structural markers of inflammatory cells in a range of diseases. The identification of lipid bodies has methodological limitations because lipid bodies dissipate upon drying or dissolve upon fixation and staining with alcohol-based reagents. Here we discuss several techniques to detect and visualize lipid bodies within leukocytes by light microscopy. These techniques include staining with osmium or use of different fluorescent probes such as Nile red, BODIPY, Oil red, P96 and immunofluorescence labeling for adipose differentiation-related protein (ADRP).

Published

2010

19. EicosaCell – An Immunofluorescent-Based Assay to Localize Newly Synthesized Eicosanoid Lipid Mediators at Intracellular Sites

Author

Bandeira-Melo, Christianne, Weller, Peter Fahey, and Bozza, Patricia T.

Abstract

Eicosanoids (prostaglandins, leukotrienes and lipoxins) are a family of signaling lipids derived from arachidonic acid that have important roles in physiological and pathological processes. Over the past years, it has been established that successful eicosanoid production is not merely determined by arachidonic acid and eicosanoid-forming enzymes availability, but requires sequential interactions between specific biosynthetic proteins acting in cascade and may involve very unique spatial interactions. Direct assessment of specific subcellular locales of eicosanoid synthesis has been elusive, as those lipid mediators are newly formed, not stored and often rapidly released upon cell stimulation. In this chapter, we discuss the EicosaCell protocol for intracellular detection of eicosanoid-synthesizing compartments by means of a strategy to covalently cross-link and immobilize the lipid mediators at their sites of synthesis followed by immunofluorescent-based localization of the targeted eicosanoid.

Published

2010

20. Refining the definition of hypereosinophilic syndrome

Author

Simon, Hans-Uwe, Rothenberg, Marc E., Bochner, Bruce S., Weller, Peter Fahey, Wardlaw, Andrew J., Wechsler, Michael E., Rosenwasser, Lanny J., Roufosse, Florence, Gleich, Gerald J., and Klion, Amy D.

Subjects

Definition, eosinophilia, eosinophilic leukemia, hypereosinophilic syndromes

Abstract

Because of advances in our understanding of the hypereosinophilic syndrome (HES) and the availability of novel therapeutic agents, the original criteria defining these disorders are becoming increasingly problematic. Here, we discuss shortcomings with the current definition of HES and recent developments in the classification of these disorders. Despite significant progress in our understanding of the pathogenesis of some forms of HES, the current state of knowledge is still insufficient to formulate a new comprehensive etiologic definition of HESs. Nevertheless, we suggest a new working definition that overcomes some of the most obvious limitations with the original definition.

Published

2010

21. Molecular and Morphological Characterization of Piecemeal Degranulation in Human Neutrophil Azurophilic Granules

Author

Mahmudi-Azer, Salahaddin, Moqbel, Redwan, Paré, Peter D, Weller, Peter Fahey, and Dvorak, Ann Marie

Published

2010

22. Redefining Eosinophil Crystalloid Granules as a Potential New Functional Unit in Extracellular Inflammatory Events

Author

Mahmudi-Azer, Salahaddin, Moqbel, Redwan, Paré, Peter D, Weller, Peter Fahey, and Dvorak, Ann Marie

Published

2010

23. Vesicle-mediated secretion of human eosinophil granule-derived major basic protein

Author

Melo, Rossana, Spencer, Lisa Ann, Perez, Sandra A C, Neves, Josiane S, Bafford, Staci P, Morgan, Ellen S, Dvorak, Ann Marie, and Weller, Peter Fahey

Subjects

CD63, eosinophils, human, major basic protein, piecemeal degranulation, vesicular transport

Abstract

Major basic protein (MBP), the predominant cationic protein of human eosinophil specific granules, is stored within crystalloid cores of these granules. Secretion of MBP contributes to the immunopathogenesis of varied diseases. Prior electron microscopy (EM) of eosinophils in sites of inflammation noted losses of granule cores in the absence of granule exocytosis and suggested that eosinophil granule proteins might be released through piecemeal degranulation (PMD), a secretory process mediated by transport vesicles. Because release of eosinophil granule-derived MBP through PMD has not been studied, we evaluated secretion of this cationic protein by human eosinophils. Intracellular localizations of MBP were studied within nonstimulated and eotaxin-stimulated human eosinophils by both immunofluorescence and a pre-embedding immunonanogold EM method that enables optimal epitope preservation and antigen access to membrane microdomains. In parallel, quantification of transport vesicles was assessed in eosinophils from a patient with hypereosinophilic syndrome (HES). Our data demonstrate vesicular trafficking of MBP within eotaxin-stimulated eosinophils. Vesicular compartments, previously implicated in transport from granules to the plasma membrane, including large vesiculotubular carriers termed eosinophil sombrero vesicles (EoSVs), were found to contain MBP. These secretory compartments were significantly increased in numbers within HES eosinophils. Moreover, in addition to granule-stored MBP, even unstimulated eosinophils contained appreciable amounts of MBP within secretory vesicles, as evidenced by immunonanogold EM and immunofluorescent colocalizations of MBP and CD63. These data suggest that eosinophil MBP, with its multiple extracellular activities, can be mobilized from granules by PMD into secretory vesicles and both granule- and secretory vesicle-stored pools of MBP are available for agonist-elicited secretion of MBP from human eosinophils. The recognition of PMD as a secretory process to release MBP is important to understand the pathological basis of allergic and other eosinophil-associated inflammatory diseases.

Published

2009

24. Hypereosinophilic syndromes: A multicenter, retrospective analysis of clinical characteristics and response to therapy

Author

Ogbogu, Princess U., Bochner, Bruce S., Butterfield, Joseph H., Gleich, Gerald J., Huss-Marp, Johannes, Kahn, Jean Emmanuel, Leiferman, Kristin M., Nutman, Thomas B., Pfab, Florian, Ring, Johannes, Rothenberg, Marc E., Roufosse, Florence, Sajous, Marie-Helene, Sheikh, Javed, Simon, Dagmar, Simon, Hans-Uwe, Stein, Miguel L., Wardlaw, Andrew, Weller, Peter Fahey, and Klion, Amy D.

Subjects

eosinophil, hypereosinophilic syndrome, FIP1L1-PDGFRA

Abstract

Background: Hypereosinophilic syndrome (HES) is a heterogeneous group of rare disorders defined by persistent blood eosinophilia ≥1.5 × 109/L, absence of a secondary cause, and evidence of eosinophil-associated pathology. With the exception of a recent multicenter trial of mepolizumab (anti–IL-5 mAb), published therapeutic experience has been restricted to case reports and small case series. Objective: The purpose of the study was to collect and summarize baseline demographic, clinical, and laboratory characteristics in a large, diverse cohort of patients with HES and to review responses to treatment with conventional and novel therapies. Methods: Clinical and laboratory data from 188 patients with HES, seen between January 2001 and December 2006 at 11 institutions in the United States and Europe, were collected retrospectively by chart review. Results: Eighteen of 161 patients (11%) tested were Fip1-like 1–platelet-derived growth factor receptor α (FIP1L1-PDGFRA) mutation—positive, and 29 of 168 patients tested (17%) had a demonstrable aberrant or clonal T-cell population. Corticosteroid monotherapy induced complete or partial responses at 1 month in 85% (120/141) of patients with most remaining on maintenance doses (median, 10 mg prednisone equivalent daily for 2 months to 20 years). Hydroxyurea and IFN-α (used in 64 and 46 patients, respectively) were also effective, but their use was limited by toxicity. Imatinib (used in 68 patients) was more effective in patients with the FIP1L1-PDGFRA mutation (88%) than in those without (23%; P < .001). Conclusion: This study, the largest clinical analysis of patients with HES to date, not only provides useful information for clinicians but also should stimulate prospective trials to optimize treatment of HES.

Published

2009

25. Subcellular fractionation of human eosinophils: Isolation of functional specific granules on isoosmotic density gradients

Author

Neves, Josiane S., Perez, Sandra A.C., Spencer, Lisa Ann, Melo, Rossana, and Weller, Peter Fahey

Subjects

granuales, isoosmotic gradient, iodixanol, eosinophils

Abstract

Subcellular fractionation has been an important tool in investigating human eosinophil structure and function, including localizing of cytokine/chemokines within granules, investigating granule protein translocation and intracellular transport during eosinophil secretion, and studying secretory mechanisms of granules. The resolution of organelles obtained by subcellular fractionation was improved considerably after the introduction of nonionic iodinated density-gradient metrizamide and Nycodenz media that, unlike sucrose, exhibit relatively low tonicity throughout the gradient. However, the structure and membrane preservation of isolated organelles were still compromised due to the lack of gradient isoosmolarity. This paper describes a detailed protocol of subcellular fractionation of nitrogen cavitated eosinophils on an isoosmotic iodinated density gradient (iodixanol – OptiPrep) and the isolation of well preserved and functional membrane-bound specific granules.

Published

2009

26. Leukocyte lipid bodies — Biogenesis and functions in inflammation

Author

Bozza, Patricia T., Magalhães, Kelly G., and Weller, Peter Fahey

Abstract

Lipid body accumulation within leukocytes is a common feature in both clinical and experimental infectious, neoplasic and other inflammatory conditions. Here, we will review the contemporary evidence related to the biogenesis and structure of leukocyte lipid bodies (also known as lipid droplets) as inflammatory organelles. Studies of leukocyte lipid bodies are providing functional, ultrastructural and protein compositional evidences that lipid bodies are not solely storage depots of neutral lipid. Over the past years substantial progresses have been made to demonstrate that lipid body biogenesis is a highly regulated process, that culminate in the compartmentalization of a specific set of proteins and lipids, that place leukocyte lipid bodies as inducible cytoplasmic organelles with roles in cell signaling and activation, regulation of lipid metabolism, membrane trafficking and control of the synthesis and secretion of inflammatory mediators. Pertinent to the roles of lipid bodies in inflammation and cell signaling, enzymes involved in eicosanoid synthesis are localized at lipid bodies and lipid bodies are sites for eicosanoid generation. Collectively, lipid bodies in leukocytes are emerging as critical regulators of different inflammatory diseases, key markers of leukocyte activation and attractive targets for novel anti-inflammatory therapies.

Published

2009

27. Advances in diagnosis and treatment of eosinophilia

Author

Sheikh, Javed and Weller, Peter Fahey

Abstract

Purpose of review — Hypereosinophilic syndromes (HESs) are disorders characterized by sustained blood or tissue hypereosinophilia or both with subsequent damage to various organs due to eosinophilic infiltration and release of mediators. HES are now recognized to include varied eosinophilic disorders for some of which there are recent insights into their pathogenesis and targeted treatment. Recent findings—Studies have helped delineate two subtypes of HES: the myeloproliferative variants of HES and the lymphocytic variants of HES. Many, but not all, myeloproliferative-HES patients have interstitial deletions on chromosome 4q12 that lead to fusion of the FIP1-like 1 and platelet-derived growth factor receptor α genes, with the fusion product encoding a protein that has constitutive tyrosine kinase activity. Lymphocytic-HES is a primary lymphoid disorder characterized by nonmalignant expansion of a T-cell population able to produce eosinophilopoietic cytokines, with the T-cell population being identified by flow cytometry or reverse transcriptase-PCR for T-cell receptor usage or both. Other HES subtypes are of uncertain causes and are included in recent diagnostic algorithms for the spectrum of HES. Summary—The contemporary definition of the hypereosinophilic syndromes encompasses a range of eosinophilic disorders characterized by chronic blood hypereosinophilia often with eosinophil-mediated damage to various organs.

Published

2009

28. Functional extracellular eosinophil granules: Novel implications in eosinophil immunobiology

Author

Neves, Josiane S and Weller, Peter Fahey

Abstract

Human eosinophils contain within their cytoplasmic granules multiple preformed proteins, including over three dozen cytokines with nominal Th1, Th2 and immunoregulatory capabilities, and four distinctive cationic proteins. The secretion of these granule-derived proteins within eosinophils occurs principally by a mechanism whereby selected proteins are mobilized into vesicles for transport to and release at the cell surface. In contrast, the enigmatic presence of membrane-bound cell-free granules extruded from eosinophils has been long recognized in tissues associated with eosinophilia, including allergic diseases and responses to helminths. Functional capabilities for extracellular granules have recently been demonstrated. Eosinophil granules express cytokine receptors on their membranes and function, upon extrusion from eosinophils, as independent secretory organelles releasing granule constituents in response to activating cytokines and chemokines. We provide an update on the processes that mediate selective protein secretion from within eosinophil granules both as intracellular organelles and, as novelly demonstrated, as cell-free extracellular structures.

Published

2009

29. Treatment of Patients with the Hypereosinophilic Syndrome with Mepolizumab

Author

Rothenberg, Marc E., Klion, Amy D., Roufosse, Florence E., Kahn, Jean Emmanuel, Weller, Peter Fahey, Simon, Hans-Uwe, Schwartz, Lawrence B., Rosenwasser, Lanny J., Ring, Johannes, Griffin, Elaine F., Haig, Ann E., Frewer, Paul I.H., Parkin, Jacqueline M., and Gleich, Gerald J.

Abstract

The hypereosinophilic syndrome is a group of diseases characterized by persistent blood eosinophilia, defined as more than 1500 cells per microliter with end-organ involvement and no recognized secondary cause. Although most patients have a response to corticosteroids, side effects are common and can lead to considerable morbidity.

Published

2008

30. Pivotal Advance: Eosinophils mediate early alum adjuvant-elicited B cell priming and IgM production

Author

Wang, H.-B. and Weller, Peter Fahey

Abstract

Alum, aluminum-hydroxide-containing compounds, long used as adjuvants in human vaccinations, functions by ill-defined, immunostimulatory mechanisms. Antigen-free alum has been shown to act via a previously unidentified, splenic Gr1+, IL-4-expressing myeloid cell population to stimulate early B cell priming. We demonstrate that the alum-elicited and -activated splenic myeloid cells are IL-4-expressing eosinophils that function to prime B cell responses. Eosinophils are the principal Gr1+, IL-4+ cells in the spleens 6 days following i.p. alum administration. Alum-elicited splenic B cell priming, as evidenced by MHC II cross-linking-mediated calcium mobilization developed in wild-type BALB/c mice, was absent in ΔdblGATA BALB/c eosinophil-deficient mice and could be reconstituted by adoptive eosinophil infusions into the eosinophil-deficient mice. Moreover, early antigen-specific IgM antibody responses in alum-antigen-immunized mice were impaired in eosinophil-deficient mice and were restored with adoptive transfers of eosinophils. Thus, eosinophils, leukocytes of the innate immune system that contain preformed cytokines, including IL-4, have novel, immunomodulatory roles in the initial priming of B cells elicited by the adjuvant alum and in the optimal early B cell generation of antigen-specific IgM.

Published

2008

31. Electron tomography and immunonanogold electron microscopy for investigating intracellular trafficking and secretion in human eosinophils

Author

Melo, Rossana C. N., Dvorak, Ann M., and Weller, Peter Fahey

Abstract

Electron tomography (ET) has increasingly been used to understand the complexity of membrane systems and protein-trafficking events. By ET and immunonanogold electron microscopy, we recently defined a route for vesicular transport and release of granule-stored products from within activated human eosinophils, cells specialized in the secretion of numerous cytokines and other proteins during inflammatory responses. Here, we highlight these techniques as important tools to unveil a distinct eosinophil vesicular system and secretory pathway.

Published

2008

32. Eosinophil granules function extracellularly as receptor-mediated secretory organelles

Author

Neves, J. S., Perez, S. A. C., Spencer, L. A., Melo, R. C. N., Reynolds, L., Ghiran, I., Mahmudi-Azer, S., Odemuyiwa, S. O., Dvorak, A. M., Moqbel, R., and Weller, Peter Fahey

Abstract

Intracellular granules in several types of leukocytes contain preformed proteins whose secretions contribute to immune and inflammatory functions of leukocytes, including eosinophils, cells notably associated with asthma, allergic inflammation, and helminthic infections. Cytokines and chemokines typically elicit extracellular secretion of granule proteins by engaging receptors expressed externally on the plasma membranes of cells, including eosinophils. Eosinophil granules, in addition to being intracellular organelles, are found as intact membrane-bound structures extracellularly in tissue sites of eosinophil-associated diseases. Neither the secretory capacities of cell-free eosinophil granules nor the presence of functional cytokine and chemokine receptors on membranes of leukocyte granules have been recognized. Here, we show that granules of human eosinophils express membrane receptors for a cytokine, IFN-γ, and G protein–coupled membrane receptors for a chemokine, eotaxin, and that these receptors function by activating signal-transducing pathways within granules to elicit secretion from within granules. Capacities of intracellular granule organelles to function autonomously outside of eosinophils as independent, ligand-responsive, secretion-competent structures constitute a novel postcytolytic mechanism for regulated secretion of eosinophil granule proteins that may contribute to eosinophil-mediated inflammation and immunomodulation.

Published

2008

33. Mechanisms of eosinophil secretion: large vesiculotubular carriers mediate transport and release of granule-derived cytokines and other proteins

Author

Melo, R. C. N., Spencer, L. A., Dvorak, A. M., and Weller, Peter Fahey

Abstract

Eosinophils generate and store a battery of proteins, including classical cationic proteins, cytokines, chemokines, and growth factors. Rapid secretion of these active mediators by eosinophils is central to a range of inflammatory and immunoregulatory responses. Eosinophil products are packaged within a dominant population of cytoplasmic specific granules and generally secreted by piecemeal degranulation, a process mediated by transport vesicles. Large, pleiomorphic vesiculotubular carriers were identified recently as key players for moving eosinophil proteins from granules to the plasma membrane for extracellular release. During secretion, these specialized, morphologically distinct carriers, termed eosinophil sombrero vesicles, are actively formed and direct differential and rapid release of eosinophil proteins. This review highlights recent discoveries concerning the organization of the human eosinophil secretory pathway. These discoveries are defining a broader role for large vesiculotubular carriers in the intracellular trafficking and secretion of proteins, including selective receptor-mediated mobilization and transport of cytokines.

Published

2007

34. Airway Eosinophils: Allergic Inflammation Recruited Professional Antigen-Presenting Cells

Author

Wang, H.-B., Ghiran, I., Matthaei, K., and Weller, Peter Fahey

Abstract

The capacity of airway eosinophils, potentially pertinent to allergic diseases of the upper and lower airways, to function as professional APCs, those specifically able to elicit responses from unprimed, Ag-naive CD4+ T cells has been uncertain. We investigated whether airway eosinophils are capable of initiating naive T cell responses in vivo. Eosinophils, isolated free of other APCs from the spleens of IL-5 transgenic mice, following culture with GM-CSF expressed MHC class II and the costimulatory proteins, CD40, CD80, and CD86. Eosinophils, incubated with OVA Ag in vitro, were instilled intratracheally into wild-type recipient mice that adoptively received i.v. infusions of OVA Ag-specific CD4+ T cells from OVA TCR transgenic mice. OVA-exposed eosinophils elicited activation (CD69 expression), proliferation (BrdU incorporation), and IL-4, but not IFN-γ, cytokine production by OVA-specific CD4+ T cells in paratracheal lymph nodes (LN). Exposure of eosinophils to lysosomotropic NH4Cl, which inhibits Ag processing, blocked each of these eosinophil-mediated activation responses of CD4+ T cells. By three-color fluorescence microscopy, OVA Ag-loaded eosinophil APCs were physically interacting with naive OVA-specific CD4+ T cells in paratracheal LN after eosinophil airway instillation. Thus, recruited luminal airway eosinophils are distinct allergic “inflammatory” professional APCs able to activate primary CD4+ T cell responses in regional LNs

Published

2007

35. Roles and origins of leukocyte lipid bodies: proteomic and ultrastructural studies

Author

Wan, H.-C., Melo, R. C. N., Jin, Z., Dvorak, A. M., and Weller, Peter Fahey

Abstract

Lipid bodies (LBs), multifunctional organelles present in most eukaryotic cells, are sites of eicosanoid formation in leukocytes; but little is known about the composition of leukocyte LBs or the biogenesis and internal structures of LBs from mammalian cells. Proteomic analyses of LBs purified from human monocytic U937 cells detected, common to LBs in other cells, proteins involved in cholesterol and triglyceride metabolism, Rab GTPases, and many membrane and endoplasmic reticulum (ER)-associated proteins. Newly lipid body (LB)-associated proteins included MRP-14, potentially involved in arachidonate transport, and ribosomal subunit proteins and translation regulatory proteins. Ultrastructurally, in U937 cells as well as human neutrophils and eosinophils, ribosomes are attached to and distributed within LBs, and LBs contain extensive ER-like membranes. The presence of ribosomes, ER-like membranes and many membrane-associated and ER luminal proteins within LBs, supports a new model by which enveloped ER-membranes and domains form LBs and indicates that LBs may be sites of protein synthesis.—Wan, H-C., Melo, R. C. N., Jin, Z., Dvorak, A. M., Weller, P. F. Roles and origins of leukocyte lipid bodies: proteomic and ultrastructural studies.

Published

2006

36. Cytokine receptor-mediated trafficking of preformed IL-4 in eosinophils identifies an innate immune mechanism of cytokine secretion

Author

Spencer, L. A., Melo, R. C. N., Perez, S. A. C., Bafford, S. P., Dvorak, A. M., and Weller, Peter Fahey

Abstract

Although leukocytes of the innate immune system, including eosinophils, contain within their granules preformed stores of cytokines available for selective and rapid release, little is known about the mechanisms governing the mobilization and secretion of these cytokines. Here we show that a cytokine receptor, the IL-4 receptor α chain, mediates eotaxin-stimulated mobilization of preformed IL-4 from eosinophil granules into secretory vesicles. Eosinophils contain substantial intracellular quantities of several granule- and vesicle-associated cytokine receptors, including IL-4, IL-6, and IL-13 receptors as well as CCR3. Both IL-4 and IL-4 receptor α chain colocalized in eosinophil granules; and after eotaxin-stimulation, IL-4 receptor α chain, bearing bound IL-4, was mobilized into secretory vesicles. These findings indicate that intracellular cytokine receptors within secretory vesicles transport their cognate cytokines requisite for the secretion of cytokines preformed in innate immune leukocytes.

Published

2006

37. Leukocyte lipid bodies: inflammation-related organelles are rapidly detected by wet scanning electron microscopy

Author

Melo, R. C. N., Sabban, A., and Weller, Peter Fahey

Abstract

Leukocyte lipid bodies are dynamic, functionally active organelles with central roles in inflammation. Here, we report that leukocyte lipid bodies are facilely detected by a versatile, potent technique, termed wet scanning electron microscopy (SEM), which combines the rapid preparation of light microscopy with the resolution of SEM. Using as leukocyte models resting and agonist-stimulated human eosinophils, cells that generate prominent numbers of lipid bodies in inflammatory conditions, we demonstrated that lipid bodies can be rapidly imaged as bright, highly contrasted structures under wet SEM and scored by computerized image processing. Critical advantages of this approach are that it permits cell observation in a fully hydrated system and facilitates lipid preservation. These attributes are especially important because lipid bodies are degraded during routine dehydration processes. Moreover, this technology is advantageous over lipophilic fluorescent probes because it allows sustained detection of lipid bodies in contrast to short-lived fluorescent labeling of these organelles. The value of wet SEM in enabling rapid and large-scale lipid body imaging and scoring within leukocytes is particularly important because lipid bodies are organelles underlying the heightened functions of inflammatory cells. Wet SEM technology provides new approaches and opportunities for delineations of lipid bodies in inflammatory diseases, including allergic inflammation.

Published

2006

38. Intragranular Vesiculotubular Compartments are Involved in Piecemeal Degranulation by Activated Human Eosinophils

Author

Melo, Rossana C.N., Perez, Sandra A.C., Spencer, Lisa A., Dvorak, Ann M., and Weller, Peter Fahey

Abstract

Eosinophils, leukocytes involved in allergic, inflammatory and immunoregulatory responses, have a distinct capacity to rapidly secrete preformed granule-stored proteins through piecemeal degranulation (PMD), a secretion process based on vesicular transport of proteins from within granules for extracellular release. Eosinophil-specific granules contain cytokines and cationic proteins, such as major basic protein (MBP). We evaluated structural mechanisms responsible for mobilizing proteins from within eosinophil granules. Human eosinophils stimulated for 30–60 min with eotaxin, regulated on activation, normal, T-cell expressed and secreted (RANTES) or platelet activating factor exhibited ultrastructural features of PMD (e.g. losses of granule contents) and extensive vesiculotubular networks within emptying granules. Brefeldin A inhibited granule emptying and collapsed intragranular vesiculotubular networks. By immunonanogold ultrastructural labelings, CD63, a tetraspanin membrane protein, was localized within granules and on vesicles outside of granules, and mobilization of MBP into vesicles within and extending from granules was demonstrated. Electron tomography with three dimension reconstructions revealed granule internal membranes to constitute an elaborate tubular network able to sequester and relocate granule products upon stimulation. We provide new insights into PMD and identify eosinophil specific granules as organelles whose internal tubulovesicular networks are important for the capacity of eosinophils to secrete, by vesicular transport, their content of preformed and granule-stored cytokines and cationic proteins.

Published

2005

39. Human Eosinophils Secrete Preformed, Granule-Stored Interleukin-4 Through Distinct Vesicular Compartments

Author

Melo, Rossana C. N., Spencer, Lisa A., Perez, Sandra A. C., Ghiran, Ionita, Dvorak, Ann M., and Weller, Peter Fahey

Abstract

Secretion of interleukin-4 (IL-4) by leukocytes is important for varied immune responses including allergic inflammation. Within eosinophils, unlike lymphocytes, IL-4 is stored in granules (termed specific granules) and can be rapidly released by brefeldin A (BFA)-inhibitable mechanisms upon stimulation with eotaxin, a chemokine that activates eosinophils. In studying eotaxin-elicited IL-4 secretion, we identified at the ultrastructural level distinct vesicular IL-4 transport mechanisms. Interleukin-4 traffics from granules via two vesicular compartments, large vesiculotubular carriers, which we term eosinophil sombrero vesicles (EoSV), and small classical spherical vesicles. These two vesicles may represent alternative pathways for transport to the plasma membrane. Loci of both secreted IL-4 and IL-4-loaded vesicles were imaged at the plasma membranes by a novel EliCell assay using a fluoronanogold probe. Three dimensional electron tomographic reconstructions revealed EoSVs to be folded, flattened and elongated tubules with substantial membrane surfaces. As documented with quantitative electron microscopy, eotaxin-induced significant formation of EoSVs while BFA pretreatment suppressed eotaxin-elicited EoSVs. Electron tomography showed that both EoSVs and small vesicles interact with and arise from granules in response to stimulation. Thus, this intracellular vesicular system mediates the rapid mobilization and secretion of preformed IL-4 by activated eosinophils. These findings, highlighting the participation of large tubular carriers, provide new insights into vesicular trafficking of cytokines.

Published

2005

40. Activated Human Eosinophils

Author

Melo, Rossana C.N., Weller, Peter Fahey, and Dvorak, Ann M.

Abstract

Eosinophils are leukocytes which, when stimulated with cytokines or chemokines, become activated and release mediators stored in their dominant population of cytoplasmic granules (termed specific or secondary granules) [1]. The morphology of activated eosinophils is quite distinct. In a range of inflammatory and allergic disorders or upon physiological stimulation, activated eosinophils are generally seen as cells full of granules, but these structures are undergoing progressive losses of their contents with retention of granule outer membranes, a process known as ‘piecemeal degranulation’ [2,3] (fig. 1a). As a result, a mixed population of intact (fig. 1a, asterisks) and enlarged, emptying (fig. 1a, arrows) granules is always visualized in cell sections [3]. Also, a decrease of specific granule numbers can occur [3]. A rare view of an activated eosinophil is shown in figure 1b taken from a hypereosinophilic subject. While a single specific granule (Gr) is seen in the cytoplasm in conjunction with an osmiophilic lipid body (LB), the cell surface shows elaborate projections indicative of activation. Vesiculotubular structures (fig. 1b, arrowheads), termed ‘eosinophil sombrero vesicles’ (EoSV) and recently associated with the eosinophil secretory pathway [4,5] reside in the cytoplasm. This vesicle population is unique to eosinophils and allows the prompt identification of these cells by electron microscopy when specific granules are not present[3]. Shape changes are another hallmark of activated human eosinophils. In parallel with the morphological alterations of specific granules, eosinophils are able to change their morphology in response to different agonists. Figure 2 shows shape changes in eosinophils stimulated by eotaxin, a potent eosinophil activator.

Published

2005

41. A Gel-Based Dual Antibody Capture and Detection Method for Assaying of Extracellular Cytokine Secretion: EliCell

Author

Spencer, Lisa Ann, Melo, Rossana, Perez, Sandra A. C., and Weller, Peter Fahey

Abstract

A distinguishing feature of eosinophils is their ability to rapidly release preformed cytokines from intracellular pools. Cytokines are delivered to the cell surface from granule stores by transport vesicles and are released in small packets at discrete locations along the cell surface through a process termed “piecemeal” degranulation. The study of this process has been hindered by lack of an assay sensitive enough to register minute protein concentrations and the inability to visualize morphology of cytokine secreting cells. These hindrances have necessitated our development of the EliCell assay, an agarose-based dual cytokine capture and detection system through which cytokine secretion and cellular morphology may be analyzed in concert. Cells are embedded within capture antibody-containing agarose and stimulated under conditions of interest. Extracellularly released cytokine is captured within the matrix at the point of release from the cell and can be labeled with a fluorochrome-conjugated antibody. Cytokine release and cellular morphology are visualized in parallel by phase contrast and fluorescence microscopy, respectively.

Published

2005

42. Activation of human eosinophils through leukocyte immunoglobulin-like receptor 7

Author

Tedla, N., Bandeira-Melo, C., Tassinari, P., Sloane, D. E., Samplaski, M., Cosman, D., Borges, L., Weller, Peter Fahey, and Arm, J. P.

Abstract

Eosinophils are implicated prominently in allergic diseases and the host response to parasitic infections. Eosinophils may be activated in vitro by diverse classes of agonists such as immunoglobulins, lipid mediators, and cytokines. The leukocyte Ig-like receptors (LIRs) comprise a family of inhibitory and activating cell-surface receptors. Inhibitory LIRs down-regulate cellular responses through cytoplasmic immunoreceptor tyrosine-based inhibitory motifs. There are limited data on the action of the activating LIRs, which are thought to signal through the Fc receptor γ chain, which contains an immunoreceptor tyrosine-based activation motif. We now demonstrate the expression of LIR1 (inhibitory), LIR2 (inhibitory), LIR3 (inhibitory), and LIR7 (activating) on eosinophils from 4, 4, 12, and 11, respectively, of 12 healthy donors. Cross-linking of LIR7 with plate-bound antibody elicited the dose- and time-dependent release of eosinophil-derived neurotoxin and leukotriene C4. Eosinophils activated with antibodies to LIR7 embedded in gel-phase EliCell preparations showed leukotriene C4 generation at the nuclear envelope and the release of IL-12 but not IL-4 by vesicular transport. Thus, LIR7 is an activating receptor for eosinophils that elicited the release of cytotoxic granule proteins, de novo lipid mediator generation, and cytokine release through vesicular transport.

Published

2003