Frederik P. J. Mul

Monitoring human basophil activation via CD63 monoclonal antibody 435

On activation of human basophilic granulocytes with anti-IgE or with the chemotactic peptide, formyl-methionyl-leucyl-phenylalanine, the expression of the CD63 antigen on the cell surface, detected by monoclonal antibody (MAb) 435, increased up to 100-fold. The kinetics of CD63 up regulation and histamine release were identical, and a strong correlation was found between percentage of MAb 435-binding basophils and extent of histamine release. Immunoelectronmicroscopy demonstrated that the epitope for MAb 435 in resting basophils is located on the basophilic granule membrane. After basophil activation, MAb 435 bound to the exterior of the plasma membrane. Experiments with various doses of anti-IgE demonstrated that the binding of MAb 435 to basophilic granulocytes follows an all-or-nothing-like response per cell. Basophils either do not bind the MAb at all, or they bind a maximal amount of the MAb. We also measured the up regulation of the CD11/CD18 leukocyte adhesion complex. Here, too, we noted an increase in cell-surface exposure of all subunits after activation. This increase was not as strong as increase found with MAb 435. Thus, MAb 435 is an interesting new tool for investigating the activation of human basophils, in addition to the measurement of mediator release. This MAb may be useful for the detection of basophil activation in vivo.

Migration of Human Hematopoietic Progenitor Cells Across Bone Marrow Endothelium Is Regulated by Vascular Endothelial Cadherin

The success of stem cell transplantation depends on the ability of i.v. infused stem cells to engraft the bone marrow, a process referred to as homing. Efficient homing requires migration of CD34+ cells across the bone marrow endothelium, most likely through the intercellular junctions. In this study, we show that loss of vascular endothelial (VE)-cadherin-mediated endothelial cell-cell adhesion increases the permeability of monolayers of human bone marrow endothelial cells (HBMECs) and stimulates the transendothelial migration of CD34+ cells in response to stromal cell-derived factor-1α. Stromal cell-derived factor-1α-induced migration was dependent on VCAM-1 and ICAM-1, even in the absence of VE-cadherin function. Cross-linking of ICAM-1 to mimic the leukocyte-endothelium interaction induced actin stress fiber formation but did not induce loss of endothelial integrity, whereas cross-linking of VCAM-1 increased the HBMEC permeability and induced gaps in the monolayer. In addition, VCAM-1-mediated gap formation in HBMEC was accompanied by and dependent on the production of reactive oxygen species. These data suggest that modulation of VE-cadherin function directly affects the efficiency of transendothelial migration of CD34+ cells and that activation of ICAM-1 and, in particular, VCAM-1 plays an important role in this process through reorganization of the endothelial actin cytoskeleton and by modulating the integrity of the bone marrow endothelium through the production of reactive oxygen species.

Filamin B mediates ICAM-1-driven leukocyte transendothelial migration

During inflammation, the endothelium mediates rolling and firm adhesion of activated leukocytes. Integrin-mediated adhesion to endothelial ligands of the Ig-superfamily induces intracellular signaling in endothelial cells, which promotes leukocyte transendothelial migration. We identified the actin cross-linking molecule filamin B as a novel binding partner for intracellular adhesion molecule-1 (ICAM-1). Immune precipitation as well as laser scanning confocal microscopy confirmed the specific interaction and co-localization of endogenous filamin B with ICAM-1. Importantly, clustering of ICAM-1 promotes the ICAM-1-filamin B interaction. To investigate the functional consequences of filamin B binding to ICAM-1, we used small interfering RNA to reduce filamin B expression in ICAM-1-GFP expressing HeLa cells. We found that filamin B is required for the lateral mobility of ICAM-1 and for ICAM-1-induced transmigration of leukocytes. Reducing filamin B expression in primary human endothelial cells resulted in reduced recruitment of ICAM-1 to endothelial docking structures, reduced firm adhesion of the leukocytes to the endothelium, and inhibition of transendothelial migration. In conclusion, this study identifies filamin B as a molecular linker that mediates ICAM-1-driven transendothelial migration.

β 1 integrin activation on human neutrophils promotes β 2 integrin-mediated adhesion to fibronectin

Although the importance of β1 integrin‐mediated binding to adhesion molecules and extracellular matrix (ECM) molecules is well established for most types of leukocytes, the expression patterns and functional importance of β1 integrins on neutrophils have remained controversial. Using flow cytometry, we found that human neutrophils express the α4, α5, α9 and β1 integrin subunits. To examine whether the integrins VLA‐4 (α4/β1) and VLA‐5 (α5/β1) have a functional role on neutrophils, we studied adhesion to their ligand fibronectin. Treatment of neutrophils with antibody 8A2, which specifically binds and activates β1 integrins, resulted in increased binding to fibronectin. However, addition of blocking mAb revealed that 8A2‐induced adhesion did not depend on β1 integrins, but on the β2 integrin CD11b/CD18. Similarly, activation of β1 integrins by 8A2 resulted in CD11b‐dependent binding of neutrophils to fibrinogen. 8A2 treatment increased expression of an activation epitope of CD11b/CD18, which depended on phosphoinositide 3‐OH kinase activity and an adequate concentration of intracellular free Ca2+. These data suggest that engagement of β1 integrins on neutrophils results in a cross‐talk signal that leads to activation of the β2 integrin CD11b/CD18, followed by CD11b‐mediated adhesion. As transmigrated neutrophils are surrounded by both β1 and β2 ligands in the ECM, this integrin cross‐talk could play a role in modifying migration and cellular activation in inflamed tissues.

Neutrophil Transmigration across Monolayers of Endothelial Cells and Airway Epithelial Cells Is Regulated by Different Mechanisms

Neutrophil recruitment from the blood stream into the airways is one of the important features of many inflammatory disorders in the lung. In this process, neutrophils migrate first from the blood across the ECs in the apical-to-basolateral direction into the tissues and then across airway epithelium in the basolateral-to-apical direction into the lung lumen. We investigated and compared the different mechanisms of neutrophil transmigration in vitro across monolayers of these two cell types in both directions. Neutrophil migration induced by chemoattractants was stronger across resting EC than across resting epithelial cells when both cell types were growing on top of the filters (i.e., migration in the apical-to-basolateral direction). Much higher neutrophil transepithelial migration was found in the physiological, basolateral-to-apical direction (cells hanging underneath the filters) than in the opposite direction across either resting or IL-1 beta-activated epithelial cells. In contrast, no significant difference was observed with EC under these conditions. After a 4-h IL-1 beta activation, neutrophil migration across EC was dependent on IL-8 and PAF. However, the migration across epithelial cells relied, to a greater extent, on IL-8 production, and not on PAF. The adhesion molecule ICAM-1 contributed much less to neutrophil migration across epithelium than that across endothelium. Our study provides evidence of different mechanisms of neutrophil transmigration across monolayers of EC and epithelial cells in vitro, indicating that different processes control neutrophil transmigration across EC and epithelial cells in vivo.

Neutrophil adherence to and migration across monolayers of human peritoneal mesothelial cells : the role of mesothelium in the influx of neutrophils during peritonitis

Increased adherence to and subsequent migration of leukocytes across cultured human peritoneal mesothelial cell monolayers takes place after pretreatment of the mesothelial cells with interleukin-1beta. The contribution of the leukocyte beta2 integrins (CD11/CD18) and the mesothelial adhesion protein intercellular adhesion molecule-1 (ICAM-1) and the role of the cytokines interleukin-8, platelet-activating factor (PAF), and transforming growth factor-beta (TGF-beta) were studied in a three-dimensional model system for neutrophil-mesothelial monolayer interaction. Polymorphonuclear leukocytes (PMNs) showed minimal adherence to and migration across unactivated mesothelial monolayers, despite an extensive amount of ICAM-1 on the mesothelial membrane. Pretreatment of the monolayers with rIL-1beta induced enhanced PMN adherence to the mesothelial monolayer together with a further increase in ICAM-1 expression on the mesothelial membrane. PMN migration was observed across rIL-1beta-activated mesothelial cell (MC) monolayers whenever cytokines secreted by the MCs were present during migration. Monoclonal antibody (mAb) R6.5 against ICAM-1 and mAb CLB-LFA1/1 against CD18 both reduced the migration of PMNs across mesothelial monolayers with a predominant inhibitory effect of CLB-LFA1/1, indicating a significant role of the beta(2) integrins of PMNs in this process. Interleukin-8 was the major cytokine synthesized by the MCs to stimulate the migration of PMNs; both PAF and TGF-beta had a more modest role in our system. Adherence of PMNs to MC monolayers was not dependent on these latter cytokines. Neuraminidase did not have any effect, indicating that selectins were not involved in the adherence process. rIL-1beta-pretreated MCs induced a rapid increase in intracellular Ca2+ in PMNs; actinomycin D blocked this effect and was also able to prevent adhesion of neutrophils to activated MC monolayers. Neutrophil migration across activated cultured MCs is thus a cascade of events in which the MCs are actively involved.

An improved method for the purification of basophilic granulocytes from human blood

Studies on human basophils are hampered by the low number of basophils in peripheral blood. Here we describe the purification of human basophilic granulocytes with immunomagnetic beads to improve an already established method of purification. A 70% pure basophil suspension was incubated with monoclonal antibodies (CD2, CD14, CD16 and CD19) recognizing the contaminating cells. After incubation with magnetic beads coated with goat anti-mouse IgG, the bead-cell rosettes were removed by a magnet. In this way, the basophil purity increased to 94%. The loss of basophils during the bead procedure was about 20%. The amount of histamine per basophil and the spontaneous release of histamine during subsequent incubation of the cells was not altered by the purification procedure. The kinetics and the dose response of histamine release after the addition of anti-IgE or FMLP was also unchanged. Binding of CD63 was not altered, indicating that the purification procedure did not result in activation of the basophils. This improved method for the purification of human basophils should permit the measurement of non-basophil-specific parameters, such as changes in intracellular free Ca2+, without the problem of interference from contaminating cells.

Degranulation of human basophils bypicomolar concentrations of IL–3, IL–5, orgranulocyte-macrophage colony-stimulating factor☆☆☆★★★

In most secretory cells, an increase in the cytosolic free Ca2+ concentration ([Ca2+]i) is associated with the exocytosis response. In this study we have evaluated the effect of thapsigargin on histamine release from purified (70% to 97% pure) human basophils of nonallergic donors. Thapsigargin (2 micromol/L), by inhibiting the uptake of Ca2+ in the stores of the endoplasmic reticulum, leads within 1 minute to a gradual increase in [Ca2+]i in human basophils. Incubation of basophils with thapsigargin by itself induced only a very small release of histamine (5.6% +/- 1.8%). However, under suboptimal conditions of stimulation with other agonists, preincubation of basophils with thapsigargin significantly enhanced histamine release. Most strikingly, addition of thapsigargin made basophils extremely sensitive for histamine release induced by IL-3 (maximum histamine release, 71% +/- 7%), IL-5 (maximum histamine release, 43% +/- 8%), or granulocyte-macrophage colony-stimulating factor (GM-CSF) (maximum histamine release, 57% +/- 10%). These cytokines by themselves did not induce histamine release in purified basophils. The effect of thapsigargin was mimicked to a limited extent by addition of platelet-activating factor. We conclude that depletion of the Ca2+ stores may be a critical event in the activation of receptor-mediated histamine release in human basophils.

Basophils from patients with allergic asthma show a primed phenotype

BACKGROUND IL-3, IL-5, and GM-CSF are not able to induce histamine release in purified basophils of nonallergic donors. However, we have recently found that preincubation with 2 micromol/L thapsigargin, which induces a rise in intracellular free calcium ions, renders human basophils extremely sensitive for IL-3, IL-5, or GM-CSF, leading to enhanced histamine release. Histamine release was also induced in the reverse order (first cytokine and then thapsigargin). OBJECTIVE Because these cytokines are supposed to be increased in allergic inflammation, we examined whether basophils of patients with allergic asthma showed an enhanced response to thapsigargin. METHODS We measured the histamine release induced by thapsigargin in a group of allergic asthmatic subjects (n = 24) and compared this response with those of 3 control groups. The control groups consisted of healthy control subjects (group 1, n = 21); patients with a nonallergic, nonasthmatic lung disease (group 2, n = 22); and patients with nonallergic asthma (group 3, n = 9). RESULTS There was no difference in spontaneous histamine release. Also, no significant difference in histamine release was found when anti-IgE or formyl-methionyl-leucyl-phenylalanine was used as a stimulus. Histamine release induced by IL-3 alone or a combination of IL-3 and thapsigargin also did not differ. In contrast, basophils from the group with allergic asthma showed a significantly higher percentage of histamine release induced by thapsigargin (38.2% +/- 13.2%) than did basophils from the 3 control groups (healthy control subjects, 22.5% +/- 6.9%; subjects with lung disease, 24.9% +/- 8.9%; subjects with nonallergic asthma 15.0% +/- 3.0%; all mean +/- SD). CONCLUSION These data indicate that basophils in peripheral blood of subjects with allergic asthma have a primed phenotype and that thapsigargin-induced histamine release is a practical tool to study this phenomenon.

ICAM-3 Activation Modulates Cell-Cell Contacts of Human Bone Marrow Endothelial Cells

The Ig-like cell adhesion molecule ICAM-3 is mainly expressed on human leukocytes and is involved in cell-cell interactions. Its expression on endothelium is observed during disorders such as Crohn’s disease and in solid tumors. We found low but detectable expression of ICAM-3 on VE-cadherin-expressing cells from primary human bone marrow aspirates, i.e. endothelial cells, and on primary human endothelial cells from cord blood. Also, immortalized human umbilical cord endothelial cells and human bone marrow endothelial cells showed ICAM-3 expression. However, its function on human endothelium is not known. Surprisingly, activation of endothelial ICAM-3 by crosslinking with specific antibodies resulted in a drop in the electrical resistance of bone marrow endothelial monolayers. In line with this, immunocytochemical analysis showed a loss of endothelial cell-cell contacts after ICAM-3 crosslinking in HBMEC. Detailed biochemical analysis showed an association of moesin and in a later stage ezrin with ICAM-3 upon crosslinking in HBMEC. Moreover, ICAM-3 crosslinking induced the production of reactive oxygen species (ROS), which are known to be involved in the control of endothelial cell-cell contacts. In conclusion, we showed that ICAM-3 is expressed on human bone marrow endothelial cells and controls endothelial integrity via ROS-dependent signaling.