Antisense CD11b integrin inhibits the development of a differentiated monocyte/macrophage phenotype in human leukemia cells

Macrophage-like development of myeloid leukemia cells which can be induced by agents such as phorbol esters (TPA) is accompanied by integrin expression and cell adhesion. Thus, in differentiating myeloid leukemia cells CD11b is predominantly expressed which can associate with CD18 to form the functional heterodimeric integrin Mac-1. To elucidate the role of cell adhesion during macrophage-like differentiation, we transfected human U937 myeloid leukemia cells with a vector containing the CD11b gene in antisense orientation. Expression of the CD11b antisense gene in stably transfected U937 cells (as-CD11b cells) resulted in an attenuated response to TPA. As-CD11b cells demonstrated poor adhesion to solid substrate upon TPA treatment in contrast to U937 control cells. Constitutive expression of c-myc in as-CD11b transfectants was higher than in control cells and failed to be repressed by TPA treatment. Moreover, unlike control cells, antisense transfectants failed to induce expression of early response genes such as c-jun and the redox factor ref-1 upon TPA stimulation. Consequently, the induction of monocytic differentiation markers such as the activity of alpha-naphthyl acetate esterase, the capacity to reduce nitroblue tetrazolium and the expression of the vimentin gene was much lower in antisense transfectants than in control U937 cells. According to the failure to undergo a monocytic differentiation program, TPA treatment of as-CD11b cells resulted in a progressively increasing amount of apoptotic cells whereas the differentiated population of U937 control cells remained alive. Taken together, these data suggest that the integrin-mediated (particularly CD11b-mediated) adhesion of myeloid leukemia cells in the course of induced monocytic differentiation is crucial for cell attachment, development of a monocytic phenotype and subsequent survival.     

The N-Terminus of CD14 Acts to Bind Apoptotic Cells and Confers Rapid-Tethering Capabilities on Non-Myeloid Cells

Cell death and removal of cell corpses in a timely manner is a key event in both physiological and pathological situations including tissue homeostasis and the resolution of inflammation. Phagocytic clearance of cells dying by apoptosis is a complex sequential process comprising attraction, recognition, tethering, signalling and ultimately phagocytosis and degradation of cell corpses. A wide range of molecules acting as apoptotic cell-associated ligands, phagocyte-associated receptors or soluble bridging molecules have been implicated within this process. The role of myeloid cell CD14 in mediating apoptotic cell interactions with macrophages has long been known though key molecules and residues involved have not been defined. Here we sought to further dissect the function of CD14 in apoptotic cell clearance. A novel panel of THP-1 cell-derived phagocytes was employed to demonstrate that CD14 mediates effective apoptotic cell interactions with macrophages in the absence of detectable TLR4 whilst binding and responsiveness to LPS requires TLR4. Using a targeted series of CD14 point mutants expressed in non-myeloid cells we reveal CD14 residue 11 as key in the binding of apoptotic cells whilst other residues are reported as key for LPS binding. Importantly we note that expression of CD14 in non-myeloid cells confers the ability to bind rapidly to apoptotic cells. Analysis of a panel of epithelial cells reveals that a number naturally express CD14 and that this is competent to mediate apoptotic cell clearance. Taken together these data suggest that CD14 relies on residue 11 for apoptotic cell tethering and it may be an important tethering molecule on so called ‘non-professional’ phagocytes thus contributing to apoptotic cell clearance in a non-myeloid setting. Furthermore these data establish CD14 as a rapid-acting tethering molecule, expressed in monocytes, which may thus confer responsiveness of circulating monocytes to apoptotic cell derived material.     

Integrin and cytoskeleton behaviour in human neuroblastoma cells during hyperthermia-related apoptosis

Hyperthermia induces several cellular responses leading to morphological changes, cell detachment and death. Loss of integrins from the cell surface after acute heat-treatment may block several physiological signalling pathways, but whether the assembly network between integrin and cytoskeletal actin is perturbed during hyperthermic treatment is unknown. In this study we tested this hypothesis by evaluating cell morphology, protein cytoskeletal profile and integrin CD11a content in both adherent and floating SK-N-MC human neuroblastoma cells. Morphological and cytometric analyses confirmed that hyperthermia is an effective apoptotic trigger, revealing the typical chromatin margination, cell shape changes and 7-AAD incorporation. After hyperthermia, cytoskeletal proteins showed an increase of high-molecular-weight aggregates and a significant decrease of both actin and CD11a content with respect to control cells. The integrin CD11a and membrane-bound actin alterations found in detached floating neuroblastoma cells recovered after heat-shock may cause the cytoskeletal abnormalities related to the observed surface cell rounding/blebbing and anoikis, early events of hyperthermia-induced programmed cell death.     

VEGF-A stimulation of leukocyte adhesion to colonic microvascular endothelium: implications for inflammatory bowel disease

Inflammatory bowel disease (IBD) is a chronic inflammatory disorder characterized by increased leukocyte recruitment and subsequent tissue damage. An increase in the density of the microvasculature of the colon during IBD has been suggested, leading to the concept that angiogenesis may play a pathological role in IBD. Increased tissue and serum levels of the angiogenic cytokine VEGF-A have been reported in cases of active IBD. In this study, we examined the hypothesis that VEGF-A exerts a proinflammatory effect on colon microvascular endothelium that contributes to colonic inflammation. Leukocyte adhesion to VEGF-A-stimulated colon microvascular endothelial cells was examined using a parallel-plate hydrodynamic flow chamber. ICAM-1 adhesion molecule expression on colonic microvascular endothelium also was determined in response to VEGF-A stimulation, along with characterization of leukocyte adhesion molecule expression. High-dose VEGF-A (50 ng/ml) stimulation increased neutrophil and T cell adhesion to and decreased rolling velocities on activated endothelium, whereas low-dose VEGF-A (10 ng/ml) was without effect. Colonic endothelium constitutively expressed ICAM-1, which was significantly increased by treatment with 50 ng/ml VEGF-A or 10 ng/ml TNF-alpha but not 10 ng/ml VEGF-A. T cells expressed CD18 and CD11a with no expression of CD11b, whereas neutrophils expressed CD18, CD11a, and CD11b. Finally, VEGF-A-dependent leukocyte adhesion was found to occur in a CD18-dependent manner. These results demonstrate that VEGF-A levels found in IBD exert a proinflammatory effect similar to other inflammatory agents and suggest that this cytokine may serve as an intermediary between angiogenic stimulation and cell-mediated immune responses.     

Human natural killer cell activity against porcine targets: modulation by control of the oxidation-reduction environment and role of adhesion molecule interactions

Xenotransplantation, especially using porcine sources, has been proposed as a means to alleviate the shortage of human organs for transplantation. NK cells appear to be important mediators of the xenogeneic immune responses, including the human anti-pig response. Having previously established the redox regulation of NK cell activity against tumor target cells, we now report that the interaction of human NK cells with porcine target cells is also regulated by redox. Thiol-deprivation strongly diminished the capacity of IL-2-activated human NK cells to kill porcine endothelial cells. This inhibition correlated with reduced proliferation and interferon (IFN)-gamma production by IL-2-activated NK cells. For fresh NK cells, pretreatment with diethyl maleate (DEM), which was used to deplete intracellular thiols, reduced lysis of porcine and human targets. Because many adhesion molecules exhibit interspecies recognition, we further investigated whether changes in expression of adhesion molecules might explain our observations. DEM treatment reduced the expression of CD11b and CD29 on fresh NK cells. Monoclonal antibody blocking studies showed that the combination of mAb to CD11b and CD18 reduced lytic activity against both PAEC as well as K562, although other qualitative differences were observed between the porcine and human target cells. These findings suggest that the oxidative stress-induced downregulation of CD18 may be important in modulating cytotoxic activity of fresh NK cells against PAEC and K562 targets through reduced formation of the CD11b/CD18 heterodimer. Thus, the appropriate manipulation of redox status may provide a means to enhance survival of non-human animal tissues in humans through modulation of adhesion molecule expression/interactions.     

Mechanism of peripheral T cell activation by coengagement of CD44 and CD2.

A number of CD44 antibodies are known to augment peripheral T cell proliferation stimulated with suboptimal concentrations of activating pairs of CD2 mAb. These findings have implicated the CD44 adhesion receptor in the activation of peripheral T cells via CD2. We have investigated early events after CD44 and CD2 coengagement on peripheral T cells. CD44 and CD2 coengagement resulted in enhanced [Ca2+]i mobilization. However, the increase in [Ca2+]i mobilization did not occur until at least 3 min after CD2 and CD44 coengagement, suggesting that other events precede the elevation in [Ca2+]i. Using a T cell/fibroblast adhesion assay, we could demonstrate a dramatic increase in T cell adhesiveness after about 1 min after CD44 and CD2 coengagement. The increase in T cell adhesiveness was comparable to that induced by PMA. In the absence of antibodies or treatment with mAb directed to other T cell surface Ag, there was little if any adhesion between unstimulated peripheral T cells and fibroblasts. Enhancement of T cell adhesiveness through CD44 engagement was not mediated by a direct effect on lymphocyte-function associated Ag-3, the known ligand of CD2. However, cross-linking of CD44 resulted in epitopic modulation of CD2 as demonstrated by the increased expression of the T11(3) activation epitope. Furthermore, anti-CD44 could substitute for anti-T11(2) in the activation of peripheral T cells via CD2. These results suggest that CD44 ligation has profound effects on CD2-mediated events by inducing epitopic modulation of CD2.     

Apoptotic human lymphocytes have diminished CD4 and CD8 receptor expression

We used quantitative multiparameter flow cytometric assays to simultaneously detect viable, apoptotic, and necrotic human peripheral blood mononuclear cells (PBMC) and immunophenotyped lymphocyte subsets within the PBMC. Apoptosis was induced by a spectrum of treatments, including camptothecin, cisplatin, dexamethasone, hyperthermia, staurosporine, and etoposide in anti-CD3 mAb-stimulated cells and by cyclohexamide in both quiescent and stimulated cells; apoptosis in the latter was augmented by anti-fas mAb. We found that CD4(+) and CD8(+) cells were significantly underrepresented in the apoptotic PBMC and that the percentage of CD4(+) and CD8(+) PBMC each markedly decreased as apoptosis increased. This suggested that surface expression of these receptors was lessened on apoptotic CD4(+) and CD8(+) cells. This was directly confirmed by observation of sorted CD4(+) PBMC. This analysis of a wide variety of apoptotic stimuli demonstrates that diminished CD4 and CD8 surface receptor expression is a common feature of human T lymphocyte apoptosis.     

Decrease in CD93 (C1qRp) expression in a human monocyte-like cell line (U937) treated with various apoptosis-inducing chemical substances

Human CD93, a receptor for complement component 1, subcomponent q phagocytosis (C1qRp), has been shown to be selectively expressed by cells of a myeloid lineage and was originally reported to be involved in the C1q-mediated enhancement of phagocytosis in innate and adaptive immune responses. The modulation of CD93 expression has been investigated in various cells, particularly in granulocytes and monocytes . We previously reported that a protein kinase C activator (PKC), phorbol myristate acetate (PMA), effectively up-regulated CD93 expression on several cultured cell lines and that its regulation was mainly controlled by a PKC delta-isoenzyme. However, the expression pattern of CD93 in myeloid cells with apoptotic properties remains poorly understood. In this study, we examined the modulation of CD93 expression on a human monocyte-like cell line (U937) treated with various apoptosis-inducing chemical substances : an RNA-synthesis inhibitor, actinomycin D (ActD); a DNA topoisomerase I inhibitor, camptothecin (CPT); a protein-synthesis inhibitor, cycloheximide (CHX); a DNA topoisomerase II inhibitor, etoposide (EPS); and a DNA-synthesis inhibitor, mitomycin C (MMC). Apoptosis was monitored using two-color flow cytometry with Annexin V and 7-amino actinomycin D (7AAD). The above-mentioned substances sufficiently induced the early and late stages of apoptosis, identified as Annexin V positive (+)/7AAD negative (-) cells and Annexin V positive (+)/7AAD positive (+) cells, respectively, in U937 cells after 6 hr of treatment. The modulation of CD93 expression on U937 cells during the early stage of apoptosis, gated as Annexin V positive (+)/7AAD negative (-) cells, was then investigated using a CD93 mAb (mNI-11), originally established in our laboratories, and flow cytometry using a fluorescence-activated cell sorter (FACS). The mean fluorescence intensity (MFI) of the cells that stained positive for CD93 mAb (mNI-11) among the treated U937 cells showed a dramatic decrease in expression. In addition, the expressions of HLA-class I (HLA-A, B, C), HLA-class II (HLA-DR), CD18 (lymphocyte function-associated antigen-1 beta; LFA-1beta) and CD54 (intercellular adhesion molecule-1; ICAM-1) were also markedly decreased on the treated U937 cells identified as Annexin V positive (+)/7AAD negative (-) cells (early stage of apoptosis). Interestingly, the expression patterns of CD93 on the U937 cells treated with the above-mentioned chemical substances closely resembled those of HLA-class I (HLA-A, B, C). An immunoblotting analysis showed that the expression of a surface antigen (molecular size, about 97 kDa) targeted by the CD93 mAb (mNI-11) on the U937 cells treated with various apoptosis-inducing chemical substances had clearly decreased. On the other hand, an enzyme-linked immunoassay (EIA) showed that although PMA-treated U937 cells had strongly secreted soluble CD93 (sCD93) into the culture supernatant, the secretion of sCD93 in the culture supernatant of the U937 cells treated with the above-mentioned chemical substances was not enhanced, compared with that of untreated U937 cells. Importantly, however , the U937 cells with apoptotic properties induced by various apoptosis-inducing chemical substances also rapidly (in 30 min) and strongly secreted sCD93 into the culture supernatant in the presence of PMA. Taken together, these findings indicate that the expression of the CD93 molecule identified by CD93 mAb (mNI-11) is dramatically decreased on U937 cells with apoptotic properties, and that the decrease in CD93 expression on U937 cells treated with apoptosis-inducing chemical substances may be a good model for analyzing the regulation of CD93 expression on apoptotic myeloid cells.     

Cytokine-activated human endothelial monolayers support enhanced neutrophil transmigration via a mechanism involving both endothelial-leukocyte adhesion molecule-1 and intercellular adhesion molecule-1.

rIL-1 beta treatment of cultured human endothelial cells (HEC) promotes polymorphonuclear leukocyte (PMN) adhesion and transmigration. Using in vitro quantitative monolayer adhesion and videomicroscopic transmigration assays, we have examined the contributions of endothelial-leukocyte adhesion molecule-1 (ELAM-1), intercellular adhesion molecule-1 (ICAM-1), and the leukocyte adhesion complex, CD11/CD18, to these processes. Maximal enhancement of PMN adhesion and transmigration were observed after 4 h of rIL-1 beta treatment, when surface expression of ELAM-1 had peaked and ICAM-1 was modestly increased. Blocking mAb directed to either ELAM-1 or ICAM-1 inhibited greater than 90% of the up-regulated PMN transmigration. Blocking mAb directed to either CD11a/CD18 (LFA-1, a ICAM-1 counter-receptor), CD11b/CD18 (Mo-1), or CD18 (common beta 2-integrin) also blocked greater than 90% of PMN transmigration. At later time points (24 or 48 h), ELAM-1 surface expression was markedly decreased, whereas ICAM-1 expression was increased over the 4-h level; PMN adhesion remained elevated (approximately 50 to 60% of 4 h level), but transmigration returned to levels seen with unactivated HEC. These data indicate that PMN interaction with at least two distinct HEC adhesion molecules is necessary for transendothelial migration and suggests that PMN adhesion and transmigration, although interrelated, are mechanistically distinct processes.     

Effect of hyperthermia and chemotherapeutic agents on TRAIL-induced cell death in human colon cancer cells

Tumor necrosis factor-related apoptosis-inducing ligand (TRAIL) is a promising cancer therapeutic agent because of its tumor selectivity. TRAIL is known to induce apoptosis in cancer cells but spare most normal cells. In the previous study [Yoo and Lee, 2007], we have reported that hyperthermia could enhance the cytotoxicity of TRAIL-induced apoptosis. We observed in human colorectal cancer cell line CX-1 that TRAIL-induced apoptotic death and also that mild hyperthermia promoted TRAIL-induced apoptotic death through caspase activation and cytochrome-c release. Although its effects in vivo are not clear, hyperthermia has been used as an adjunctive therapy for cancer. Hyperthermia is often accompanied by chemotherapy to enhance its effect. In this study, CX-1 colorectal adenocarcinoma cells were treated with TRAIL concurrently with hyperthermia and oxaliplatin or melphalan. To evaluate the cell death effects on tumor cells via hyperthermia and TRAIL and chemotherapeutic agents, FACS analysis, DNA fragmentation, and immunoblottings for PARP-1 and several caspases and antiapoptotic proteins were performed. Activities of casapse-8, caspase-9, and caspase-3 were also measured in hyperthermic condition. Interestingly, when analyzed with Western blot, we detected little change in the intracellular levels of proteins related to apoptosis. Clonogenic assay shows, however, that chemotherapeutic agents will trigger cancer cell death, either apoptotic or non-apoptotic, more efficiently. We demonstrate here that CX-1 cells exposed to 42 degrees C and chemotherapeutic agents were sensitized and died by apoptotic and non-apoptotic cell death even in low concentration (10 ng/ml) of TRAIL.     

Comparison of adhesion mechanisms and surface protein expression in CD77-positive and CD77-negative Burkitt's lymphoma cells.

The Burkitt lymphoma-derived Daudi cell line is often used as an in vitro model for germinal center B-cell function. Globotriaosyl ceramide (CD77), a marker for germinal center B-cells, is present on Daudi cells but is deficient in the Daudi-derived mutant VT500 cell line. Previous results showed a correlation in these cells between CD77 expression and expression of the B-cell protein CD19 and indicated that CD19/CD77 interaction is a mechanism for B-cell adhesion. Roles for CD77 in IFN-alpha-induced growth inhibition and anti-viral activity also have been described previously. Through flow cytometric analysis and adhesion assays, we investigated whether expression of CD77 was required for cell adhesion pathways induced by IFN or antibodies against additional B-cell surface molecules: CD20, CD22, CD38, CD40, CD81 and HLA-D proteins. In contrast to the pronounced homotypic adhesion induced by treatment with interferon-alpha in Daudi cells, no increase in adhesion was observed in IFN-treated VT500 cells. Of the B-cell proteins tested, only CD22-mediated adhesion and surface expression was stronger in Daudi than in VT500 cells. These results indicate that CD77 may be required for IFN and CD22-associated adhesion pathways, but CD77 is not a universal component of adhesion pathways in these cells.     

CD34+ cells homing: quantitative expression of adhesion molecules and adhesion of CD34+ cells to endothelial cells exposed to shear stress

To investigate the function of the main adhesion receptors (CD62L, CD49d, CD49e, CD11b and CD18) on CD34+ cells during homing, their expression was quantified by flow cytometry using calibration beads. CD34+ cells were isolated from bone-marrow (BM), cord blood (CB) or peripheral blood (PB) from patients with myeloma. As this process might mimic the mature leukocyte migration, we also observed the effect of exposing endothelial cells to shear stress (7 dyn/cm(2)) on the adhesion of CB CD34+ cells.The proportion of CD34+/CD62L+ cells was greater in PB than in BM (p<0.05). Likewise, we found a significantly greater expression of CD62L receptor on PB cells compared to BM cells (p<0.05) and on BM cells compared to CB cells (p<0.05). The proportions of CD34+/CD49d+ cells and CD34+/CD49e+ cells were significantly higher in the BM and CB than in PB. However, no significant difference in CD49d or CD49e antigen densities was observed. The beta_2 integrins (CD11b and CD18) receptors are also implicated in CD34+ cells homing to BM. No significant variation in CD34+/CD11b+ and CD34+/CD18+ cells frequency was noted. However quantitative analysis revealed that CD18 was more strongly expressed on BM cells than on PB and CB cells.The adhesion assay showed that fluid flow may favour a firm adhesion of CB CD34+ cells to endothelial cells whereas static conditions just allowed CD34+ cells sedimentation.In conclusion, quantitative expression of the main receptors on CD34+ cells indicates that the three main sources of CD34+ cells currently used for transplantation have neither the same phenotype nor the same number of antigenic sites for a receptor. So, we hypothesize that migrational capacity of these cells might be different. Moreover, it seems that shear stress could favor adhesion of CD34+ cells to endothelial cells.     

Participation of beta2-integrins CD11b/CD18 and CD11c/CD18 in adhesion and migration of cells on fibrinogen

The role of beta2-integrins CD11b/CD18 and CD 11c/CD 18 in adhesion and migration of leukocytes on fibrinogen was studied. The monoclonal antibodies against CD11b inhibited the spontaneous adhesion of monocytic THP-1 cells on fibrinogen, whereas antibodies to CD11c more effectively inhibited the adhesion stimulated by chemokine MCP-1. By the RNA-interference method the clones of THP-1 with reduced expression of CD11b and general beta2-subunit CD18 were obtained. MCP-I stimulated the adhesion to fibrinogen of THP-1 cells of wild-type and mutant cells with reduced expression of CD11b (THP-1-CD11b-low), but not of cells with low expression of CD18 (THP-1-CD18-low). THP-1-CD18-low cells were also characterized by the impaired chemotaxis in presence of MCP-1. The data obtained suggest that spontaneous cell adhesion to fibrinogen is mediated to a greater extent by CD11b/CD18 integrins, while chemokine-stimulated adhesion and migration is mostly dependent on CD11c/CD18 molecules.     

Constitutive and stimulus-induced phosphorylation of CD11/CD18 leukocyte adhesion molecules

The leukocyte CD11/CD18 adhesion molecules (beta 2 integrins) are a family of three heterodimeric glycoproteins each with a distinct alpha subunit (CD11a, b, or c) and a common beta subunit (CD18). CD11/CD18 mediate crucial leukocyte adhesion functions such as chemotaxis, phagocytosis, adhesion to endothelium, aggregation, and cell-mediated cytotoxicity. The enhanced cell adhesion observed upon activation of leukocytes is associated with increased surface membrane expression of CD11/CD18, as well as a qualitative upregulation of CD11/CD18 functions. To elucidate the nature of the qualitative modifications that occur, we examined the phosphorylation status of these molecules in resting human leukocytes and upon activation with PMA or with the chemotactic peptide F-met-leu-phe (FMLP). In unstimulated cells, all three CD11 subunits were found to be constitutively phosphorylated. In contrast, phosphorylation of the common CD18 subunit was minimal. PMA induced rapid and sustained phosphorylation of CD18 that occurred at high stoichiometry, but had only minimal effects on phosphorylation of the associated CD11 subunits. FMLP also induced rapid phosphorylation of CD18, but the effect was of short duration. FMLP-induced phosphorylation of CD18 was not related to its Ca++-mobilizing effect, as CD18 phosphorylation was not observed upon treatment of leukocytes with the Ca++ ionophore, ionomycin. Phosphoamino acid analysis of CD11/CD18 in PMA- or FMLP-treated monocytes revealed a predominance of phosphoserine residues in all CD11/CD18 subunits. A small component of phosphothreonine was present in CD11c and CD18 and a minor component of phosphotyrosine was also detected in CD18 upon leukocyte activation may regulate the adhesion functions mediated by the CD11/CD18 family of molecules.     

Expression of the cell adhesion molecule E-cadherin by the human bone marrow stromal cells and its probable role in CD34(+) stem cell adhesion.

Bone marrow stroma is the physical basis of the haematopoietic microenvironment and regulates several key features of stem cell proliferation and differentiation. It plays a crucial role in maintaining haematopoietic homeostasis. Earlier studies have shown that this is achieved through interactions with the extracellular matrix and specific molecules called the cell adhesion molecules (CAMs). In this paper, we show that E-cadherin, a cell adhesion molecule which plays a crucial role in cell-cell aggregation during development, is also present in the bone marrow stroma. The expression of the CAM can also be demonstrated on a subset of CD34(+)stem cells. Stromal expression of E-cadherin is decreased when treated with lymphokine mixture, phytohaemagglutinin-treated-leukocyte-conditioned medium (PHA-LCM). This is the reverse of ICAM-I expression, which increases with PHA-LCM treatment. E-cadherin shows homotypic and homophilic interaction and its presence on a subset of CD34(+)cells leads to speculation on whether this CAM has a role in adherence of primitive stem cells to the marrow stroma.