Lipopolysaccharide stimulates monocyte adherence by effects on both the monocyte and the endothelial cell

The effects of the LPS moiety of endotoxin on monocyte adherence to an endothelial cell surface were investigated over times before the development of well described LPS-induced endothelial cell surface adhesive molecules. In an in vitro microtiter adherence assay, LPS in concentrations of 10 ng/ml to 10 micrograms/ml incubated for 20 to 60 min with human monocytes significantly stimulated monocyte adherence to human umbilical vein endothelial cell monolayers (HUVEC) and serum-coated plastic surfaces. The time course and concentration dependence of LPS-stimulated monocyte adherence to glutaraldehyde-fixed HUVEC did not differ significantly from that to unfixed HUVEC or serum-coated plastic surfaces. Pretreatment studies suggested that LPS acted on the monocyte within 25 min to stimulate adherence to untreated endothelial cells but required a minimum of 1.5 to 2 h to render the endothelial cell more adhesive for untreated monocytes. The potential role of TNF-alpha, IL-1 alpha, and IL-1 beta in this system was assessed by determining the ability of these cytokines (+/- cytokine antibodies) to increase monocyte adherence. TNF, but neither IL-1, stimulated early monocyte adherence (1 h). This TNF-stimulated monocyte adherence was abrogated by coincubation with anti-rTNF-alpha polyclonal antibody. However, the anti-rTNF antibody had no effect on LPS-induced monocyte adherence to endothelial cells or serum-coated plastic surfaces. An early action of LPS on the monocyte to induce adherence to endothelial cell surfaces may contribute to the initial localization of peripheral blood monocytes in tissues during endotoxemia. The later effects of LPS on the endothelial cell to stimulate monocyte adherence may then amplify these initial monocyte-endothelial cell interactions to prolong and intensify monocyte adherence prior to migration into tissues.     

Interferon-gamma induction of LFA-1-mediated homotypic adhesion of human monocytes

Cell-cell adhesion plays an important role in monocyte function. To investigate the molecular basis for monocyte adhesion, we used recombinant interferon-gamma to induce the formation of homotypic monocyte adhesions. The induction of homotypic adhesions correlated with the increased expression of the LFA-1 membrane molecule. LFA-1 surface expression was increased twofold, whereas expression levels of other monocyte surface molecules including CR3 and p150,95 were unchanged. The direct involvement of LFA-1 in monocyte adhesion was addressed by anti-LFA-1 monoclonal antibody inhibition of homotypic adhesions. Two monoclonal antibodies to distinct epitopes on the LFA-1 alpha-chain completely inhibited homotypic adhesions. Antibodies to a variety of other monocyte surface molecules, often present at higher cell surface density than LFA-1, did not inhibit homotypic adhesion. A panel of monoclonal antibodies that recognized different functional epitopes on the LFA-1 alpha-chain inhibited homotypic monocyte in a hierarchy identical to that observed in previous studies of cell-mediated cytotoxicity. These findings suggest that LFA-1 serves an adhesive function for human mononuclear phagocytes. In addition to providing a molecular basis for homotypic monocyte adhesions, the results suggest a more general role for LFA-1 in monocyte adhesion reactions.     

In vivo Mononuclear Phagocyte Migration: Paradoxical Effect of Adrenalectomy

The effect of adrenalectomy on neutrophil and monocyte migration into rat peritoneal and pleural cavities was investigated. Carrageenin- or thioglycollate-induced neutrophil emigration into both cavities was enhanced by adrenalectomy. In contrast, monocyte migration into peritoneal cavities induced by these two stimuli was significantl decreased. In pleural cavities, adrenalectomy enhanced the monocyte migration induced by carrageenin but had no effect on that induced by thioglycollate. Administration of physiological doses of glucocorticoids reversed the effect of adrenalectomy on monocyte migration by both stimuli into both cavities. The results support the hypothesis that endogenous glucocorticotds negatively control neutrophil migration independently of the site or type of stimulus. Their role in monocyte migration is, however, dependent on the site of injury and on the type of inflammatory stimulus. There is no obvious explanation for the divergent influence of endogenous glucocorticoids on the monocyte emigration into peritoneal and pleural cavities observed with different stimuli.     

Hydrocortisone-mediated inhibition of monocyte antigen presentation: Dissociation of inhibitory effect and expression of DR antigens

The suppressive effects of hydrocortisone (HC) on the human immune system are well known. The mediation of the immunosuppressive effects of HC on lymphocyte responses via inhibition of monocyte function has been examined by monocyte-dependent, antigen-induced lymphocyte proliferation. Monocytes that were first treated with HC and then washed were unaffected in their subsequent ability to present antigen. However, there was a dramatic inhibition of lymphocyte proliferative responses if HC was present while monocytes were pulsed with antigen. This was directly related to the dose of HC present. HC-mediated inhibition of monocyte antigen presentation could not be overcome by the addition of interleukin-1 (IL-1) to the cultures, and thus inhibition of monocyte IL-1 secretion cannot totally account for the inhibition of monocyte antigen presentation. Although HC inhibits monocyte antigen presentation, HC increases the expression of HLA-DR antigens on monocytes. Other monocyte stimulants, including lipopolysaccharide (LPS), lymphokine, and gamma interferon, were examined for their effect on monocyte DR expression and their effect on monocyte antigen presentation. No correlation was found between the ability to increase monocyte DR antigen expression and the effect on antigen presentation. While HC, lymphokine, and gamma interferon all increased the expression of DR antigens on monocytes, HC, LPS, and lymphokine, but not gamma interferon, inhibited monocyte antigen presentation. Although HC can exert profound immunosuppressive effects via monocytes, it is not the only mechanism of inhibition. HC added to cultures after monocytes had been pulsed with antigen was also inhibitory.     

Short-time infusion of fish oil-based lipid emulsions, approved for parenteral nutrition, reduces monocyte proinflammatory cytokine generation and adhesive interaction with endothelium in humans

Potential impact of omega-3 fatty acids, as contained in fish oil, on immunological function has been suggested because observations of reduced inflammatory diseases in Greenland Inuit were published. A fish oil-based lipid emulsion has recently been approved for parenteral nutrition in many countries. We investigated the influence of a short infusion course of fish oil-based (omega-3) vs conventional (omega-6) lipid emulsion on monocyte function. In a randomized design, twelve healthy volunteers received omega-3 or omega-6 lipid infusion for 48 h, with cross-over repetition of the infusion course after 3 mo. Fatty acid profiles, monocyte cytokine release and adhesive monocyte-endothelium interaction were investigated. Resultant omega-6 lipid emulsion increased plasma-free fatty acids including arachidonic acid, whereas the omega-3/omega-6 fatty acid ratio in monocyte membranes remained largely unchanged. It also caused a tendency toward enhanced monocyte proinflammatory cytokine release and adhesive monocyte-endothelium interaction. In contrast, omega-3 lipid emulsion significantly increased the omega-3/omega-6 fatty acid ratio in the plasma-free fatty acid fraction and in monocyte membrane lipid pool, markedly suppressing monocyte generation of TNF-alpha, IL-1, IL-6, and IL-8 in response to endotoxin. In addition, it also significantly inhibited both monocyte-endothelium adhesion and transendothelial monocyte migration, although monocyte surface expression of relevant adhesive molecules (CD11b, CD18, CD49 days, CCR2) was unchanged. Although isocaloric, omega-3 and omega-6 lipid emulsions exert differential impact on immunological processes in humans. In addition to its nutritional value, fish oil-based omega-3 lipid emulsion significantly suppresses monocyte proinflammatory cytokine generation and features of monocyte recruitment.     

Monocyte migration through the alveolar epithelial barrier: adhesion molecule mechanisms and impact of chemokines

Alveolar monocyte influx requires adherence and transmigration through the vascular endothelium, extracellular matrix, and alveolar epithelium. For investigating the monocyte migratory process across the epithelial barrier, we employed both the A549 cell line and isolated human alveolar epithelial cells. Under baseline conditions, spontaneous bidirectional transepithelial monocyte migration was noted, which was dose-dependently increased in the presence of the monocyte chemoattractant protein-1. TNF-alpha stimulation of the alveolar epithelium provoked the polarized apical secretion of monocyte chemoattractant protein-1 and RANTES and up-regulation of ICAM-1 and VCAM-1 expression, accompanied by markedly enhanced transepithelial monocyte traffic in the basal-to-apical direction. Multiple adhesive interactions were noted to contribute to the enhanced monocyte traffic across the TNF-alpha-stimulated alveolar epithelium: these included the beta 2 integrins CD11a, CD11b, CD11c/CD18, the beta 1 integrins very late Ag (VLA)-4, -5, and -6, and the integrin-associated protein CD47 on monocytes, as well as ICAM-1, VCAM-1, CD47, and matrix components on the epithelial side. In contrast, spontaneous monocyte migration through unstimulated epithelium depended predominantly on CD11b/CD18 and CD47, with some additional contribution of VLA-4, -5, and -6. In summary, unlike transendothelial monocyte traffic, for which beta 1 and beta 2 integrins are alternative mechanisms, monocyte migration across the alveolar epithelium largely depends on CD11b/CD18 and CD47 but required the additional engagement of the beta 1 integrins for optimal migration. In response to inflammatory challenge, the alveolar epithelium orchestrates enhanced monocyte traffic to the apical side by polarized chemokine secretion and up-regulation of ICAM-1 and VCAM-1.     

Characterization of cell suspensions adhering to nylon obtained from mononuclear cells in toto or depleted of monocytes

The aim of this work was to evaluate the effect of monocyte depletion on the preparation of B cell enriched suspensions for DR typing. Nylon fiber adherent-cells obtained from total, or monocyte depleted, MNC were identified using different surface markers and cytochemical staining (SIg, DR, ANAE). The results demonstrate that no significant improvement in B enrichment is obtained by monocyte depletion.     

TLR4-Mediated Expression of Mac-1 in Monocytes Plays a Pivotal Role in Monocyte Adhesion to Vascular Endothelium

Toll-like receptor 4 (TLR4) is known to mediate monocyte adhesion to endothelial cells, however, its role on the expression of monocyte adhesion molecules is unclear. In the present study, we investigated the role of TLR4 on the expression of monocyte adhesion molecules, and determined the functional role of TLR4-induced adhesion molecules on monocyte adhesion to endothelial cells. When THP-1 monocytes were stimulated with Kdo2-Lipid A (KLA), a specific TLR4 agonist, Mac-1 expression was markedly increased in association with an increased adhesion of monocytes to endothelial cells. These were attenuated by anti-Mac-1 antibody, suggesting a functional role of TLR4-induced Mac-1 on monocyte adhesion to endothelial cells. In monocytes treated with MK886, a 5-lipoxygenase (LO) inhibitor, both Mac-1 expression and monocyte adhesion to endothelial cells induced by KLA were markedly attenuated. Moreover, KLA increased the expression of mRNA and protein of 5-LO, suggesting a pivotal role of 5-LO on these processes. In in vivo studies, KLA increased monocyte adhesion to aortic endothelium of wild-type (WT) mice, which was attenuated in WT mice treated with anti-Mac-1 antibody as well as in TLR4-deficient mice. Taken together, TLR4-mediated expression of Mac-1 in monocytes plays a pivotal role on monocyte adhesion to vascular endothelium, leading to increased foam cell formation in the development of atherosclerosis.     

Triggering HLA-DR molecules on human peripheral monocytes induces their death

Although engagement of MHC class II molecules on human monocytes triggers various cellular events, their possible role in monocyte death is yet unknown. We demonstrate that ligation of MHC class II on primary monocytes induces a rapid cell death that has all the characteristics of monocyte apoptosis, does not require de novo protein synthesis, is independent from both Fas and TNF-alpha systems, and is not rescued by ligation of CD40. However, cell-cell interactions that involve the beta2-integrin CD18 seem to be critical for the execution of this monocyte death. Priming monocytes with IFN-gamma enhances significantly their HLA-DR-mediated death whereas LPS treatment effectively reverses this death process. Thus, our results describe the MHC class II molecules, in particular HLA-DR, as mediators of monocyte death and suggest that this novel pathway of monocyte death might have an important role in controlling the outcome of inflammatory process and the regulation of monocyte hemostasis.     

Alveolar epithelial cells direct monocyte transepithelial migration upon influenza virus infection: impact of chemokines and adhesion molecules

Influenza A virus pneumonia is characterized by severe lung injury and high mortality. Early infection elicits a strong recruitment of monocytes from the peripheral blood across the endo-/epithelial barrier into the alveolar air space. However, it is currently unclear which of the infected resident lung cell populations, alveolar epithelial cells or alveolar macrophages, elicit monocyte recruitment during influenza A virus infection. In the current study, we investigated whether influenza A virus infection of primary alveolar epithelial cells and resident alveolar macrophages would elicit a basal-to-apical monocyte transepithelial migration in vitro. We found that infection of alveolar epithelial cells with the mouse-adapted influenza A virus strain PR/8 strongly induced the release of monocyte chemoattractants CCL2 and CCL5 followed by a strong monocyte transepithelial migration, and this monocytic response was strictly dependent on monocyte CCR2 but not CCR5 chemokine receptor expression. Analysis of the adhesion molecule pathways demonstrated a role of ICAM-1, VCAM-1, integrin-associated protein (CD47), and junctional adhesion molecule-c on the epithelial cell surface interacting with monocyte beta(1) and beta(2) integrins and integrin-associated protein in the monocyte transmigration process. Importantly, addition of influenza A virus-infected alveolar macrophages further enhanced monocyte transmigration across virus-infected epithelium in a TNF-alpha-dependent manner. Collectively, the data show an active role for virus-infected alveolar epithelium in the regulation of CCL2/CCR2-dependent monocyte transepithelial migration during influenza infection that is essentially dependent on both classical beta(1) and beta(2) integrins but also junctional adhesion molecule pathways.     

Neutralization of interleukin (IL)-10 released by monocytes/macrophages enhances the up-regulatory effect of monocyte/macrophage-derived IL-6 on expressions of IL-6 and MUC1, and migration in HT-29 colon cancer cells

The interactions between monocyte-derived IL-6 and IL-10 in colon cancer are unknown. We continued previous work that showed monocyte/macrophage-derived IL-6 induces IL-6 and MUC1 expression in HT-29 cancer cells, and evaluated if IL-10 present in monocyte/macrophage is involved in this IL-6-mediated effect. We treated HT-29 cells with monocyte/macrophage supernatant following neutralization of monocyte/macrophage-released IL-10. Neutralization markedly enhanced monocyte/macrophage-derived IL-6 effects on HT-29 cells including IL-6 and MUC1 production and cell migration. Double blocking of IL-6 and IL-10 in monocyte/macrophage supernatants abolished this enhancement. Western blot analysis of STAT3 phosphorylation showed that this augmented response in HT-29 cells following IL-10 neutralization is probably mediated through enhanced IL-6-induced phosphorylation (Tyr⁷⁰⁵) of STAT3 proteins. Therefore, monocytes/macrophages have the capacity to release the functionally associated cytokines IL-6 and IL-10 whose interactions can account for the pathogenesis and progression of colon cancer.     

Lipoprotein-derived lysophosphatidic acid promotes atherosclerosis by releasing CXCL1 from the endothelium

Oxidatively modified low-density lipoprotein (oxLDL) plays a key role in the initiation of atherosclerosis by increasing monocyte adhesion. The mechanism that is responsible for the oxLDL-induced atherogenic monocyte recruitment in vivo, however, still remains unknown. Oxidation of LDL generates lysophosphatidylcholine, which is the main substrate for the lysophosphatidic acid (LPA) generating enzyme autotaxin. We show that oxLDL requires endothelial LPA receptors and autotaxin to elicit CXCL1-dependent arterial monocyte adhesion. Unsaturated LPA releases endothelial CXCL1, which is subsequently immobilized on the cell surface and mediates LPA-induced monocyte adhesion. Local and systemic application of LPA accelerates the progression of atherosclerosis in mice. Blocking the LPA receptors LPA(1) and LPA(3) reduced hyperlipidemia-induced arterial leukocyte arrest and atherosclerosis in the presence of functional CXCL1. Thus, atherogenic monocyte recruitment mediated by hyperlipidemia and modified LDL crucially depends on LPA, which triggers endothelial deposition of CXCL1, revealing LPA signaling as a target for cardiovascular disease treatments.     

Continuous treatment with recombinant Mycobacterium tuberculosis CFP-10-ESAT-6 protein activated human monocyte while deactivated LPS-stimulated macrophage

Influence of the recombinant culture filtered protein 10 (CFP-10) and early-secreted antigenic target 6kDa protein (ESAT-6) (r-CFP-10-ESAT-6, rCE) of Mycobacterium tuberculosis (Mtb) on human monocyte and macrophage activation was investigated using human monocyte, monocyte like THP-1 cell line and monocyte derived macrophage (MDM). rCE solely enhanced TNF-alpha release from human monocytes and THP-1 cells in a dose- and time-dependent manner. rCE enhanced expression of CD80 and CD40, it also synergized with IFN-gamma in induction of TNF-alpha production and HLA-DR expression. Pharmacological agents that selectively inhibit mitogen activated protein kinase activation markedly suppressed rCE-induced TNF- alpha release. However, continuous presence of rCE (>72h) during monocyte to macrophage differentiation inhibited macrophage response to LPS stimulation. Collectively, these data suggest that rCE might have differential influence on monocyte and macrophage activation, which might be correlated with Mtb immune evasion.     

Rosiglitazone inhibits monocyte/macrophage adhesion through de novo adiponectin production in human monocytes

Rosiglitazone (RSG) has a variety of actions on both insulin sensitization and anti‐atherogenic effects. The molecular effect of RSG on monocyte/macrophage function in terms of de novo synthesis of adiponectin is not fully understood. Here, we examined the regulation of adiponectin expression in human monocytes/macrophages by RSG and its function on monocyte adhesion during initiation of atherosclerosis. Adiponectin expression in monocytes and macrophages was studied by RT‐PCR, quantitative real‐time PCR, Western blot, and immunocytochemistry. Signal transduction and adhesion molecules were studied in order to describe the function of de novo synthesized adiponectin in monocyte adhesion. Adiponectin was expressed and upregulated during monocyte differentiation. The expression of adiponectin was enhanced, albeit at a much lesser degree, by a peroxisome proliferator‐activated receptor gamma (PPARγ) agonist RSG, which was similar to what was found in adipocytes. Monocyte adhesion was remarkably reduced when the cells were treated with RSG for 12 h. This inhibitory effect of RSG was abolished by specific anti‐adiponectin antibodies but not by non‐immune immunoglobulin G in a serum‐free condition. Adiponectin‐induced suppression on monocyte adhesion was inhibited by a selective AMP‐activated protein kinase (AMPK) inhibitor compound C. The reduced expression and/or function of adhesion molecule integrins may underlie the mechanism contributing to reduced monocyte adhesion upon AMPK activation. Our data suggest that the inhibitory effect of RSG on monocyte adhesion might be at least in part through de novo adiponectin expression and activation of an AMPK‐dependent pathway, which might play an important role in atherogenesis. J. Cell. Biochem. 110: 1410–1419, 2010. © 2010 Wiley‐Liss, Inc.     

CCR2-positive monocytes recruited to inflamed lungs downregulate local CCL2 chemokine levels

The CC chemokine ligand-2 (CCL2) and its receptor CCR2 are essential for monocyte trafficking under inflammatory conditions. However, the mechanisms that determine the intensity and duration of alveolar monocyte accumulation in response to CCL2 gradients in inflamed lungs have not been resolved. To determine the potential role of CCR2-expressing monocytes in regulating alveolar CCL2 levels, we compared leukocyte recruitment kinetics and alveolar CCL2 levels in wild-type and CCR2-deficient mice in response to intratracheal LPS challenge. In wild-type mice, LPS elicited a dose- and time-dependent alveolar monocyte accumulation accompanied by low CCL2 levels in bronchoalveolar lavage fluid (BALF). In contrast, LPS-treated CCR2-deficient mice lacked alveolar monocyte accumulation, which was accompanied by relatively high CCL2 levels in BALF. Similarly, wild-type mice that were treated systemically with the blocking anti-CCR2 antibody MC21 completely lacked LPS-induced alveolar monocyte trafficking that was associated with high CCL2 levels in BALF. Intratracheal application of anti-CCR2 antibody MC21 to locally block CCR2 on both resident and recruited cells did not affect LPS-induced alveolar monocyte trafficking but led to significantly increased BALF CCL2 levels. Reciprocally bone marrow-transplanted, LPS-treated wild-type and CCR2-deficient mice showed a strict inverse relationship between alveolar monocyte recruitment and BALF CCL2 levels. In addition, freshly isolated human and mouse monocytes were capable of integrating CCL2 in vitro. LPS-induced alveolar monocyte accumulation is accompanied by monocytic CCR2-dependent consumption of CCL2 levels in the lung. This feedback loop may limit the intensity of monocyte recruitment to inflamed lungs and play a role in the maintenance of homeostasis.     

Liposomes expressing IL 1 biological activity

We determined the activity of IL 1, obtained from various human monocyte subcellular compartments, when associated with liposomes. Soluble IL 1, bound to the outer surface of lyophilized liposomes, stimulated responsive target cells. However, this activity was not preserved when soluble IL 1 was incorporated into the inner chambers of classical liposomes. In contrast, monocyte plasma membranes that exhibited IL 1 activity had the same level of activity when presented on lyophilized liposomes and when incorporated inside the classical liposomes. However, monocyte plasma membranes bound to the outer surface of the liposomes exhibited greater activity than the monocyte membrane IL 1 itself in its soluble form. This suggests that membrane IL 1 is an integral membrane protein, readily integrated into the lipid bilayers. Like soluble IL 1, the expression of IL 1 activity present in the cytosol of activated monocytes was decreased by incorporation into liposomes, but was high and active when presented on lyophilized liposomes. The best artificial cell reconstitution was obtained with lyophilized liposomes in association with monocyte cytosol and plasma membranes. When an unactivated monocyte compartment was mixed with one from an activated monocyte, the signal was equal to that of the activated cell compartment alone. The IL 1 activity of activated cell fractions associated with lyophilized liposomes was determined, and an increase of IL 1 activity for both plasma membranes and cytosol was observed, whereas a decrease of the signal was obtained for the lysosomal compartment. Endoplasmic reticulum showed no IL 1 activity, even after trypsin treatment. The highest activity after trypsin treatment was recovered in the cytosol associated with lyophilized liposomes, suggesting that molecules obtained after this treatment were able to bind tightly to the lipid bilayers.     

Human monocyte adherence: a primary effect of chemotactic factors on the monocyte to stimulate adherence to human endothelium

Monocyte emigration into areas of inflammation is initiated by monocyte adherence to the microvascular endothelium which may be induced by the local production of chemotactic factors at the inflammatory site. However, it is not clear whether such stimuli act on the monocyte and/or the endothelial cell to promote this effect. Accordingly, the effect of the chemotactic peptides C5a des arg and formyl-methionyl-leucyl-phenylalanine (FMLP) on human monocyte adherence to human microvascular endothelial cell monolayers was investigated in vitro. Monocytes (92 to 98% pure) were isolated by discontinuous plasma-Percoll density gradients and cell elutriation, methods designed to minimize monocyte exposure to endotoxin. Mean spontaneous (unstimulated) adherence of 111Indium-tropolonate-radiolabeled monocytes to microvascular endothelial cell monolayers was 19.7% +/- 1.3. Monocyte adherence to microvascular endothelial cell monolayers was stimulated in a dose-response fashion in the presence of C5a des arg or FMLP to a maximum mean adherence of 47.2% +/- 2.9 or 43.8% +/- 2.2, respectively. C5a des arg or FMLP stimulated monocytes to adhere to monolayers of human vascular smooth muscle cells, human dermal fibroblasts, or serum-coated plastic wells in a comparable fashion as to endothelial cells. The simultaneous presence of both chemotactic peptides C5a des arg and FMLP in the assay system stimulated monocyte adherence to the same degree as either stimulus alone. This finding suggested that those monocytes stimulated to adhere by C5a des arg were the same subpopulation responding to FMLP. Spontaneous monocyte adherence (in the absence of chemotactic peptides) to both endothelial cell monolayers and serum-coated plastic wells was reduced in the presence of plasma, but chemotactic peptides induced a significant, albeit reduced, adhesion of monocytes in this circumstance. The pretreatment of monocytes with either C5a des arg or FMLP prior to the adherence assay induced stimulus-specific desensitization of monocyte adherence. Neither a desensitization nor stimulated monocyte adherence occurred when endothelial cell monolayers or serum-coated plastic wells were pretreated with either of the chemotactic peptides. The fixation of endothelial cell monolayers prior to the adherence assay did not alter the degree of spontaneous, C5a des arg-stimulated, or FMLP-stimulated monocyte adherence. These data suggest that the stimulated adhesion of monocytes to endothelial cells by C5a des arg or FMLP represents primarily an effect of these chemotactic peptides on the monocyte.     

Activated T lymphocytes regulate hyaluronan binding to monocyte CD44 via production of IL-2 and IFN-gamma

Interactions of the cell surface proteoglycan CD44 with the extracellular matrix glycosaminoglycan hyaluronan (HA) are important during inflammatory immune responses. Our previous studies indicated that monocyte HA binding could be induced by TNF-alpha. Moreover, monocyte HA binding could be markedly up-regulated by culturing PBMC with anti-CD3 (TCR complex) mAbs. The present study was undertaken to identify soluble factors and/or cell surface molecules of activated T lymphocytes that might regulate HA binding to monocytes. Abs to IL-1 alpha, IL-1 beta, IL-2, IL-3, IL-10, IL-15, GM-CSF, IFN-gamma, and TNF-alpha were tested for their effects on anti-CD3 mAb-, Con A-, and PMA/ionomycin-mediated monocyte HA binding in PBMC cultures. Anti-TNF-alpha, anti-IL-2, and anti-IFN-gamma Abs, when added together to PBMC cultures, completely blocked Con A- and partially blocked anti-CD3- and PMA/ionomycin-induced monocyte HA binding. Furthermore, when added together to PBMC cultures, IL-2 and TNF-alpha induced high levels of monocyte HA binding. Likewise, IFN-gamma augmented TNF-alpha-induced monocyte HA binding. To investigate the role of T cell-monocyte direct contact in induction of monocyte HA binding, we studied PMA/ionomycin-activated, paraformaldehyde-fixed CD4(+) T cells in these assays. Fixed, PMA/ionomycin-activated CD4(+) T lymphocytes induced monocyte HA binding, but direct T cell-monocyte contact was not required. Moreover, anti-IFN-gamma and anti-TNF-alpha Abs blocked fixed PMA/ionomycin-activated CD4(+) T cell-induced monocyte HA binding. Taken together, these studies indicate roles for soluble T lymphocyte-derived factor(s), such as IL-2 and IFN-gamma, and a role for monocyte-derived TNF-alpha in Con A-, TCR complex-, and PMA/ionomycin-induced HA binding to monocyte CD44.     

Thiazolidinedione inhibits the production of monocyte chemoattractant protein-1 in cytokine-treated human vascular endothelial cells.

The chemokine monocyte chemoattractant protein-1 is a potent chemoattractant for monocytes. Monocyte chemoattractant protein-1 is produced by vascular endothelial cells during inflammatory diseases such as atherosclerosis. In this study, we examined the effects of a thiazolidinedione on monocyte chemoattractant protein-1 expression in human vascular endothelial cells. In human vascular endothelial cells, interleukin-1beta and tumor necrosis factor-alpha induced endogenous monocyte chemoattractant protein-1 protein secretion, mRNA expression and promoter activity. The thiazolidinedione inhibited these effects. In summary, our results indicated that the suppression of the expression of monocyte chemoattractant protein-1 can be accomplished by thiazolidinedione treatment, raising the possibility that thiazolidinedione may be of therapeutic value in the treatment of diseases such as atherosclerosis.     

TNFalpha and IL-4 regulation of hyaluronan binding to monocyte CD44 involves posttranslational modification of CD44

Our previous studies have identified TNFalpha as a positive regulator and IL-4 as a negative regulator of human monocyte CD44-HA binding. In order to determine the mechanisms of IL-4- and TNFalpha-mediated regulation of monocyte HA binding, we measured HA binding and CD44 expression on peripheral blood monocytes following monocyte treatment with TNFalpha or IL-4, as well as following monocyte treatment with inhibitors of protein synthesis, N- and O-linked glycosylation, and chondroitin sulfation. IL-4 decreased CD44-HA binding on monocytes initially treated with TNFalpha. Similarly, pretreatment of monocytes with IL-4 prevented subsequent TNFalpha-mediated HA binding. Cycloheximide (protein synthesis inhibitor), tunicamycin (N-linked glycosylation inhibitor), and beta-d-xyloside (chondroitin sulfation inhibitor) all inhibited IL-4-mediated downregulation of TNFalpha-induced monocyte HA binding. Western blot analysis of CD44 from TNFalpha-treated monocytes revealed a 5-10 Mr decrease in the standard isoform of CD44. In contrast, IL-4 treatment of monocytes inhibited CD44-HA binding and reversed the 5- to 10-kDa decrease in monocyte CD44 Mr. Finally, studies with F10.44.2, a CD44 mab that enhances CD44-HA binding, indicated that IL-4 treatment of monocytes not only diminished constitutive HA binding, but also diminished CD44 mab-induced HA binding. Taken together, these data suggested that IL-4-mediated inhibition of TNFalpha-induced monocyte HA binding was dependent not only on protein synthesis, but also on N-linked glycosylation and chondroitin-sulfate modification of either CD44 or, alternatively, another monocyte protein(s) that may regulate the ability of CD44 to bind HA.