C W Smith

Cooperative interactions of LFA-1 and Mac-1 with intercellular adhesion molecule-1 in facilitating adherence and transendothelial migration of human neutrophils in vitro.

The adherence of human neutrophils to human umbilical vein endothelial cells (HUVEC) is partially dependent on the CD11/CD18 family of glycoproteins on the neutrophil and ICAM-1 on the HUVEC. The CD18 heterodimer involved in this adherence was evaluated in vitro using subunit-specific monoclonal antibodies (MAbs). The adherence of unstimulated neutrophils to IL-1-stimulated HUVEC was significantly inhibited by anti-CD11a but not CD11b MAbs, while the adherence of fMLP-stimulated neutrophils was significantly inhibited by both anti-CD11a and -CD11b. Anti-CD11a, but not anti-CD11b MAbs, reduced the adherence of unstimulated neutrophils on purified ICAM-1 to the same low level untreated neutrophils exhibited on a control protein, glycophorin. Stimulation with fMLP significantly increased neutrophil attachment to purified ICAM-1, but not to the control protein. Anti-CD11b MAbs reduced this chemotactically augmented adherence to that of unstimulated neutrophils, and in combination with anti-CD11a MAbs reduced adherence to that on the control protein. The results in this report indicate that unstimulated neutrophils exhibit LFA-1-dependent attachment to ICAM-1, and chemotactic stimulation enhances the attachment of human neutrophils to ICAM-1 by a Mac-1-dependent process.

Recognition of an Endothelial Determinant for CD18-dependent Human Neutrophil Adherence and Transendothelial Migration

Human neutrophil (PMN) attachment to human umbilical vein endothelial cells (HUVEC) was evaluated in vitro using two MAbs, R6-5-D6 and RR1/1, that recognize intercellular adhesion molecule-1 (ICAM-1), and one MAb, TS1/18, that recognizes CD18. Pretreatment of the HUVEC with anti-ICAM-1 MAbs produced greater than 50% inhibition of attachment to HUVEC, and IL-1 (0.5 U/ml)- or lipopolysaccharide (LPS) (10 ng/ml)-stimulated HUVEC, and greater than 99% inhibition of f-Met-Leu-Phe (0.5 nM) enhanced adherence. Anti-ICAM-1 MAbs also inhibited by greater than 85% the transendothelial migration induced by 4-h IL-1 (0.5 U/ml) and LPS (10 ng/ml) activation of the HUVEC. That these effects involved a CD18-dependent mechanism is supported by the following results: pretreatment of PMN with TS1/18 produced the same degree of inhibition of attachment and migration as seen with R6-5-D6. In addition, the use of both MAbs together did not further increase the inhibition of cell attachment to stimulated HUVEC. The attachment of PMN from patients with CD18 deficiency to stimulated HUVEC was not reduced by R6-5-D6, and both R6-5-D6 and TS1/18 revealed the same time course for appearance and disappearance of an adherence component on stimulated HUVEC not blocked by either MAb. These results demonstrate that attachment and transendothelial migration of PMN in vitro depend substantially on both CD18 on the PMN and ICAM-1 on the endothelial cell.

Chemotactic factors regulate lectin adhesion molecule 1 (LECAM-1)-dependent neutrophil adhesion to cytokine-stimulated endothelial cells in vitro.

Monoclonal antibodies recognizing CD18, CD11a, CD11b, and neutrophil lectin adhesion molecule 1 (LECAM-1), i.e., the human homologue of the murine MEL-14 antigen, were used to assess the relative contribution of these glycoproteins to neutrophil-endothelial adhesion. Under static conditions, the adhesion of neutrophils to IL-1-stimulated human umbilical vein endothelial cell (HUVEC) monolayers was inhibited by antibodies to CD18, CD11a, and the neutrophil LECAM-1, and the effect of combining anti-LECAM-1 and anti-CD11a was almost additive. Under flow at a wall shear stress 1.85 dyn/cm2, a condition where CD18-dependent adhesion is minimal, anti-LECAM-1 inhibited adhesion by greater than 50%. Chemotactic stimulation of neutrophils induced a rapid loss of LECAM-1 from the neutrophil surface, and the level of neutrophil surface LECAM-1 was closely correlated with adhesion under flow. Neutrophils contacting the activated endothelial cells for 30 min lost much of their surface LECAM-1, a phenomenon induced by a soluble factor or factors released into the medium by the stimulated monolayers, and a high percentage migrated through the HUVEC monolayer. This migration was almost completely inhibited by anti-CD18, but was unaffected by antibodies to neutrophil LECAM-1. These results support the concept that LECAM-1 is a neutrophil adhesion molecule that participates in the adherence of unstimulated neutrophils to cytokine-stimulated endothelial cells under conditions of flow, and is then lost from the neutrophil surface coincident with the engagement of CD18-dependent mechanisms leading to transendothelial migration.

Induction of Interleukin-6 Synthesis in the Myocardium Potential Role in Postreperfusion Inflammatory Injury

BACKGROUND Neutrophil-induced injury of myocardial cells requires the expression of intercellular adhesion molecule-1 (ICAM-1) on the myocyte surface and is mediated by ICAM-1-CD11b/CD18 adhesion. We have previously shown that interleukin-6 (IL-6) cytokine activity, present in cardiac lymph, induces ICAM-1 on isolated cardiac myocytes. Furthermore, in previous in vivo studies, we have also shown ICAM-1 mRNA induction in the myocardium within the first hour of reperfusion in the previously ischemic viable zone. We hypothesized that induction of IL-6 synthesis in the myocardium was an integral part of the reaction to injury resulting from ischemia and reperfusion and was associated with induction of ICAM-1 on myocardial cells. METHODS AND RESULTS In this study, cloned canine IL-6 cDNA was used as a molecular probe to study the regulation of IL-6 in an awake canine model of myocardial ischemia and reperfusion. IL-6 mRNA was induced in ischemic and reperfused segments of myocardium preferentially in segments previously exposed to severe ischemia. Peak levels of IL-6 mRNA were reached within 3 hours of reperfusion. At the same time, IL-6 mRNA and ICAM-1 mRNA were found in the same myocardial segments. In contrast to hearts that were ischemic for 1 hour and reperfused for 3 hours, nonreperfused hearts after 4 hours of persistent ischemia demonstrated minimal induction of ICAM-1 or IL-6 despite similar degrees of injury and blood flow reductions during ischemia. After 24 hours of persistent ischemia, levels of IL-6 mRNA were comparable to those observed in hearts that were ischemic for 1 hour and subsequently reperfused for 24 hours. CONCLUSIONS Our results demonstrate induction of IL-6 mRNA in the myocardium and that this synthesis is accelerated by reperfusion. Evidence is also provided to show that peak IL-6 mRNA precedes that of ICAM-1 mRNA. These findings are compatible with our hypothesis that IL-6 is important in the induction of ICAM-1 in the area of ischemia. In addition, these studies suggest that the necessary factors to promote adhesive interactions between transmigrated neutrophils and cardiac myocytes are present in reperfused myocardium.

LFA-1 is sufficient in mediating neutrophil emigration in Mac-1-deficient mice.

To better define the specific function of Mac-1 (CD11b) versus LFA-1 (CD11a) and the other CD11 integrins in vivo, we have disrupted murine CD11b by targeted homologous recombination in embryonic stem cells and generated mice which are homozygous for a mutation in CD11b. A null mutation was confirmed by Southern blotting, RNase protection assay, immunohistochemistry, and flow cytometry. Neutrophils isolated from mice deficient in Mac-1 were defective in adherence to keyhole limpet hemocyanin-coated glass, iC3b-mediated phagocytosis, and homotypic aggregation. When challenged by thioglycollate intraperitoneally, Mac-1-deficient mice had similar levels of neutrophil accumulation in the peritoneal cavity at 1, 2, and 4 h. Treatment with mAb to LFA-1 blocked 78% of neutrophil accumulation in Mac-1-deficient mice and 58% in wild-type mice. Neutrophil emigration into the peritoneal cavity 16 h after the implantation of fibrinogen-coated disks was not reduced in Mac-1-deficient mice whereas neutrophil adhesion to the fibrinogen-coated disks was reduced by > 90%. Neutrophils from Mac-1-deficient mice also showed reduced degranulation. Our results demonstrate that Mac-1 plays a critical role in mediating binding of neutrophils to fibrinogen and neutrophil degranulation, but is not necessary for effective neutrophil emigration, which is more dependent upon LFA-1.

Interleukin-8 gene induction in the myocardium after ischemia and reperfusion in vivo.

Neutrophil adhesion and direct cytotoxicity for cardiac myocytes require chemotactic stimulation and are dependent upon CD18-ICAM-1 binding. To characterize the potential role of IL-8 in this interaction, canine IL-8 cDNA was cloned and the mature recombinant protein expressed in Escherichia coli BL21 cells. Recombinant canine IL-8 markedly increased adhesion of neutrophils to isolated canine cardiac myocytes. This adhesion resulted in direct cytotoxicity for cardiac myocytes. Both processes were specifically blocked by antibodies directed against CD18 and IL-8. In vivo, after 1 h of coronary occlusion, IL-8 mRNA was markedly and consistently induced in reperfused segments of myocardium. IL-8 mRNA was not induced in control (normally perfused) myocardial segments. Minimal amounts of IL-8 mRNA were detected after 3 or 4 h of ischemia without reperfusion. Highest levels of induction were evident in the most ischemic myocardial segments. IL-8 mRNA peaked in the first 3 h of reperfusion and persisted at high levels beyond 24 h. IL-8 staining was present in the inflammatory infiltrate near the border between necrotic and viable myocardium, as well as in small veins in the same area. These findings provide the first direct evidence for regulation of IL-8 in ischemic and reperfused canine myocardium and support the hypothesis that IL-8 participates in neutrophil-mediated myocardial injury.

IL-10 Is Induced in the Reperfused Myocardium and May Modulate the Reaction to Injury

Reperfusion of the ischemic myocardium is associated with a dramatic inflammatory response leading to TNF-α release, IL-6 induction, and subsequent neutrophil-mediated cytotoxic injury. Because inflammation is also an important factor in cardiac repair, we hypothesized the presence of components of the inflammatory reaction with a possible role in suppressing acute injury. Thus, we investigated the role of IL-10, an anti-inflammatory cytokine capable of modulating extracellular matrix biosynthesis, following an experimental canine myocardial infarction. Using our canine model of myocardial ischemia and reperfusion, we demonstrated significant up-regulation of IL-10 mRNA and protein in the ischemic and reperfused myocardium. IL-10 expression was first detected at 5 h and peaked following 96–120 h of reperfusion. In contrast, IL-4 and IL-13, also associated with suppression of acute inflammation and macrophage deactivation, were not expressed. In the ischemic canine heart, CD5-positive lymphocytes were the predominant source of IL-10 in the myocardial infarct. In the absence of reperfusion, no significant induction of IL-10 mRNA was noted. In addition, IL-12, a Th1-related cytokine associated with macrophage activation, was not detected in the ischemic myocardium. In vitro experiments demonstrated late postischemic cardiac-lymph-induced tissue inhibitor of metalloproteinases (TIMP)-1 mRNA expression in isolated canine mononuclear cells. This effect was inhibited when the incubation contained a neutralizing Ab to IL-10. Our findings suggest that lymphocytes infiltrating the ischemic and reperfused myocardium express IL-10 and may have a significant role in healing by modulating mononuclear cell phenotype and inducing TIMP-1 expression.

Regulation of intercellular adhesion molecule-1 (ICAM-1) in ischemic and reperfused canine myocardium.

Previous studies in vitro have shown an important role for intercellular adhesion molecule-1 (ICAM-1) in adherence interactions of canine neutrophils with canine jugular vein endothelial cells and in cytotoxicity of canine neutrophils for adult cardiac myocytes. To evaluate the regulation of ICAM-1 in myocardial inflammation and its role in the pathogenesis of myocardial ischemia and reperfusion, a series of in vivo and ex vivo studies were performed in canine animals. Systemic administration of LPS elicited ICAM-1 mRNA in several tissues, including myocardium, which demonstrated increasing ICAM-1 staining on intercalated discs of cardiac myocytes. In ischemia and reperfusion protocols: (a) ICAM-1 mRNA was found in ischemic segments within 1 h of reperfusion and in both ischemic and normally perfused segments by 24 h of reperfusion; (b) expression of ICAM-1 was detected in cardiac myocytes in the ischemic region by 6 h of reperfusion; increased expression was seen thereafter as a function of time; (c) post-ischemic (but not preischemic) cardiac lymph collected at intervals from 1 to 24 h after reperfusion elicited ICAM-1 mRNA, ICAM-1 expression, and ICAM-1-dependent neutrophil adhesion in canine jugular vein endothelial cells and in cardiac myocytes with peak cytokine activity seen by 1 h; (d) extravascular localization of neutrophils was detected in ischemic areas only, and was associated with endothelium bearing high levels of ICAM-1 within 1 h of reperfusion; infiltration increased thereafter in association with increasing levels of ICAM-1 mRNA in myocardial segments and increasing levels of ICAM-1 expression on cardiac myocytes. These findings provide the first direct evidence for inflammatory regulation of ICAM-1 in ischemic and reperfused canine myocardium. They support the hypothesis that ICAM-1 participates in neutrophil-mediated myocardial damage.

Requirements for leukocyte adhesion molecules in nephrotoxic nephritis.

Requirements for leukocyte adhesion molecules as well as cytokines have been determined in the rat model of acute nephrotoxic nephritis. Proteinuria (at 24 h) and neutrophil accumulation in renal glomeruli (at 6 h) have been used as the endpoints. For full accumulation in glomeruli of neutrophils as well as full development of proteinuria, requirements have been demonstrated for TNF alpha, (but not IL-1), CD11b (but not CD11a), very late arising-4 (CD49d/CD29), and intercellular adhesion molecule-1 but not endothelial leukocyte adhesion molecule-1 (E-selectin). By immunohistochemical approaches, infusion of antibody to glomerular basement membrane induced glomerular upregulation of intercellular adhesion molecule-1, endothelial leukocyte adhesion molecule-1, and vascular adhesion molecule-1. Treatment of rats with anti-TNF alpha or soluble recombinant human TNF receptor-1 blocked this expression. Renal arterial infusion of TNF alpha induced glomerular expression of all three endothelial adhesion molecules, but infusion of IL-1 beta did not. These data suggest that, in neutrophil and complement-dependent anti-glomerular basement membrane-induced acute nephritis in rats, there are selective requirements for cytokines, beta 1 and beta 2 integrins, and endothelial adhesion molecules. These requirements contrast with those found in other vascular beds in which complement and neutrophil-induced vascular injury has been induced by deposition of immune complexes.

Recruitment of CD11b/CD18 to the neutrophil surface and adherence-dependent cell locomotion.

Chemotactic stimulation of neutrophils results in translocation of CD11b/CD18 (Mac-1) from intracellular storage pools to the cell surface. Though results from several laboratories indicate that the newly arrived surface Mac-1 is not involved in the adherence induced by the initial stimulus, the present study addresses the hypothesis that this Mac-1 plays a role in subsequent adherence-dependent functions. The response of human neutrophils to changing concentrations of a chemotactic stimulus was evaluated by determining the amount of newly arrived surface Mac-1, and Mac-1-dependent adhesion and locomotion. Small step-wise increases in the concentration of f-Met-Leu-Phe (FMLP) resulted in proportional stepwise increases in surface Mac-1 that plateaued within 2-4 min. This newly arrived Mac-1 supported adhesion to protein-coated surfaces only when the cells were exposed to an additional increase in the FMLP stimulus level. Adherence-dependent cellular locomotion was evaluated in chambers that allowed rapid changes in the stimulus concentration. Repeated small increments in the stimulus level at 200-s intervals resulted in significantly longer migration paths than a single-step increase in the stimulus. The results support the hypothesis that small increments in the chemotactic stimulus bring Mac-1 to the cell surface, and this newly mobilized Mac-1 is available for adherence-dependent locomotion with subsequent increases in the concentration of the stimulus.