Alpha and beta subunits of the LFA-1 membrane molecule are involved in human monocyte-endothelial cell adhesion

Human monocyte adhesion to vascular endothelium is an important transitional event in mononuclear phagocyte development. The molecular mechanism involved in monocyte adhesion to endothelial cells was studied using purified human monocytes and a panel of monoclonal antibodies (MAb). The purified human monocytes were phenotypically characterized and expressed relatively low levels of HLA class II antigens. The monocytes were labeled with Indium-111 to provide high specific activity and a sensitive measure of adhesion. Using this radionuclide adhesion assay, monocytes demonstrated consistent and reproducible adhesion to a confluent monolayer of human umbilical vein-derived endothelial cells. To identify the cell surface molecules involved in human monocyte-endothelial cell adhesion, 15 MAb to 11 monocyte surface structures were used to attempt to inhibit adhesion. MAb recognizing 10 monocyte cell surface molecules did not inhibit adhesion. In contrast, MAb recognizing the alpha and beta subunits of LFA-1 (lymphocyte function-associated) significantly inhibited monocyte adhesion to endothelial cells. Monocyte adhesion was comparably inhibited by F(ab')2 and intact MAb. Significant inhibition was observed at 5 micrograms/ml of anti-LFA-1 MAb. These results indicate that the alpha and beta subunits of the LFA-1 membrane molecule are involved in human monocyte-endothelial cell adhesions.     

Deficiency of two human leukocyte surface membrane glycoproteins (Mo1 and LFA-1)

Structural and functional features of a novel disorder characterized by recurrent bacterial infections are reviewed. This disease is associated with a number of phagocyte adhesion defects. In 10 patients, phenotypic analysis with monoclonal antibodies (MAb) revealed the same basic defect in all patients: deficiency of at least two leukocyte surface glycoproteins, Mo1 and LFA-1. These two antigens have distinct alpha subunits (Mo1 alpha = 155 kilodaltons, LFA-1 alpha = 177 kilodaltons) noncovalently linked to a common beta subunit (94 kilodaltons). Mo1 is closely associated with or identical to a receptor for the iC3b fragment of the third component of complement. LFA-1 is involved in lymphocyte proliferation, cytotoxicity, and natural killing. MAb directed to this family of glycoproteins induce functional defects in normal cells similar to those observed in deficient cells. In normal cells, the surface expression of these glycoproteins is regulated by the state of cell activation. Mitogens and alloantigens significantly increase the surface expression of LFA-1 on T lymphocytes. Stimuli that induce degranulation in neutrophils increase the surface expression of Mo1. In all patients with combined Mo1, LFA-1 deficiency, the predominant clinical manifestations were more characteristic of a phagocyte than a lymphocyte disorder. In vitro studies, however, reveal significant defects in phytohemagglutinin-induced proliferation that are more apparent at lower concentrations of the lectin. In some families, more than one sibling is affected. Intermediate levels of Mo1 were observed on granulocytes from both parents of one child. In one family, however, only the mother had significantly reduced levels of Mo1, which indicates heterogeneity in the inheritance of this disorder.     

The functional significance, distribution, and structure of LFA-1, LFA-2, and LFA-3: cell surface antigens associated with CTL-target interactions

Three cell surface antigens associated with the cytolytic T lymphocyte(CTL)-target cell interaction were identified by generation of monoclonal antibodies (MAb) against OKT4+, HLA-DR-specific CTL and selection for inhibition of cytolysis in a 51Cr-release assay. These MAb block cytolysis by both OKT4+ and OKT8+ CTL and the proliferative responses to PHA and the mixed lymphocyte response (MLR). LFA-1 is an antigen widely distributed on lymphoid tissues and is composed of two polypeptides of 177,000 and 95,000 Mr on all cell types studied. Anti-LFA-1 MAb block NK cell-mediated cytolysis in addition to T lymphocyte-mediated cytotoxicity and proliferation. LFA-2 (Mr = 55,000 to 47,000), a determinant on the sheep red blood cell receptor, is expressed by T cells but not B cells and appears specific for T cell functions. LFA-3 (Mr = 60,000) is a widely distributed antigen present on both hematopoietic and nonhematopoietic tissues and appears to only be involved in T cell functions. MAb to LFA-1 and LFA-2 inhibit function by binding to effector cell surface molecules, whereas anti-LFA-3 MAb appear to block by binding to the target cells. Together with previously described molecules, LFA-1, LFA-2, and LFA-3 demonstrate the complexity of CTL-mediated cytotoxicity at the molecular level.     

Relative contribution of the leukocyte molecules Mo1, LFA-1, and p150,95 (LeuM5) in adhesion of granulocytes and monocytes to vascular endothelium is tissue- and stimulus-specific

Adhesion of human monocytes and granulocytes to vascular endothelium plays an important role in migration of these cells to inflammatory sites in tissues. A family of three human leukocyte heterodimeric surface molecules named Mo1, LFA-1, and p150,95 (LeuM5) has been shown to mediate leukocyte adhesion to confluent monolayers of human umbilical vein endothelial cells (HUVE). The relative contribution of each of the three molecules in leukocyte endothelial adhesion was studied using a variety of stimuli. Purified human granulocytes and monocytes were radiolabelled and incubated with HUVE for 45 minutes in a 37 degrees C humidified 5% CO2 incubator in the presence or absence of subunit-specific monoclonal antibodies (MAbs). Adhesion was assessed by quantitation of endothelial cell-associated radioactivity and confirmed by microscopic evaluation. MAbs directed against the alpha subunit of LFA-1 as well as to the beta subunit common to all three antigens significantly inhibited unstimulated monocyte adhesion to HUVE. Small but significant inhibiton was also observed using MAbs directed against Mo1a and p150. Phorbol myristate acetate (PMA)-induced grranulocyte adhesion to HUVE was significantly inhibited by anti-Mo1a and anti-beta, but not by anti-LFA-1a or anti-p150. When HUVE were prestimulated by recombinant IL-1, a different pattern of antigen utilization by granulocytes was observed. MAbs directed against each of the three alpha subunits as well as the common beta subunit all inhibited granulocyte adhesion to HUVE. Furthermore the effect of the three anti-alpha subunit MAbs on granulocyte-HUVE adhesion was additive. These studies show that relative contribution of Mo1, LFA-1, and p150,95 to leukocyte endothelial adhesion varies depending on the cell type and the stimulus used. These studies also reveal a novel role for p150,95 in promoting monocyte and granulocyte adhesion to HUVE.     

Contributions of the Mac-1 glycoprotein family to adherence-dependent granulocyte functions: structure-function assessments employing subunit-specific monoclonal antibodies

MAb directed at the alpha-subunits of Mac-1 (alpha M), LFA-1 (alpha L), p150,95 (alpha X), or their common beta-subunit were used to characterize the contributions of the Mac-1 glycoprotein family to granulocyte adherence reactions. Inhibitory effects of these MAb in incubation experiments with normal granulocytes indicated distinct adhesive contributions of each subunit. Significantly greater adherence, and inhibition of adherence by anti alpha M, alpha X, and beta MAb, was observed under chemotactic conditions designed to "up-regulate" the surface expression of the alpha M beta and alpha X beta complexes. Adherence to protein-coated glass and binding of albumin-coated latex beads were significantly inhibited by anti-beta greater than anti-alpha M (OKM-10, M1/70, LM2/1.6 and OKM-1) greater than anti-alpha X greater than anti-alpha L MAb, but no effects of anti-HLA, AB, or anti-CR-1 MAb were evident. A similar rank order of inhibition was observed in granulocyte aggregation assays in response to C5a, PMA, or f-Met-Leu-Phe. Significant inhibition of directed migration by anti-beta or anti-alpha M (OKM-1 or OKM-10) MAb was observed in subagarose but not Boyden chemotaxis assays; inhibition was dependent on a continuous cell exposure to anti-Mac-1 alpha or beta during the assay, suggesting that a continuum of new Mac-1 expression is required for directed translocation. Phagocytosis of Oil-Red-O paraffin or zymosan selectively opsonized with C3-derived ligands was significantly inhibited by anti-alpha M MAb (OKM-10 greater than LM2/1.6 greater than M1/70 greater than OKM-1) or by combinations of anti-alpha M + anti-CR-1 MAb, but only minimal inhibitory effects of anti-beta MAb and no effects of anti-alpha L or anti-alpha X MAb were seen. Similarly, complement-dependent phagocytosis-associated lactoferrin release, ingestion, and intracellular killing of Staphylococcus aureus 502A, and binding of iC3b-opsonized SRBC, were significantly inhibited by anti-alpha M (OKM-10, M1/70) or combinations of anti-alpha M + anti-CR-1 MAb, but not by anti-beta, alpha L, or alpha X MAb. Notably, none of the anti-Mac-1 MAb demonstrated inhibitory effects in assays of adherence-independent functions including shape change, specific f-Met-Leu-3H-Phe binding, O-2 generation, chemiluminescence evolution, or lactoferrin release in response to PMA.(ABSTRACT TRUNCATED AT 400 WORDS)     

Specific activation of leukocyte beta2 integrins lymphocyte function-associated antigen-1 and Mac-1 by chemokines mediated by distinct pathways via the alpha subunit cytoplasmic domains

We show that CC chemokines induced a sustained increase in monocyte adhesion to intercellular adhesion molecule-1 that was mediated by Mac-1 (alphaMbeta2) but not lymphocyte function-associated antigen-1 (LFA-1; alphaLbeta2). In contrast, staining for an activation epitope revealed a rapid and transient up-regulation of LFA-1 activity by monocyte chemotactic protein-1 (MCP-1) in monocytes and Jurkat CCR2 chemokine receptor transfectants or by stromal-derived factor-1alpha in Jurkat cells. Differential kinetics for activation of Mac-1 (sustained) and LFA-1 (transient) avidity in response to stromal-derived factor-1alpha were confirmed by expression of alphaM or alphaL in alphaL-deficient Jurkat cells. Moreover, expression of chimeras containing alphaL and alphaM cytoplasmic domain exchanges indicated that alpha cytoplasmic tails conferred the specific mode of regulation. Coexpressing alphaM or chimeras in mutant Jurkat cells with a "gain of function" phenotype that results in constitutively active LFA-1 demonstrated that Mac-1 was not constitutively active, whereas constitutive activity was mediated via the alphaL cytoplasmic tail, implying the presence of distinct signaling pathways for LFA-1 and Mac-1. Transendothelial chemotaxis of monocytes in response to MCP-1 was dependent on LFA-1; however, Mac-1 was involved at MCP-1 concentrations stimulating its avidity, showing differential contributions of beta2 integrins. Our data suggest that a specific regulation of beta2 integrin avidity by chemokines may be important in leukocyte extravasation and may be triggered by distinct activation pathways transduced via the alpha subunit cytoplasmic domains.     

Tumor necrosis factor enhances the neutrophil-dependent increase in endothelial permeability

We examined the effect of tumor necrosis factor alpha (TNF alpha) on the increase in pulmonary microvascular endothelial monolayer permeability induced by activated neutrophils (PMN). Layering of PMN onto endothelial monolayers followed by activation of PMN with phorbol 12-myristate 13-acetate (PMA) increased 125I-albumin clearance rate across the monolayers. Pretreatment of endothelial monolayers for 6 hr with TNF alpha (200 U/ml) potentiated the PMN-dependent increase in endothelial permeability, whereas 1 hr or 6 hr pretreatment of endothelial monolayers with 200 U/ml and 100 U/ml, respectively, TNF alpha did not enhance the response. Adherence of PMN to the endothelial cells was increased at 1 and 6 hr after TNF alpha (200 U/ml) treatment, but the adherence response was markedly greater following 6 hr of TNF alpha. The TNF alpha treatment of endothelial cells did not enhance neutrophil activation responses to PMA. Pretreatment of PMN with IB4, a MAb to the CD18 integrin, the common beta subunit of the adhesion proteins LFA-1, Mac-1, and p150,95 of PMN, reduced the increases in PMN adherence and the endothelial monolayer permeability induced by the 6 hr TNF alpha treatment. In contrast, pretreatment of PMN with OKM-1, a MAb to the CD11b epitope (alpha-subunit), had no effect on the adherence and the potentiation of the increase in permeability. The potentiation of the PMN-dependent permeability increase and enhanced endothelial adhesivity at 6 hr after TNF alpha priming of endothelial cells was dependent on protein synthesis. The results indicate that protein synthesis-dependent expression of an endothelial ligand for CD18 and resultant endothelial hyperadhesiveness potentiates the PMN-mediated increase in endothelial permeability after TNF alpha activation of endothelial cells. The priming of endothelial cells by TNF alpha may be a critical step in the mediation of endothelial injury.     

Monocyte migration and LFA-1-mediated attachment to brain microvascular endothelia is regulated by SDF-1 alpha through Lyn kinase

Infiltration of activated monocytes into the brain is a prerequisite for the development of various neurological disorders such as HIV-associated dementia, multiple sclerosis, and other inflammatory processes. In these pathologies, the chemokine SDF-1alpha (CXCL12) is over-expressed and might attract monocytes into the CNS. We demonstrate here that SDF-1alpha stimulates migration of monocytes through its receptor, CXCR4, and decreases monocyte adherence to surfaces coated with ICAM-1, a ligand for beta(2) integrins. SDF-1alpha also decreases monocyte adherence to brain microvascular endothelial cells (BMVEC) that are activated with TNF-alpha, IL-1beta, or recombinant envelope glycoprotein from HIV-1, which increase BMVEC expression of ICAM-1. The decreased adherence is linked to down-regulation on monocytes of the activation-dependent epitope of the beta(2) integrin LFA-1 by SDF-1alpha. Knockdown of Lyn in monocytes using small interfering RNA decreases SDF-1alpha-mediated migration and prevents the inhibition of monocyte attachment to ICAM-1 and activated BMVEC. Thus, in SDF-1alpha-stimulated monocytes, Lyn acts as a positive regulator of migration and a negative regulator of adhesion to BMVEC through the LFA-1 integrin. These results provide a novel Lyn-mediated signaling mechanism for the regulation of monocyte movement at the blood-brain barrier.     

The leukocyte integrin LFA-1 reconstituted by cDNA transfection in a nonhematopoietic cell line is functionally active and not transiently regulated.

The functional activity of lymphocyte function-associated antigen 1 (LFA-1) on leukocytes can be regulated by T-cell receptor (TCR) stimulation and pharmacologic agents. It was of interest to determine if functionally active LFA-1 could be reconstituted on a nonhematopoietic, LFA-1-negative cell line. We report the expression of LFA-1 and diethylaminoethyl (DEAE) Mac-1 alpha beta heterodimers on the cell surface of a fibroblastoid cell line, COS, by DEAE dextran cotransfection of the alpha and beta subunit cDNAs. Immunoprecipitation studies demonstrated that the alpha and beta subunit was expressed in heterodimers. The alpha or beta subunit was expressed at lower levels after transfection with the alpha or beta subunit cDNA alone. Cotransfection of the alpha and beta subunit cDNAs, but not transfection of alpha or beta alone, was sufficient to reconstitute intercellular adhesion molecule-1 (ICAM-1) binding activity. Consistent with this observation, LFA-1 on the fibroblastoid cells possesses the activation epitope defined by the L16 monoclonal antibody (mAb). This epitope marks the conversion of LFA-1 from the low to high avidity state on peripheral blood T lymphocytes (PBLs) and is constitutively present on activated cell lines. In contrast to LFA-1 on leukocytes, the functional activity of LFA-1 on fibroblastoid cells was not influenced by phorbol ester treatment. Furthermore, the use of agents that interfere with intracellular signaling, a protein kinase C inhibitor, cAMP analogue, or the combination of a phosphodiesterase inhibitor and adenyl cyclase activator, did not affect the binding of COS cells expressing LFA-1 to purified ICAM-1.     

Biosynthesis and glycosylation of p150,95 and related leukocyte adhesion proteins

The p150,95 cell surface protein is a member of a family of heterodimeric leukocyte adhesion proteins that have homologous alpha subunits, each noncovalently associated with a common beta subunit. In this report we have metabolically labeled the U937 cell line at various timepoints during its phorbol myristic acetate-induced maturation to examine the kinetics of synthesis of these proteins during monocytic differentiation, and their maturation and glycosylation. The p150,95 alpha subunit was immunoprecipitated with p150,95-specific monoclonal antibody (MAb), or an antiserum to the denatured, purified alpha X subunit. The glycosylation and polypeptide chain length of the p150,95, Mac-1, and lymphocyte function associated antigen (LFA-1) alpha and beta subunits were compared by immunoprecipitation with subunit specific MAb and antisera, and by digestion with Endo H and N-glycanase. The p150,95 alpha subunit is synthesized as a precursor of 146,000 Mr, has five to six N-linked oligosaccharides, and has a polypeptide chain backbone of 132,000 Mr. Over 50% of the carbohydrate on the mature alpha subunit of 150,000 Mr was sensitive to Endo H digestion. The p150,95 alpha and beta precursors can associate before maturation into the mature form. Conversion to the mature form was accompanied by loss of reactivity with the antiserum to the denatured alpha X subunit, suggesting a change in conformation. Mac-1 and LFA-1 alpha subunits have precursors of 160,000 Mr and 165,000 Mr, respectively, and contain N-linked carbohydrates. The polypeptide chain length for the Mac-1 alpha subunit is 137,000 Mr, and for LFA-1 is 149,000 Mr. Only 14% of the oligosaccharide on the mature LFA-1 alpha subunit was sensitive to Endo H, suggesting that unlike p150,95, most is converted to the complex type. The differences noted in the Mr of the three homologous alpha subunits are therefore due to differences in both polypeptide chain length and carbohydrate processing during biosynthesis.     

The genetic deficiency of leukocyte surface glycoprotein Mac-1, LFA-1, p150,95 in humans is associated with defective antibody-dependent cellular cytotoxicity in vitro and defective protection against herpes simplex virus infection in vivo

The role of the Mac-1, LFA-1, p150,95 leukocyte glycoprotein family in mediating antiviral host defense was investigated by utilizing mononuclear cells (MC) obtained from eight patients with a genetic deficiency of Mac-1, LFA-1, and p150,95, and normal MC incubated with subunit-specific monoclonal antibodies (MAb) directed against these glycoproteins. As shown with an in vitro chromium-release cytotoxicity assay to herpes simplex virus (HSV)-infected Chang liver target cells, MC of these patients with the severe phenotype or normal MC preincubated with a combination of MAb against Mac-1 glycoprotein subunits were deficient in antibody-dependent cellular cytotoxicity (ADCC). When used individually, MAb directed at LFA-1-alpha or -beta also inhibited ADCC and natural killer cytotoxicity (NKC). In a single cell agarose assay, MC of Mac-1-deficient patients formed fewer effector-target cell conjugates in the presence of specific anti-HSV antibody. To investigate the in vitro contributions of these glycoproteins to cytotoxic host defense mechanisms, two in vivo adoptive transfer models were explored in which neonatal mice are protected against a lethal HSV challenge by normal human MC plus anti-HSV antibody (in vivo ADCC) or human interferon-alpha (NKC stimulated in vivo). In each model, MC from patients with "severe" or "moderate" phenotypes of Mac-1 deficiency, or normal MC incubated with a combination of anti-LFA-alpha, Mac-1-alpha, p150,95-alpha plus -beta MAb failed to protect neonatal mice against lethal HSV infection. These studies further indicate requirements for adhesion-dependent mechanisms in the mediation of MC-ADCC, and suggest that Mac-1-dependent cellular adhesive properties are necessary for normal cytotoxic functions in vivo in experimental models of human ADCC or interferon-stimulated NKC. These findings, in addition to the recognized occurrence of severe or even lethal viral infections in some Mac-1-deficient patients, suggest that glycoproteins of the Mac-1 family may be important determinants of antiviral host defense.     

Blockade of alpha 5 beta 1 integrins reverses the inhibitory effect of tenascin on chemotaxis of human monocytes and polymorphonuclear leukocytes through three-dimensional gels of extracellular matrix proteins

Tenascin is an extracellular matrix protein found in adults in T cell-dependent areas of lymphoid tissues, sites of inflammation, and tumors. We report here that it inhibited chemotaxis of chemoattractant-stimulated human monocytes and chemoattractant-stimulated polymorphonuclear leukocytes (PMN) through three-dimensional gels composed of collagen I or Matrigel, and chemotaxis of leukotriene B4-stimulated PMN through fibrin gels. The inhibitory effect of tenascin on monocyte or PMN chemotaxis through these matrices was reversed by Abs directed against alpha5beta1 integrins or by a peptide (GRGDSP) that binds to beta1 integrins. Tenascin did not affect leukotriene B4- or fMLP-stimulated expression of beta1 or beta2 integrins, but did exert a small inhibitory effect on PMN adhesion and closeness of apposition to fibrin(ogen)-containing surfaces. Thus, alpha5beta1 integrins mediate the inhibitory effect of tenascin on monocyte and PMN chemotaxis, without promoting close apposition between these leukocytes and surfaces coated with tenascin alone or with tenascin bound to other matrix proteins. This contrasts with the role played by alpha5beta1 integrins in promoting close apposition between fMLP-stimulated PMN and fibrin containing surfaces, thereby inhibiting chemotaxis of fMLP-stimulated PMN through fibrin gels. Thus, chemoattractants and matrix proteins regulate chemotaxis of phagocytic leukocytes by at least two different mechanisms: one in which specific chemoattractants promote very tight adhesion of leukocytes to specific matrix proteins and another in which specific matrix proteins signal cessation of migration without markedly affecting strength of leukocyte adhesion.     

Human interleukin-3 (IL-3) induces disulfide-linked IL-3 receptor alpha- and beta-chain heterodimerization, which is required for receptor activation but not high-affinity binding.

The human interleukin-3 receptor (IL-3R) is a heterodimer that comprises an IL-3 specific alpha chain (IL-3R alpha) and a common beta chain (beta C) that is shared with the receptors for granulocyte-macrophage colony-stimulating factor (GM-CSF) and IL-5. These receptors belong to the cytokine receptor superfamily, but they are structurally and functionally more related to each other and thus make up a distinct subfamily. Although activation of the normal receptor occurs only in the presence of ligand, the underlying mechanisms are not known. We show here that human IL-3 induces heterodimerization of IL-3R alpha and beta c and that disulfide linkage of these chains is involved in receptor activation but not high-affinity binding. Monoclonal antibodies (MAb) to IL-3R alpha and beta c were developed which immunoprecipitated, in the absence of IL-3, the respective chains from cells labelled with 125I on the cell surface. However, in the presence of IL-3, each MAb immunoprecipitated both IL-3R alpha and beta c. IL-3-induced receptor dimers were disulfide and nondisulfide linked and were dependent on IL-3 interacting with both IL-3R alpha and beta c. In the presence of IL-3 and under nonreducing conditions, MAb to either IL-3R alpha or beta c immunoprecipitated complexes with apparent molecular weights of 215,000 and 245,000 and IL-3R alpha and beta c monomers. Preincubation with iodoacetamide prevented the formation of the two high-molecular-weight complexes without affecting noncovalent dimer formation or high-affinity IL-3 binding. Two-dimensional gel electrophoresis and Western blotting (immunoblotting) demonstrated the presence of both IL-3R alpha and beta c in the disulfide-linked complexes. IL-3 could also be coimmunoprecipitated with anti-IL-3R alpha or anti-beta c MAB, but it was not covalently attached to the receptor. Following IL-3 stimulation, only the disulfide-linked heterodimers exhibited reactivity with antiphosphotyrosine antibodies, with beta c but not IL-3R alpha being the phosphorylated species. A model of IL-3R activation is proposed which may be also applicable to the related GM-CSF and IL-5 receptors.     

Human lymphocyte function associated antigen-1 (LFA-1): identification of multiple antigenic epitopes and their relationship to CTL-mediated cytotoxicity

Human lymphocyte function-associated antigen (LFA)-1, a heterodimeric lymphocyte surface glycoprotein of 177,000 and 95,000 relative molecular weight has been implicated to function in the cytotoxic T lymphocyte (CTL) effector mechanism. Seven mouse hybridoma lines producing monoclonal antibodies (MAb) reactive with this structure were studied. Three unique and 3 partially over-lapping epitopes on human LFA-1 were defined by competitive cross inhibition binding assays using biosynthetically labeled anti-LFA-1 MAb. In contrast, of five rat antimouse LFA-1 MAb, all five recognized a common or shared epitope. An HLA-B7 specific human CTL line expressed 1.1 X 10(5) LFA-1 sites per cell with a direct saturation binding assay. Human CTL expressed two to four times more LFA-1 than peripheral blood lymphocytes or B and T lymphoblastoid cell lines. Titration of each of the anti-LFA-1 MAb in a 51chromium release cytolytic assay revealed quantitative differences in the ability of the different anti-LFA-1 MAb to block cytolysis indicating distinct functional and antigenic epitopes exist on the human LFA-1 molecule. Anti-LFA-1 MAb reversibly inhibited the CTL reaction by slowing the initial rate of cytolysis. These results suggest anti-LFA-1 MAb inhibit CTL function by specific blockade of a functionally relevant molecule.     

Cytokine regulation of IL-1 beta gene expression in the human polymorphonuclear leukocyte

Although recently polymorphonuclear leukocytes (PMN) have been identified as producers of IL-1 beta in response to LPS and granulocyte/monocyte colony stimulating factor, little is known regarding the ability of other cytokines to induce the production of IL-1 beta in the PMN. Inasmuch as IL-1 and TNF have been shown to be important priming agents, as well as agents that induce migration of PMN, we investigated their effect on IL-1 beta gene expression in human peripheral blood PMN. In the present study, we demonstrate that human peripheral blood PMN produce IL-1 beta in response to IL-1 alpha, IL-1 beta, and TNF-alpha. Control (unstimulated) human PMN had virtually undetectable levels of IL-1 beta mRNA. Either IL-1 beta or TNF, induced PMN to transiently express IL-1 beta mRNA with peak expression at 1 h, returning to untreated levels by 2 h. A dose response indicated that as little as 0.05 ng/ml of IL-1 beta or TNF resulted in IL-1 beta induction, with maximal effects at 1 ng/ml of IL-1 beta and 5 ng/ml of TNF. IL-1 alpha or IL-1 beta exhibited similar dose responses in IL-1 beta mRNA induction. Inasmuch as cytokines have been shown to have synergistic effects in cell function studies, we induced PMN with a combination of maximally effective doses of TNF plus IL-1 beta. They demonstrated a cooperative effect on IL-1 beta gene expression, in that mRNA levels were sustained for three hours. IL-1 beta Ag expression, as measured by ELISA, paralleled IL-1 beta mRNA expression with cell associated peak levels at 2 to 4 h. IL-1 beta Ag levels in PMN lysates and supernatants correlated with IL-1 beta mRNA levels, i.e., TNF + IL-1 greater than TNF greater than IL-1. Thus, these studies represent the first demonstration of IL-1 and TNF induction of IL-1 beta gene expression in the PMN. Furthermore, the time course of induction is unique to the PMN, with peak induction of mRNA at 1 h, which is consistent with the short lived nature of these cells in inflammatory lesions.     

On the species specificity of the interaction of LFA-1 with intercellular adhesion molecules

Species restrictions in immune cell interactions have been demonstrated both in Ag-specific responses of T lymphocytes and the phenomenon of natural attachment. To determine the possible contribution of adhesion receptors to these restrictions, we have studied binding between the murine and human homologues of LFA-1 (CD11a/CD18) and ICAM employing purified human LFA-1 and ICAM-1 (CD54) bound to solid substrates. Murine cell lines bind to purified human LFA-1 through ICAM-1 and at least one other counter-receptor. This provides evidence for multiple counter-receptors for LFA-1 in the mouse as well as in the human. In contrast to binding of murine ICAM-1 to human LFA-1, murine LFA-1 does not bind to human ICAM-1. The species specificity maps to the LFA-1 alpha subunit, because mouse x human hybrid cells expressing the human alpha subunit associated with a mouse beta subunit bind to human ICAM-1, whereas those with a human beta subunit associated with a murine alpha subunit do not. Increased adhesiveness for ICAM-1 stimulated by phorbol esters could be demonstrated for hybrid LFA-1 molecules with human alpha and murine beta subunits.     

Influence of quaternary structure on glycosylation. Differential subunit association affects the site-specific glycosylation of the common beta-chain from Mac-1 and LFA-1

The influence of quaternary structure on glycosylation was evaluated in a macrophage-like cell line, P388D1. This cell line simultaneously synthesizes two structurally related glycoproteins, Mac-1 and LFA-1. Mac-1 and LFA-1 each contain two subunits in noncovalent association in an alpha 1 beta 1 structure. The beta-chain polypeptides of these two glycoproteins have identical primary structures while their alpha-chain polypeptides are distinct. For both Mac-1 and LFA-1, the association of the alpha- and beta-chains occurs prior to any Golgi-mediated processing of the oligosaccharide moieties on either one of the subunits. To evaluate the effects of differential subunit association on the site-specific glycosylation of the beta-chain, [3H]glucosamine-labeled oligosaccharides were isolated from the beta-chain of Mac-1 and LFA-1 and were compared by a variety of enzymatic and chromatographic techniques. Reverse-phase high performance liquid chromatography analyses of tryptic-chymotryptic glycopeptides suggest that each beta-chain has at least five glycosylation sites. Structural analysis of oligosaccharides from each corresponding glycopeptide fraction of the beta-chains of Mac-1 or LFA-1 (comparing their glycosidase sensitivities, behavior on serial lectin affinity chromatography, size heterogeneity, extent of sialylation, and branching) indicates that the LFA-1 beta-chain is glycosylated substantially differently on at least four of its sites, compared to the corresponding sites of the Mac-1 beta-chain, even though they are simultaneously synthesized in the same cells. Thus, these data demonstrate that quaternary structure can influence the site-specific glycosylation of a protein, even when the polypeptide structure and the cellular glycosylation machinery remain constant.     

Blocking of CTL-mediated killing by monoclonal antibodies to LFA-1 and LYT-2,3. I. Increased susceptibility to blocking after papain treatment of target cells

It is now established that monoclonal antibodies (MAb) against LFA-1 and Lyt-2,3 antigens on cytolytic T lymphocytes (CTL) block killing function in the absence of C. It has been suggested that the blocking is inversely related to CTL-target affinity. In this report, we studied the effect of papain pretreatment of target cells, because papain is known to remove H-2 and to render target cells more resistant to allospecific CTL. CTL-target conjugate formation was weaker with papain-treated target cells (based on reduced post-dispersion lysis in dextran-containing medium). The concentration of MAb required to produce 40 to 60% inhibition of 51Cr release (2-hr assay) was reduced four to 29-fold for alpha LFA-1 and 64 to 114-fold for alpha Lyt-2,3. Papain, however, did not induce blocking by MAb to other CTL antigens such as Thy-1, H-2, and T200. Flow cytometric analysis confirmed that papain selectively removed more than 95% of H-2. In kinetic studies of removal and recovery, H-2 density and conjugate formation correlated well with each other. Sensitivity to blocking was not as well correlated, raising the possibility that an unidentified papain-sensitive target cell molecule other than H-2 plays an important role in CTL-target interaction.     

Monoclonal antibodies that recognize lacto-N-fucopentaose III (CD15) react with the adhesion-promoting glycoprotein family (LFA-1/HMac-1/gp 150,95) and CR1 on human neutrophils

A variety of monoclonal antibodies has been used to study the roles of surface proteins in neutrophil function. Many monoclonal antibodies that bind to human neutrophils react with the oligosaccharide lacto-N-fucopentaose III. Sequential immunoprecipitation of radiolabeled proteins from extracts of neutrophils labeled at the cell surface with 125I, and partial proteolysis peptide mapping studies were used to compare the proteins recognized by several widely used monoclonal antibodies that react with human neutrophils. The monoclonal antibodies that react with lacto-N-fucopentaose III (CD15) immunoprecipitated five distinct neutrophil surface proteins. The data indicate that CD15 monoclonal antibodies react with a subset of the LFA-1/HMac-1/gp 150,95 glycoprotein family as well as with CR1 on human neutrophils. The CD15 antibodies studied differed in their avidities for these proteins. The molecules immunoprecipitated by the CD15 antibodies tested were more resistant to proteolysis than the homologous proteins immunoprecipitated by the other monoclonal antibodies studied that react directly with the alpha M (CD11) or beta (CD18) chains of the LFA-1/HMac-1/gp 150,95 glycoprotein family. Some of the differences in antibody reactivity and protease sensitivity of the membrane proteins recognized by these antibodies may be due to differences in glycosylation. The data suggest that the antibodies studied can detect differences in post-translational modification among copies of certain surface proteins.     

Generation of signals activating neutrophil functions by leukocyte integrins: LFA-1 and gp150/95, but not CR3, are able to stimulate the respiratory burst of human neutrophils

To address the question whether leukocyte integrins are able to generate signals activating neutrophil functions, we investigated the capability of mAbs against the common beta chain (CD18), or the distinct alpha chains of CR3, LFA-1, or gp150/95, to activate neutrophil respiratory burst. These investigations were performed with mAbs bound to protein A immobilized to tissue culture polystyrene. Neutrophils plated in wells coated with the anti-CD18 mAbs IB4 and 60.3 released H2O2; H2O2 release did not occur when neutrophils were plated in wells coated with an irrelevant, isotype-matched mAb (OKDR), or with mAbs against other molecules (CD16, beta 2-microglobulin) expressed on the neutrophil surface at the same density of CD18. Four different mAbs, OKM1, OKM9, OKM10, 60.1, which recognize distinct epitopes of CR3 were unable to trigger H2O2 or O2- release from neutrophils. However, mAbs against LFA-1 or gp150/95 triggered both H2O2 and O2- release from neutrophils. Stimulation of neutrophils respiratory burst by both anti-CD18, and anti-LFA-1 or gp150/95 mAbs was totally inhibited by the microfilaments disrupting agent, cytochalasin B, and by a permeable cAMP analogue. While the capability to activate neutrophil respiratory burst was restricted to anti-LFA-1 and gp150/95 mAbs, we observed that mAbs against all members of leukocyte integrins, including CR3, were able to trigger neutrophil spreading. These findings indicate that, in neutrophils, all three leukocyte integrins can generate signals activating spreading, but only LFA-1 and gp150/95 can generate signals involved in activation of the respiratory burst. This observation can be relevant to understand the mechanisms responsible for the activation of neutrophil respiratory burst by tumor necrosis factor-alpha, which has been shown to be strictly dependent on expression of leukocyte integrins (Nathan, C., S. Srimal, C. Farber, E. Sanchez, L. Kabbash, A. Asch, J. Gailit, and S. Wright. 1989. J. Cell Biol. 109:13411349.