Effect of a new monoclonal antibody, TA-2, that inhibits lymphocyte adherence to cytokine stimulated endothelium in the rat.

An important event in the migration of lymphocytes out of the blood is their adherence to endothelial cells (EC). In inflammatory sites cytokines activate EC and promote lymphocyte EC adherence and migration. Small peritoneal exudate lymphocytes (sPEL) preferentially migrate from the blood to cutaneous delayed-type hypersensitivity reactions and to sites injected with IFN-gamma, IFN-alpha/beta, and TNF-alpha, rather than to peripheral lymph nodes. The basis of this migration is sPEL adherence to cytokine-activated EC. To study this adhesion mAb to rat sPEL were screened for inhibition of sPEL adherence to IFN-gamma-stimulated EC. One mAb, TA-2, inhibited IFN-gamma-stimulated adherence to EC by 60%. This antibody had no effect on the baseline adherence of sPEL to unstimulated EC. Treatment of sPEL, but not EC, with TA-2-inhibited adhesion. TA-2 also inhibited adhesion to EC activated with mIL-1 alpha, TNF-alpha, and LPS, and the adhesion of spleen T cells to activated EC. The TA-2 Ag was expressed on virtually all lymph node, spleen, and sPEL lymphocytes but sPEL expressed two to three times higher levels than lymph node lymphocytes, and the highest levels were found on CD4+ and CD45R- memory T cells. TA-2 immunoprecipitated a group of four polypeptides with molecular mass of 150, 130, 83, and 66 kDa. Finally, TA-2 inhibited sPEL adhesion to TNF-alpha and IL-1 stimulated human umbilical vein EC to the same extent as an anti-human VCAM-1 mAb, and combinations of TA-2 and anti-VCAM-1 were not different from treatment with either antibody alone. Thus, TA-2 appears to recognize rat VLA-4 based on immunoprecipitation, immunofluorescence, and lymphocyte EC studies. VLA-4 mediates the adhesion of rat lymphocytes to rat microvascular EC stimulated with IFN-gamma, mIL-1 alpha, TNF-alpha, and LPS. VLA-4 is important in the increased adhesion of sPEL to EC and the enhanced sPEL migration to inflammation may in part be explained by increased expression of VLA-4 on these cells.     

Effect of antigen challenge on lymph node lymphocyte adhesion to vascular endothelial cells and the role of VLA-4 in the rat.

Lymphocytes from antigen-stimulated lymph nodes avidly migrate from the blood to cutaneous sites of inflammation such as DTH reactions or contact sensitivity. One of the initial steps in this migration is the adhesion of the lymphocyte to endothelial cells (EC); therefore, the adhesion of lymphocytes from antigen-stimulated lymph nodes to microvascular EC in the rat was examined. Two to five days after subcutaneous immunization with antigen, lymphocytes that adhered to unstimulated and IFN-gamma-, TNF-alpha-, IL-1 alpha-, and LPS-treated EC were increased in the regional lymph nodes. The enhanced adhesion was attributable to low-density lymphoblast-enriched lymph node cells while small high-density lymphocytes displayed little or no increase in their adhesion. Lymphoblast adhesion required the stimulation of the EC with 10 times the concentrations of IFN-gamma and TNF-alpha required for peritoneal exudate lymphocyte adhesion. There was a synergistic increase in the adhesion of the low-density lymphocytes to EC stimulated with combinations of IFN-gamma and TNF-alpha. Antibody to VLA-4 inhibited about 40% of the stimulated adhesion to EC treated with IFN-gamma, TNF-alpha, or LPS. In vivo anti-VLA-4 inhibited lymphoblast migration to IFN-gamma, TNF-alpha, LPS, and DTH reactions by 60%. Thus antigen stimulates the generation of low-density lymphoblasts that have an enhanced adherence to cytokine- and LPS-treated EC through a partially VLA-4-dependent mechanism and the migration of these cells to cutaneous inflammatory reactions is dependent upon VLA-4.     

Differential roles of VLA-4(CD49d/CD29) and LFA-1(CD11a/CD18) integrins and E- and P-selectin during developing and established active or adoptively transferred adjuvant arthritis in the rat

The role of the integrins VLA-4 and LFA-1 and of the selectin adhesion molecules in autoimmune arthritis was investigated. Adjuvant arthritis was induced in Lewis rats by active immunization (s.c.) with Mycobacterium butyricum or by adoptive transfer of immune T cells. With active adjuvant arthritis, Lewis rats develop maximal polyarticular joint inflammation and migration of radiolabelled (111In and 51Cr) blood neutrophils and monocytes to the joints 14 days post Mycobacterium butyricum immunization. Using blocking monoclonal antibodies we osbserved that at this stage monocyte recruitment was dependent (85%) on P-selectin plus VLA-4 (alpha4B1) and neutrophil recruitment depended (> 80%) on P-selectin plus LFA-1 (CD11a/CD18). E-selectin played a minimal role in inflammatory cell recruitment to the already inflamed joint. In contrast, during the development of active adjuvant arthritis, blockade of P-selectin beginning at day 5 post-immunization had no effect on subsequent arthritis. However, E-selectin blockade at this stage reduced arthritic scores by 70% (P < 0.01) and combined E-selectin plus VLA-4 blockade prevented development of arthritis. Either treatment nearly abolished neutrophil and monocyte recruitment to joints at day 14 and prevented cartilage damage. VLA-4 blockade alone was less effective. Adoptive T-cell transfer of adjuvant arthritis to naive rats employed spleen/lymph node lymphocytes from Mycobacterium butyricum immunized rats stimulated with Concanavalin A in vitro (48 h). E-selectin +/- P-selectin blockade had no effect on the development of adoptive arthritis. However, VLA-4 integrin blockade inhibited adoptive arthritis severity by 55% (P < 0.01). LFA-1 blockade had no effect. In adoptive adjuvant arthritis, inhibition of arthritis clinically and by histology was essentially complete (> 90%) when E- and P-selectin blockade was combined with VLA-4 blockade. Thus, in the development of actively induced arthritis E-selectin plays an important role, likely mediating early antigen reactive T-cell recruitment to joints. In contrast, VLA-4 and multiple selectin mechanisms are involved in arthritis induction by ex vivo restimulated arthritogenic T cells. Furthermore, in actively induced adjuvant arthritis, P- and E-selectin and VLA-4 are differently important in the initiation of arthritis, and at the time of fully developed joint inflammation.     

TNF-alpha, IL-4, and IFN-gamma regulate differential expression of P- and E-selectin expression by porcine aortic endothelial cells

P- and E-selectin are surface glycoproteins that mediate leukocyte rolling on the surface of endothelium in inflammation. We have cloned porcine P-selectin cDNA and generated a mAb, 12C5, with which to examine P-selectin expression by porcine aortic endothelial cells (PAEC) in comparison with that of E-selectin. Basal expression by PAEC of P-selectin was greater than that of E-selectin, whereas E-selectin expression was more prominently enhanced than that of P-selectin by stimulation with TNF-alpha or IL-1alpha. Both human or porcine IL-4 led to an increase in P-selectin expression, with kinetics that were delayed compared with those seen following stimulation with TNF-alpha or IL-1alpha, but IL-4 did not stimulate expression of E-selectin. When cells were stimulated with TNF-alpha in the presence of IL-4, we observed enhanced P-selectin expression with a parallel reduction in E-selectin expression. Finally, the increase in P-selectin expression due to human IL-4 was reduced in the presence of porcine but not human IFN-gamma. These observations show that E-selectin and P-selectin expression are differentially regulated in PAEC, and that IL-4 leads to a shift in the relative surface density of the two molecules toward P-selectin. The ability of porcine IFN-gamma to inhibit IL-4-induced P-selectin expression suggests that the balance between Th1 and Th2 cytokine production may determine the relative densities of the two selectins in chronic immune-mediated inflammation. Because the increased expression of P-selectin induced by human IL-4 was not inhibited by human IFN-gamma, this balance may be shifted toward P-selectin expression in porcine xenografts infiltrated by human lymphocytes.     

Inhibition of in vivo lymphocyte migration to inflammation and homing to lymphoid tissues by the TA-2 monoclonal antibody. A likely role for VLA-4 in vivo.

The adhesion receptors, LFA-1 and VLA-4, on lymphocytes mediate lymphocyte adherence to cytokine-activated endothelial cells (EC) in vitro. Based on our previous data, which suggested that the mAb TA-2 reacted with rat VLA-4, the effect of TA-2 on lymphocyte migration out of the blood was examined. Small peritoneal exudate lymphocytes (sPEL) preferentially migrate to cutaneous inflammatory reactions, whereas lymphocytes from peripheral lymph nodes (PLN) migrate poorly to inflammatory sites but home avidly to PLN. Treatment of sPEL with TA-2 inhibited sPEL migration to DTH, LPS, poly I:C, IFN-gamma, IFN-alpha/beta, and TNF-alpha by 35 to 65% and their accumulation in PLN by 50%. The homing of PLN lymphocytes to PLN was not inhibited by TA-2. Spleen T cell migration to cutaneous inflammatory sites was inhibited but homing to PLN was not affected. Systemic treatment with TA-2 inhibited sPEL migration to inflamed or cytokine-injected skin by up to 70%. Similarly, TA-2 strongly inhibited the migration of Ag-stimulated PLN lymphoblasts to skin and to PLN. The migration of lymphocytes from all sources, including the peritoneum, spleen, PLN, mesenteric nodes, and Peyer's patches, to mesenteric lymph nodes and Peyer's patches was inhibited by 80% and 95%, respectively. In conclusion, our results suggest that VLA-4 and possibly other alpha 4 integrins mediate the migration of the inflammation-seeking sPEL and Ag-activated lymphoblasts to cutaneous inflammatory sites and lymph nodes but do not affect the homing of PLN lymphocytes to PLN. These integrins also appear to be necessary for the migration of all types of lymphocytes to Peyer's patches and mesenteric lymph nodes.     

Effects of six different cytokines on lymphocyte adherence to microvascular endothelium and in vivo lymphocyte migration in the rat

The first step in the migration of lymphocytes out of the blood is adherence of lymphocytes to endothelial cells (EC) in the postcapillary venule. It is thought that in inflammatory reactions cytokines activate the endothelium to promote lymphocyte adherence and migration into the inflammatory site. Injection of IFN-gamma, IFN-alpha/beta, and TNF-alpha into the skin of rats stimulated the migration of small peritoneal exudate lymphocytes (sPEL) into the injection site, and these cytokines mediated lymphocyte recruitment to delayed-type hypersensitivity, sites of virus injection, and in part to LPS. The effect of cytokines on lymphocyte adherence to rat microvascular EC was examined. IFN-gamma, IFN-alpha/beta, IL-1, TNF-alpha, and TNF-beta increased the binding of small peritoneal exudate lymphocyte (sPEL) to EC. IFN-gamma was more effective and stimulated adherence at much lower concentrations than the other cytokines. IL-2 did not increase lymphocyte adherence. LPS strongly stimulated lymphocyte binding. Treatment of EC, but not sPEL, enhanced adhesion, and 24 h of treatment with IFN-gamma and IL-1 induced near maximal adhesion. Lymph node lymphocytes, which migrate poorly to inflammatory sites, adhered poorly to unstimulated and stimulated EC, whereas sPEL demonstrated significant spontaneous adhesion which was markedly increased by IFN-gamma, IL-1, and LPS. Spleen lymphocytes showed an intermediate pattern of adherence. Combinations of IFN-gamma and TNF-alpha were additive in stimulating sPEL-EC adhesion. Depletion of sPEL and spleen T cells by adherence to IFN-gamma stimulated EC decreased the in vivo migration of the lymphocytes to skin sites injected with IFN-gamma, IFN-alpha/beta, TNF-alpha, poly I:C, LPS, and to delayed-type hypersensitivity reactions by 50%, and significantly increased the migration of these cells to normal lymph nodes, as compared to unfractionated lymphocytes. Thus the cytokines and lymphocytes involved in migration to cutaneous inflammation in the rat stimulate lymphocyte adhesion to rat EC in vitro, and IFN-gamma stimulated EC appear to promote the selective adhesion of inflammatory site-seeking lymphocytes.     

Identification of tissue transglutaminase as a novel molecule involved in human CD8+ T cell transendothelial migration

During inflammation, T lymphocytes migrate out of the blood across the vascular endothelium in a multistep process. The receptors mediating T cell adhesion to endothelium are well characterized; however, the molecules involved in T cell transendothelial migration (TEM) subsequent to lymphocyte adhesion to the endothelium are less clear. To identify receptors mediating TEM, mAbs were produced against human blood T cells adhering to IFN-gamma-activated HUVEC in mice and tested for inhibition of lymphocyte TEM across cytokine-activated HUVEC. Most of the mAbs were against beta(1) and beta(2) integrins, but one mAb, 6B9, significantly inhibited T cell TEM across IFN-gamma, TNF-alpha, and IFN-gamma plus TNF-alpha-stimulated HUVEC, and did not react with an integrin. 6B9 mAb did not inhibit T cell adhesion to HUVEC, suggesting that 6B9 blocked a novel pathway in T cell TEM. The 6B9 Ag was 80 kDa on SDS-PAGE, and was expressed by both blood leukocytes and HUVEC. Immunoaffinity purification and mass spectrometry identified this Ag as tissue transglutaminase (tTG), a molecule not known to mediate T cell TEM. Treatment of HUVEC with 6B9 was more effective than treatment of T cells. 6B9 blockade selectively inhibited CD4(-), but not CD4(+), T cell TEM, suggesting a role for tTG in recruitment of CD8(+) T lymphocytes. Thus, 6B9 is a new blocking mAb to human tTG, which demonstrates that tTG may have a novel role in mediating CD8(+) T cell migration across cytokine-activated endothelium and infiltration of tissues during inflammation.     

Inhibition of lymphocyte endothelial adhesion and in vivo lymphocyte migration to cutaneous inflammation by TA-3, a new monoclonal antibody to rat LFA-1.

Lymphocyte function-associated Ag-1 (LFA-1) or CD11a/CD18 mediates lymphocyte adhesion to cultured vascular endothelial cells (EC). Thus, LFA-1 likely plays a major role in lymphocyte migration out of the blood, but there is little information on this in vivo. Small peritoneal exudate lymphocytes (sPEL) and lymph node (LN) lymphoblasts adhere to cytokine-activated EC and preferentially migrate to cutaneous inflammatory sites. The role of LFA-1 in the adherence and in vivo migration of these T cells was determined. Because of a lack of anti-rat LFA-1, mAb were prepared to rat T cells. One mAb, TA-3, inhibited homotypic aggregation; T cell proliferation to Ag, alloantigens, and mitogens; stained all leukocytes; and immunoprecipitated 170- and 95-kDa polypeptides from lymphocytes and neutrophils. TA-3 binding to lymphocytes also required Ca2+, but not Mg2+. Thus, TA-3 appears to react with rat LFA-1. TA-3 inhibited spleen T cell adhesion to unstimulated EC by 30% and to IFN-gamma, TNF-alpha, IL-1 alpha, and LPS stimulated EC by 50 to 60% but inhibited sPEL EC adhesion by only 10%. TA-3 also strongly inhibited anti-CD3-stimulated LN T cell adherence. The migration of spleen T cells to delayed-type hypersensitivity and skin sites injected with LPS, poly I:C, IFN-gamma, IFN-alpha/beta, and TNF was inhibited by 72 to 88% by TA-3, and was decreased by 50% to peripheral LN. TA-3 caused less but still 50 to 60% inhibition of sPEL migration to inflamed skin. Lymphoblast migration to skin was inhibited 40 to 80% and to PLN by 30%. Migration of lymphocytes from all sources to mesenteric LN was inhibited by 32 to 60%. In conclusion, LFA-1 mediates much of the adherence of spleen T cells and lymphoblasts to EC in vitro, most of the migration of these cells to dermal inflammation and about 50% of the homing of LN and spleen T cells to peripheral and mesenteric LN. sPEL are less dependent on LFA-1 for adhesion to EC in vitro and for migration to inflamed skin and LN in vivo.     

Mice lacking two or all three selectins demonstrate overlapping and distinct functions for each selectin.

Selectins support the capture and rolling of leukocytes in venules at sites of inflammation and in lymphocyte homing. Gene-targeted mice with null mutations at the L-, E-, or P-selectin locus develop normally and show mild (E-/-) to moderate (P-/-, L-/-) defects in inflammatory cell recruitment. Mice lacking both P- and E-selectin (E/P-/-) have severe neutrophilia and spontaneous skin infections that limit their life span. Other combinations of selectin deficiency have not been investigated. We have generated novel mice lacking L- and P-selectin (L/P-/-), L- and E-selectin (L/E-/-), or all three selectins (E/L/P-/-) by bone marrow transplantation. L/P-/- mice (only E-selectin present) show an absence of leukocyte rolling after trauma and severely reduced rolling (by approximately 90%) in inflammation induced by TNF-alpha. Residual rolling in L/P-/- mice was very slow (3.6 +/- 0.2 micrometers/s after TNF-alpha). L/E-/- mice (only P-selectin present) showed rolling similar to that of L-/- at increased velocities (15.1 +/- 0.3 micrometer/s). The number of adherent leukocytes after 2 or 6 h of TNF-alpha treatment was not significantly reduced in L/E-/- or L/P-/- mice. E/L/P-/- mice showed very little rolling after TNF-alpha, all of which was blocked by mAb to alpha4 integrin. Adherent and emigrated neutrophils were significantly reduced at 6 h after TNF-alpha. We conclude that any one of the selectins can support some neutrophil recruitment but eliminating all three selectins significantly impairs neutrophil recruitment.     

Eosinophil transendothelial migration induced by cytokines. I. Role of endothelial and eosinophil adhesion molecules in IL-1 beta-induced transendothelial migration.

IL-1 beta promotes adhesiveness in human umbilical vein endothelial cells (HuVEC) for eosinophils through expression of adhesion molecules including intercellular adhesion molecules-1 (ICAM-1), E-selectin, and vascular cell adhesion molecule-1 (VCAM-1). Using an in vitro endothelial monolayer system, we examined whether IL-1 beta or TNF-alpha can promote eosinophil transendothelial migration. We also evaluated the contributions of ICAM-1, E-selectin, VCAM-1, leukocyte adhesion complex (CD11/18), and very late Ag-4 (CD11b/18) (VLA-4) in this process using blocking mAb, and determined the changes in expression of CD11b and L-selectin on eosinophils that had undergone transmigration. IL-1 beta and TNF-alpha treatment of HuVEC (4 h, 5 ng/ml) induced significant transendothelial migration of eosinophils (a 4.1 +/- 0.4-fold (IL-1 beta) and 2.0 +/- 0.9-fold (TNF-alpha) increase from the spontaneous value of 3.2 +/- 0.3%). Increased CD11b expression and shedding of L-selectin were observed on eosinophils following IL-1 beta-induced eosinophil transendothelial migration. Studies with mAb revealed that blockade of either ICAM-1 or CD11/18 inhibited transmigration, while antibodies against VCAM-1 and VLA-4 had no inhibitory effect. Among antibodies which block beta 2 integrins, anti-CD18 mAb had the best inhibitory effect (88% inhibition). The combined inhibitory effect of anti-CD11a mAb and anti-CD11b mAb was roughly equal to that of anti-CD18, although anti-CD11a (31% inhibition) and anti-CD11b (52% inhibition) were less effective individually. Anti-ICAM-1 by itself inhibited IL-1 beta-induced eosinophil transendothelial migration (24% inhibition) whereas neither anti-E-selectin nor anti-VCAM-1 were effective inhibitors. Interestingly, the combination of anti-E-selectin and anti-VCAM-1 with anti-ICAM-1 inhibited IL-1 beta-induced eosinophil transendothelial migration significantly better (53% inhibition) than anti-ICAM-1 alone. These results suggest that although the initial attachment of eosinophils to IL-1 beta-activated endothelial cells involves VCAM-1, E-selectin, and ICAM-1, the subsequent transendothelial migration process relies heavily on ICAM-1 and CD11/18. Finally, the changes that eosinophils have been observed to undergo during infiltration in vivo, namely increased expression of CD11/18 and shedding of L-selectin, appear to take place as a direct result of the interaction between eosinophils and endothelial cells.     

P-, E-, and L-selectin mediate migration of activated CD8+ T lymphocytes into inflamed skin

P- and E-selectin mediate CD4+ Th1 cell migration into the inflamed skin in a murine contact hypersensitivity model. In this model, not only CD4+ T cells but also CD8+ T cells infiltrate the inflamed skin, and the role of CD8+ type 1 cytotoxic T (Tc1) cells as effector cells has been demonstrated. Here we show that in mice deficient in both P- and E-selectin, the infiltration of CD8+ T cells in the inflamed skin is reduced, suggesting the role of these selectins in CD8+ T cell migration. We directly studied the role of selectins using in vitro-generated Tc1 cells. These cells are able to migrate into the inflamed skin of wild-type mice. This migration is partially mediated by P- and E-selectin, as shown by the reduced Tc1 cell migration into the inflamed skin of mice deficient in both P- and E-selectin or wild-type mice treated with the combination of anti-P-selectin and anti-E-selectin Abs. During P- and E-selectin-mediated migration of Tc1 cells, P-selectin glycoprotein ligand-1 appears to be the sole ligand for P-selectin and one of the ligands for E-selectin. P- and E-selectin-independent migration of Tc1 cells into the inflamed skin was predominantly mediated by L-selectin. These observations indicate that all three selectins can mediate Tc1 cell migration into the inflamed skin.     

Effect of T cell activation on lymphocyte-endothelial cell adherence and the role of VLA-4 in the rat.

Lymphocyte migration from the blood is in part controlled by lymphocyte surface adhesion molecules, such as VLA-4 and LFA-1. Small lymph node lymphocytes from rats adhere poorly to rat microvascular endothelial cells (EC), while lymphoblasts from antigen-challenged lymph nodes have an enhanced adherence to EC and preferentially migrate to inflamed tissues. This lymphoblast adherence is partially inhibited by anti-VLA-4. The effects of in vitro activation of lymph node lymphocytes on lymphocyte-EC adhesion were examined. In vitro stimulation of T cells with concanavalin A or calcium ionophore and phorbol myristate acetate (PMA) for 1-4 hr caused a marked (7- to 12-fold) increase in lymphocyte adhesion to unstimulated and IFN-gamma- or LPS-treated EC. This adhesion was partially inhibited by anti-VLA-4, was not associated with increased VLA-4 expression, was partially inhibited at 4 degrees C, and was virtually eliminated at 4 degrees C with anti-VLA-4. Anti-CD3 or IL-2 stimulation of T cells also enhanced lymphocyte adhesion but required 2-3 days of culture. This adhesion was not inhibited by anti-VLA-4 and was almost totally inhibited at 4 degrees C, suggesting a primarily LFA-1-mediated adhesion. In conclusion, stimulation of T cells with Con A or calcium ionophore plus PMA caused a rapid enhancement of lymphocyte-EC adhesion mediated in part through VLA-4, while stimulation of T cells with anti-CD3 or IL-2 enhanced lymphocyte adhesion apparently independent of VLA-4.     

CD43 plays both antiadhesive and proadhesive roles in neutrophil rolling in a context-dependent manner

As the first step in the recruitment of neutrophils into tissues, the cells become tethered to and roll on the vessel wall. These processes are mediated by interactions between the P- and E-selectins, expressed on the endothelial cells of the vessel wall, and their ligands, expressed on the neutrophils. Recently, we reported that CD43 on activated T cells functions as an E-selectin ligand and thereby mediates T cell migration to inflamed sites, in collaboration with P-selectin glycoprotein ligand-1 (PSGL-1), a major P- and E-selectin ligand. Here, we examined whether CD43 on neutrophils also functions as an E-selectin ligand. CD43 was precipitated with an E-selectin-IgG chimera from mouse bone marrow neutrophils. A CD43 deficiency diminished the E-selectin-binding activity of neutrophils when PSGL-1 was also deficient. Intravital microscopy showed that the CD43 deficiency significantly increased leukocyte rolling velocities in TNF-alpha-stimulated venules blocked with an anti-P-selectin mAb, where the rolling was mostly E-selectin dependent, when PSGL-1 was also absent. In contrast, in venules with trauma-induced inflammation, where the rolling was largely P-selectin dependent, the CD43 deficiency reduced leukocyte rolling velocities. Collectively, these observations suggest that CD43 generally serves as an antiadhesive molecule to attenuate neutrophil-endothelial interactions, but when E-selectin is expressed on endothelial cells, it also plays a proadhesive role as an E-selectin ligand.     

Expression of functional selectin ligands on Th cells is differentially regulated by IL-12 and IL-4

Immune responses may be qualitatively distinct depending on whether Th1 or Th2 cells predominate at the site of Ag exposure. T cell subset-specific expression of ligands for vascular selectins may underlie the distinct patterns of recruitment of Th1 or Th2 cells to peripheral inflammatory sites. Here we examine the regulation of selectin ligand expression during murine T helper cell differentiation. Large numbers of Th1 cells interacted with E- and P-selectin under defined flow conditions, while few Th2 and no naive T cells interacted. Th1 cells also expressed more fucosyltransferase VII mRNA than naive or Th2 cells. IL-12 induced expression of P-selectin ligands on Ag-activated naive T cells, even in the presence of IL-4, and on established Th2 cells restimulated in the presence of IL-12 and IFN-gamma. In contrast, Ag stimulation alone induced only E-selectin ligand. Interestingly, restimulation of established Th2 cells in the presence of IL-12 and IFN-gamma induced expression of P-selectin ligands but not E-selectin ligands; IFN-gamma alone did not enhance expression of either selectin ligand. In summary, functional P- and E-selectin ligands are expressed on most Th1 cells, few Th2 cells, but not naive T cells. Furthermore, selectin ligand expression is regulated by the cytokine milieu during T cell differentiation. IL-12 induces P-selectin ligand, while IL-4 plays a dominant role in down-regulating E-selectin ligand.     

Borrelia Burgdorferi Upregulates the Adhesion Molecules E-selectin,P-selectin,ICAM-1 and VCAM-1 on Mouse Endothelioma Cells in vitro

In order to obtain more information on processes leading to Borrelia burgdorferi-induced inflammation in the host, we have developed an in vitro model to study the upregulation of cell surface expression of adhesion molecules on endothelial cells by spirochetes. A mouse endothelioma cell line, derived from brain capillaries, bEnd3, was used as indicator population. bEnd3 cells were incubated with preparations of viable, inactivated or sonicated spirochetes and the expression of E-selectin, P-selectin, ICAM-1 and VCAM-1 was monitored by immunocytochemistry and quantified by cell surface ELISA. We show that all three spirochetal preparations are able to upregulate cell surface expression of E-selectin, P-selectin, ICAM-1 and VCAM-1 on bEnd3 cells in a dose-dependent manner. The kinetics of cell surface expression of the individual adhesion molecules in the presence of Borrelia burgdorferi showed maxima at about 50 h of incubation or later; this was distinct from results obtained with sonicated-preparations of Escherichia coli bacteria or with enterobacterial LPS where peak expression was observed between 4 h and 16 h. The fact that Borrelia burgdorferi does not contain conventional LPS suggests that the mode of induction of adhesion molecules on endothelial cells is influenced by the phenotype of bacteria. At the peak of spirochete-induced cell surface expression of adhesion molecules (≈50 h), bEnd3 cells were found to bind cells of a VLA-4⁺ B lymphoma line (L1-2) much more efficiently than untreated control cells. The binding of L1-2 cells to presensitized bEnd3 cells was significantly inhibited (more than 75%) in the presence of monoclonal antibodies to both VLA-4 and its endothelial counterreceptor VCAM-1. These findings demonstrate that Borrelia burgdorferi organisms are able to induce functionally active adhesion molecules on endothelial cells in vitro and suggest that E-selectin, P-selectin, ICAM-1 and VCAM-1 play an important role in the pathogenesis of spirochetal infection.     

Borrelia Burgdorferi Upregulates the Adhesion Molecules E-selectin, P-selectin, ICAM-1 and VCAM-1 on Mouse Endothelioma Cells in vitro

In order to obtain more information on processes leading to Borrelia burgdorferi-induced inflammation in the host, we have developed an in vitro model to study the upregulation of cell surface expression of adhesion molecules on endothelial cells by spirochetes. A mouse endothelioma cell line, derived from brain capillaries, bEnd3, was used as indicator population. bEnd3 cells were incubated with preparations of viable, inactivated or sonicated spirochetes and the expression of E-selectin, P-selectin, ICAM-1 and VCAM-1 was monitored by immunocytochemistry and quantified by cell surface ELISA. We show that all three spirochetal preparations are able to upregulate cell surface expression of E-selectin, P-selectin, ICAM-1 and VCAM-1 on bEnd3 cells in a dose-dependent manner. The kinetics of cell surface expression of the individual adhesion molecules in the presence of Borrelia burgdorferi showed maxima at about 50 h of incubation or later; this was distinct from results obtained with sonicated-preparations of Escherichia coli bacteria or with enterobacterial LPS where peak expression was observed between 4 h and 16 h. The fact that Borrelia burgdorferi does not contain conventional LPS suggests that the mode of induction of adhesion molecules on endothelial cells is influenced by the phenotype of bacteria. At the peak of spirochete-induced cell surface expression of adhesion molecules (≈50 h), bEnd3 cells were found to bind cells of a VLA-4⁺ B lymphoma line (L1-2) much more efficiently than untreated control cells. The binding of L1-2 cells to presensitized bEnd3 cells was significantly inhibited (more than 75%) in the presence of monoclonal antibodies to both VLA-4 and its endothelial counterreceptor VCAM-1. These findings demonstrate that Borrelia burgdorferi organisms are able to induce functionally active adhesion molecules on endothelial cells in vitro and suggest that E-selectin, P-selectin, ICAM-1 and VCAM-1 play an important role in the pathogenesis of spirochetal infection.     

Recruitment of IFN-gamma-producing (Th1-like) cells into the inflamed retina in vivo is preferentially regulated by P-selectin glycoprotein ligand 1:P/E-selectin interactions

Although there is evidence that altering the Th1/Th2 balance toward Th2 cells may be important in the resolution of Th1-type autoimmune disease, adoptive transfer of Th2 cells is not effective in protecting against Th1-type disease and may cause disease. Therefore, we examined the recruitment of Th1- and Th2-like cells into the retina in the murine autoimmune disease experimental autoimmune uveoretinitis. CD4 T cells were polarized in vitro to IFN-gamma-producing Th1-like cells and non-IFN-gamma-producing Th2-like cells, labeled, and adoptively transferred. Trafficking to the retina in vivo was evaluated by scanning laser ophthalmoscopy and infiltration by confocal microscopy. There were more rolling and adherent Th1-like cells and they rolled more slowly than did Th2-like cells. Th1-like cells were preferentially recruited into the retinal parenchyma at both initiation and resolution. Surface P-selectin glycoprotein ligand 1 (PSGL-1) and LFA-1 were up-regulated on both populations but were expressed at higher levels on Th1-like cells. Up-regulation of CD44 expression was higher on Th2-like cells. P-selectin, E-selectin, and ICAM-1 are up-regulated on postcapillary venules in the retina. Pretreatment of Th1-like cells with anti-PSGL-1 inhibited rolling and infiltration of Th1-like cells but not Th2-like cells, providing direct in vivo evidence for the inability of Th2 to respond to P/E-selectin despite increased expression of PSGL-1. Anti-LFA-1 pretreatment inhibited infiltration of both Th1- and Th2-like cells, but more so Th-1. We suggest that random trafficking of activated T cells (both Th1 and Th2) across the blood-retina barrier is mediated by CD44:CD44R and LFA-1:ICAM-1, whereas preferential recruitment of Th1 cells is mediated by PSGL-1:P/E-selectin.     

Molecular mechanisms underlying IL-4-induced leukocyte recruitment in vivo: a critical role for the alpha 4 integrin.

IL-4 is known to induce recruitment of eosinophils and mononuclear leukocytes. In vitro this occurs in part by selective expression of VCAM-1, the ligand for the alpha 4 integrin. The objective of this study was to determine the molecular mechanisms that underlie IL-4-induced leukocyte recruitment in vivo. Mice received an intrascrotal injection of IL-4 (100 ng). Twenty-four hours later, leukocyte rolling, adhesion, and emigration in cremasteric postcapillary venules were examined via intravital microscopy, and expression of VCAM-1 and P- and E-selectin was quantitated using a radiolabeled mAb technique. IL-4 increased VCAM-1 expression, but P-selectin and E-selectin remained at constitutive levels. IL-4 induced significant increases in leukocyte adhesion and emigration, with 50% of the emigrated cells being eosinophils and the remainder being mononuclear leukocytes. Leukocyte rolling in IL-4-treated mice was >95% inhibitable using an anti-P-selectin Ab. However, IL-4-induced leukocyte recruitment was unaltered in mice treated chronically with P-selectin Ab or mice deficient in either P-selectin or P- and E-selectin, suggesting that the residual rolling supported all of the IL-4-induced recruitment. In IL-4-treated mice following P-selectin blockade, tethering and rolling were not dependent on L-selectin, but were abolished by alpha 4 integrin blockade. These findings show that the alpha 4 integrin can initiate leukocyte-endothelial cell interactions in the absence of selectins under shear conditions in vivo, and that the absence of selectins does not affect recruitment of eosinophils and mononuclear cells to IL-4-treated tissue.     

Blockade of physiologically secreted IFN-gamma inhibits human T lymphocyte and natural killer cell activation

The role of physiologically secreted human IFN-gamma in T lymphocyte and NK cell activation has been probed with a panel of mouse mAb directed against various epitopes of the human IFN-gamma molecule, or human IFN-gamma R. Addition to the culture medium of those mAb that neutralize the antiviral activity of IFN-gamma or interact with its receptor inhibited proliferative and cytotoxic responses elicited in PBL by HLA alloantigens, anti-CD3 mAb, and IL-2, but not the proliferative response to PHA. The IFN-gamma blockade also inhibited IFN-gamma, IL-2, and TNF-alpha release during MLC. Kinetic experiments showed that reduction of proliferative and cytotoxic responses to HLA alloantigens is maximal when IFN-gamma is blocked within the first 48 h. Exogenous rIFN-gamma restored the proliferative response only when added at the beginning. Moreover, when IFN-gamma was blocked, T lymphocytes recovered from 6-day MLC displayed a profound decrease in their expression of p55 and p75 chains of the IL-2R, as well as in the number of high-affinity IL-2 binding sites. These findings strongly suggest that IFN-gamma is required in the early phases of induction of the oligo- and polyclonal proliferative and cytotoxic responses of lymphocytes.