Functional relevance during lymphocyte migration and cellular localization of activated β1 integrins

The state of integrin activation can be assessed by monoclonal antibodies (mAb) that selectively recognize integrins in their active form. We demonstrate herein that the expression of the epitope recognized by mAb HUTS-21 is induced on T lymphoblasts upon binding of soluble vascular cell adhesion molecule (VCAM)-1 and an 80-kDa tryptic fragment of fibronectin (FN80) to the β1 integrins very late activation antigen (VLA)-4 and VLA-5, and that this effect is dependent on ligand concentration and is specific for β1 integrins. On T lymphoblasts adhering to immobilized fibronectin, the HUTS-21 epitope localized exclusively to sites of integrin binding to fibronectin. These results indicate that mAb HUTS-21 recognizes a ligand-induced binding site (LIBS) on the common β1 subunit of VLA proteins. Engagement of β1 integrins through this LIBS epitope inhibited T lym-phoblast movement on fibronectin, as determined by quantitative time-lapse video microscopy studies. Furthermore, the HUTS-21 mAb also prevented T lymphoblast-directed migration through gradients of substratum-immobilized β1 integrin ligands such as fibronectin or VCAM-1, whereas it did not affect migration on intercellular adhesion molecule (ICAM)-1. This anti-LIBS mAb stimulated cell adhesion through postreceptor events, without affecting receptor affinity for ligand, and appears to interfere with cell migration by a mechanism distinct from that of other anti-β1 activating antibodies.     

Regulation of integrin function by T cell activation

Lymphocyte adhesiveness is dynamically regulated in response to conditions in the extracellular environment. One mechanism of regulation of integrin adhesion receptors involves a rapid, but transient, increase in integrin function upon T lymphocyte activation. These integrin activating signals can be initiated either via ligation of Ig superfamily members that are coupled to tyrosine kinase cascades, such as the CD3/T cell receptor, CD2, and CD28, or by G proteincoupled receptors for chemokines. Analysis of integrin activation induced by CD3/TCR, CD2 and CD28 suggests a critical role for phosphoinositide 3-OH kinase (PI 3-K). This review summarizes recent insights into PI 3-K-dependent regulation of integrin function in leukocytes, including the mechanisms by which these receptors are coupled to PI 3-K, and potential downstream effectors of PI 3-K that regulate integrin-mediated adhesion in leukocytes.     

Regulation of integrin function by T cell activation: points of convergence and divergence

Lymphocyte adhesiveness is dynamically regulated in response to conditions in the extracellular environment. One mechanism of regulation of integrin adhesion receptors involves a rapid, but transient, increase in integrin function upon T lymphocyte activation. These integrin activating signals can be initiated either via ligation of Ig superfamily members that are coupled to tyrosine kinase cascades, such as the CD3/T cell receptor, CD2, and CD28, or by G protein-coupled receptors for chemokines. Analysis of integrin activation induced by CD3/TCR, CD2 and CD28 suggests a critical role for phosphoinositide 3-OH kinase (PI 3-K). This review summarizes recent insights into PI 3-K-dependent regulation of integrin function in leukocytes, including the mechanisms by which these receptors are coupled to PI 3-K, and potential downstream effectors of PI 3-K that regulate integrin-mediated adhesion in leukocytes.     

Intracellular signaling required for CCL25-stimulated T cell adhesion mediated by the integrin alpha4beta1

The alpha4beta1 integrin is expressed on thymocytes and mediates cell attachment to its ligands CS-1/fibronectin (CS-1/FN) and VCAM-1 in the thymus. The chemokine CCL25 is highly expressed in the thymus, where it binds to its receptor CCR9 on thymocytes promoting migration and activation. We show here that alpha4beta1 and CCR9 are coexpressed mainly on double- and single-positive thymocytes and that CCL25 strongly stimulates CD4(+)CD8(+) and CD4(+)CD8(-) adhesion to CS-1/FN and VCAM-1. CCL25 rapidly activated the GTPases Rac and Rap1 on thymocytes, and this activation was required for stimulation of adhesion, as detected using the CCR9(+)/alpha4beta1(+) human T cell line Molt-4. To study the role on CCL25-stimulated adhesion of the Rac downstream effector Wiskott-Aldrich syndrome protein family verproline-homologous protein 2 (WAVE2) as well as of Rap1-GTP-interacting proteins, regulator of adhesion and cell polarization enriched in lymphoid tissues (RAPL) and Rap1-GTP-interacting adapter molecule (RIAM), we knocked down their expression and tested transfectant attachment to alpha4beta1 ligands. We found that WAVE2 and RAPL but not RIAM were required for efficient triggering by CCL25 of T cell adhesion to CS-1/FN and VCAM-1. Although Rac and Rap1 activation was required during early steps of T cell adhesion stimulated by CCL25, WAVE2 was needed for the development of actin-dependent T cell spreading subsequent to adhesion strengthening but not during initial alpha4beta1-ligand interactions. These results suggest that regulation by CCL25 of adhesion of thymocyte subpopulations mediated by alpha4beta1 could contribute to control their trafficking in the thymus during maturation, and identify Rac-WAVE2 and Rap1-RAPL as pathways whose activation is required in inside-out signaling, leading to stimulated adhesion.     

Induction of T cell adhesion to extracellular matrix or endothelial cell ligands by soluble or matrix-bound interleukin-7

The putative effects of interleukin (IL)-7, operating in the context of extracellular matrix (ECM), on the adhesion of human T cells were examined. Recombinant human IL-7 was found to bind ECM or fibronectin (FN) with IC₅₀ values of 10–100 nM. Nanogram amounts of both soluble and, especially, FN- or ECM-bound IL-7, which differentially affected the morphologies of FN-adherent T cells, induced the adhesion of resting CD4⁺ and CD8⁺ T cells in dose-dependent and β1 integrin-dependent manners. Under static and flow conditions, soluble IL-7 also induced the binding of unstimulated T cells to vascular cell adhesion molecule-1, suggesting that this cytokine can also modulate integrin binding to endothelial cell ligands. The effects of affinity modulation by IL-7 of FN-specific β1 integrins depend on the presence of soluble FN, which inhibited T cell adhesion to FN induced by FN-bound IL-7 or by an integrin-specific affinity-modulating monoclonal antibody, but not by soluble IL-7 or phorbol 12-myristate 13-acetate. These findings provide an example of a major ECM integrin ligand, FN, which is capable of modulating its adhesive interactions with specific immune cells by associating with and presenting a cytokine in a bio-active state.     

CD4+ T lymphocytes migrating in three-dimensional collagen lattices lack focal adhesions and utilize β1 integrin-independent strategies for polarization,interaction with collagen fibers and locomotion

Cell migration may depend on integrin-mediated adhesion to and deadhesion from extracellular matrix ligands. This concept, however, has not yet been confirmed for T lymphocytes migrating in three-dimensional extracellular matrices. We investigated receptor involvement in T cell migration combining a three-dimensional collagen matrix model with time-lapse videomicroscopy, computer-assisted cell tracking and confocal microscopy. In collagen lattices, the migration of CD4⁺ T cells (1) involved interactions with collagen fibers at the leading edge and uropod likewise, (2) occurred independently of the co-clustering of β1, β2, or β3 integrins with F-actin, focal adhesion kinase, and phosphotyrosine at interactions with collagen fibers, (3) was counteracted by high-affinity β1 integrin binding induced by antibody TS2/16; however, (4) the migration could not be blocked by a combination of adhesion-perturbing anti-β1, -β2, -β3, and αv integrin antibodies. Integrin blocking neither affected cell polarization, interaction with fibers, β1 integrin distribution, migration velocity, path structure, nor the number of locomoting cells in spontaneously migrating or concanavalin A-activated cells. Hence, T lymphocytes migrating in three-dimensional collagen matrices may utilize highly transient interactions with collagen fibers of low adhesivity, thereby differing from focal adhesion-dependent migration strategies employed by other cells.     

T lymphocyte adhesion to the fibronectin and laminin components of the extracellular matrix is regulated by the CD4 molecule.

The adhesion of T cells to components of the extracellular matrix (ECM) is mediated by the beta 1 subfamily of integrin receptors, designated VLA. It has been recently demonstrated that the binding of VLA receptors to protein components of the ECM is rapidly augmented by the activation of the T cells without, however, any actual change in the level of expression of the VLA receptors for fibronectin (FN) or laminin (LN). Thus, it is likely that activation of existing VLA receptors is required for binding. The activation must be regulated by T cell surface molecules capable of transducing signals into the cell. We studied the role of the CD4 molecule in the binding of rat CD4+ T cells to the FN and LN components of the ECM. We now report that the CD4 molecule appears to play a major role in regulating T cell interactions with ECM. This conclusion is based on the following observations: (a) monoclonal antibodies directed against the CD4 molecule inhibited T cell adhesion to both FN and LN; (b) down-regulation of the CD4 molecule resulted in partial loss of the ability of CD4+ T cells to adhere to FN and LN; (c) a CD4+ T cell clone adhered to both FN and LN while a CD4-CD8- clone expressing an identical T cell receptor bound weakly to both proteins and (d) treatment of the CD4+ T cells with an inhibitor of the CD4-associated tyrosine protein kinase activity inhibited T cell adhesion to both ECM proteins.     

Expression and function of alpha 4/beta 7 integrin on human natural killer cells.

In this report we have analysed the expression and function of the alpha 4/beta 7 heterodimer in human natural killer (NK) cells. The expression of alpha 4 beta 7 is induced in NK cells upon activation as the anti alpha 4 beta 2 ACT-1 monoclonal antibody (mAb) family stained a minority of peripheral blood NK cells, whereas it strongly reacted with in vitro long-term interleukin-2 (IL-2)-activated NK cells. Incubation with ACT-1 on its F(ab) fragments induced a strong homotypic adhesion of NK cells, comparable to than stimulated by the anti-alpha 4 HPI 7 mAb. Cell cell interaction induced by the ACT-1 mAb was only prevented by another anti-alpha 4 mAb (HP2.1) that recognizes a different epitope. In alpha 4 beta 7-mediated cell aggregation the alpha 4 beta 7 heterodimer was redistributed to intercellular contact sites thus, suggesting a direct involvement of this integrin in the formation of cell clusters. In NK cells attached to Fibronectin (FN38) or vascular cell adhesion molecule-1 (VCAM-1), both alpha 4 beta 7 and alpha 4 beta 7 integrins were redistributed at the ventral cellular membrane forming discrete contact sites. The ACT-1 mAb only partially blocked NK cell binding to FN38, but in combination with the anti-beta 7 mAb LIAI 2, NK cell binding to FN38 was completely inhibited. In contrast. ACT-1 did not modify NK cell adhesion to VCAM-1 thus supporting the theory that the alpha 4 beta 7 binding sites for both ligands appear to be different. Our results indicate that upon IL-2-activation, expression of functional alpha 4 beta-integrin is induced on NK cells potentially participating in their interaction with both extracellular matrix and endothelial cells.     

Convergence between CD98 and integrin-mediated T-lymphocyte co-stimulation

CD98 is a widely expressed cell surface heterodimeric glycoprotein, which is rapidly up-regulated upon activation of T lymphocytes. Monoclonal antibody (mAb) 80A10 recognizes an epitope on CD98 and in combination with CD3 antibody causes proliferation of peripheral blood T lymphocytes. CD98 co-stimulatory activity, mediated by either mAb 80A10 or 4F2, a well-characterized CD98-specific mAb, is blocked in the presence of the soluble beta1 integrin antibody 18D3. Previously we have reported that co-stimulatory activity of antibodies to integrins alpha4beta1, alpha5beta1, alphaLbeta2 and alpha4beta7 is inhibited by 18D3, whereas co-stimulation mediated by non-integrins was unaffected. Thus the non-integrin CD98 is uniquely sensitive to the inhibitory effects of beta1 integrin-blocking antibodies, which may reflect convergent signalling mechanisms between integrins and CD98. This is consistent with recent reports suggesting that CD98 may regulate integrin-mediated adhesive events.     

Engagement of beta2 integrins induces surface expression of beta1 integrin receptors in human neutrophils

Induction of beta1 integrin (CD49/CD29) expression in polymorphonuclear leukocytes (PMN) has been shown to be associated with transendothelial migration recently. Yet, beta1 integrin expression is relatively insensitive to cell activation with soluble agonists, such as N-formyl-methionyl-leucyl-phenylalanine (fMLP). We hypothesized that beta2 integrins (CD11/CD18), critically involved in PMN adhesion and extravasation, may play a role in regulating 1 integrin expression in PMN. Antibody cross-linking of CD18, mimicking adhesion-dependent engagement of beta2 integrins, resulted in rapid, tyrosine kinase-dependent upregulation of beta1 integrins. This response was potentiated by simultaneous chemoattractant (fMLP) stimulation of PMN. Moreover, upregulation of beta1 integrins evoked by CD18 cross-linking was found to support adhesion of fMLP-stimulated PMN to matrix proteins and also was critical for the ability of PMN to migrate in collagen gels in response to a gradient of fMLP. Taken together, these data demonstrate that engagement of beta2 integrins in human PMN induces beta1 integrin expression in these cells of significance for their migration in the extravascular tissue. Thus, beta2 integrins may serve the function to regulate PMN locomotion in extravascular tissue via receptor crosstalk with beta1 integrins.     

Renal allograft rejection: the contribution of chemokines to the adhesion and retention of alphaE(CD103)beta7 integrin-expressing intratubular T cells

Recruitment of activated T cells to the tubules is a defining feature of cell-mediated renal allograft rejection. Many of these intratubular T cells express the alphaE(CD103)beta7 integrin, potentially allowing adhesion to epithelial cells which express the only defined counter-receptor, E-cadherin. However, the potential of rejection-associated intratubular chemokines to modulate the adhesive function of this integrin has not been investigated. This study demonstrated that CCL7 is expressed within the tubules during renal allograft rejection. Modelling with CD103-expressing MOLT-16 T cells demonstrated chemotactic responses to the chemokines CXCL10, CXCL12, CCL5 and, most significantly, CCL7 (p<0.001); these responses were consistent with the expression of CXCR3, CXCR4 and CCR1 by these cells. A solid-phase adhesion assay showed little background binding of MOLT-16 cells to immobilised human E-cadherin.Fc fusion protein but alphaEbeta7 integrin-specific adhesion was greatly increased by the addition of either Mn(2+) or 10nM CCL7 (p<0.01 or <0.001, respectively). Treatment of activated human peripheral T cells with TGFbeta(1) for 3 days induced the expression of CD103 on a mean 53% of these cells; a similar proportion of CD103+ and CD103- T cells within these cultures expressed receptors for the chemokine CCL7. CD103+ T cell fractions were sorted from mitogen- or alloantigen-activated, TGFbeta(1)-treated T cell cultures and also showed specific enhancement of adhesion to E-cadherin.Fc fusion protein following stimulation with Mn(2+) or 10nM CCL7 (p<0.01 in all cases); CD103- T cells were not adherent under any conditions. Together these data suggest that although the alphaEbeta7 integrin is induced on activated intratubular T cells by the presence of TGFbeta, the adhesive function of this integrin is promoted by the presence of chemokines such as CCL7, which are also expressed within tubules during renal allograft rejection.     

Coordinate expression of β1 and β2 integrin “activation” epitopes during T cell responses in secondary lymphoid tissue

The monoclonal antibodies (mAb) 15/7 and 24 recognize unique activation-dependent, conformational epitopes on β1 and β 2-integrins, respectively. The expression of both of these epitopes closely correlates with the ligand binding ability of their respective integrins, and thus serves as indicators of functional integrin “activation”. Here, we have used six-parameter flow cytometry to examine the expression of these epitopes and conventional β1- and β2-integrin epitopes during human T cell activation in secondary lymphoid tissues in vivo, focusing particularly on the virgin to memory/effector cell transition. Fresh tonsil lymphocytes were stained with mAb against conventional or activation-dependent integrin epitopes, followed by staining with mAb against CD3, CD45RA, and CD45RO, thus allowing the determination of integrin epitope expression on virgin (CD3⁺) T cells (CD45RA⁺/RO^?to±), memory/effector (CD45RA^?/RO⁺⁺) T cells, and T cells undergoing the virgin to memory/effector transition: transition region-1 (T1; CD45RA^+to++/RO⁺); -2 (T2; CD45RA⁺⁺/RO⁺⁺); and -3 (T3; CD45RA⁺/RO⁺⁺). Conventional β1- and β2-integrin epitopes progressively increase during the virgin to T3 stages of the transition in tonsil, in keeping with the generally higher levels of these adhesion molecules on memory/effector vs. virgin T cells. Expression of both the β1 (15/7)-and β2 (24)-integrin activation epitopes first appears on transitional T cells, and is maintained on a relatively constant number of cells (averaging 25-30%) throughout the T1-T3 stages. These epitopes are also noted on a subset of activated memory/effector T cells. Importantly, on both transitional and activated memory/effector T cell subsets, the expression patterns of the 15/7 and 24 epitopes vs. a variety of T cell activation antigens are identical, and the expression of these epitopes relative to each other is linearly correlated, findings strongly supporting the coordinate activation of β1 and β2 integrins duringT cell activation in vivo. These results provide the first evidence of integrin activation during an in vivo immunologic response, and demonstrate the usefulness of mAb recognizing conformational epitopes and multiparameter flow cytometry in delineating the dynamic interplay of adhesion molecules during complex physiologic processes.     

Beta 1/beta 3 integrin ligation is uncoupled from ERK1/ERK2 activation in cytotoxic T lymphocytes

beta 3 integrins mediate fibronectin binding and enhanced activation of cytotoxic T lymphocytes (CTL). The intracellular signals initiated by beta 3 integrins in lymphocytes are not well characterized, but in many cell types, beta 1 integrin ligation activates mitogen-activated protein (MAP) kinases. In the present study, we find that fibronectin can synergize with very low levels of CD3 stimulation to activate the extracellular signal-regulated kinase (ERK)1 and ERK2 MAP kinases but that fibronectin alone induces no detectable MAP kinase activation in CTL. Surprisingly, antibodies to beta1 or beta 3 integrins were also unable to stimulate MAP kinase activation, suggesting that although beta 1 integrins are capable of stimulating MAP kinase activation in other cells, they cannot do so in CTL. In CTL, phosphorylation of proline-rich tyrosine kinase 2 downstream of integrin stimulation did not result in recruitment of the adaptor protein Grb2. Additionally, we examined the role of MAP kinases in regulating integrin-mediated adhesion. Anti-CD3-triggered adhesion to fibronectin was largely insensitive to the MAP kinase kinase inhibitor PD98059. Triggered cell-spreading on fibronectin was inhibited by PD98059 but not by U0126. In summary, ligation of beta 3 integrin by antibodies or fibronectin or of beta1 integrin by monoclonal antibodies fails to activate ERK MAP kinases, but integrin ligation synergizes with T cell receptor stimulation upstream of MAP kinases.     

T lymphocyte adhesion to fibronectin (FN): a possible mechanism for T cell accumulation in the rheumatoid joint.

The accumulation of T cells within the joint is responsible for the perpetuation of synovitis. This process is partly regulated by selective binding to endothelium. However, adhesion to extra-cellular matrix proteins, like FN, may also be important. FN binding is mediated by certain members of the VLA (beta 1 integrin) family of proteins. To investigate the role of Tc-FN interactions in synovitis the binding of synovial fluid (SF) and peripheral blood (PB) T cells to FN-coated wells, and the expression of cell surface VLA molecules on these cells by double label immunofluorescence, were studied. SF T cells bound better to FN than PB T cells. VLA alpha 4 and VLA beta 1 but not VLA alpha 5 were up-regulated on SF compared with PB T cells. Anti-VLA alpha 4, VLA beta 1 and VLA alpha 5 MoAbs inhibited the binding of SF T cells to FN. The increased binding of SF T cells to FN could have been related to activation and/or to their predominantly memory phenotype. Purified resting memory or naive T cells bound poorly to FN. In contrast, compared with SF T cells, concanavalin A-activated T cells showed a very similar level of binding to FN, comparable expression of VLA molecules and the same pattern of inhibition of binding to FN by MoAbs. Thus, VLA molecules may play an important role in the retention of T cells in the joint and since T cells can be activated via VLA-FN interactions, this mechanism may perpetuate chronic inflammation.     

Phosphatidylinositol 3-kinase activity is not essential for CD28 costimulatory activity in Jurkat T cells: studies with a selective inhibitor,wortmannin

The interaction of CD28 with its counter-receptor, B7-1 (CD 80), on antigenpresenting cells induces a co-signal in T cells required to promote antigendependent interleukin-2 (IL-2) production and to prevent clonal anergy. CD28 stimulation causes both protein-tyrosine kinase and phosphatidylinositol3-kinase (PI3-K) activation, suggesting a possible role for these enzyme activities in CD28 co-signal transduction. Here, we investigate the effect of wortmannin, a selective and irreversible PI3-K inhibitor on CD28 co-signaling events in the Jurkat T cell line. Wortmannin added to cell cultures partially inhibits CD28-induced tyrosine phosphorylation of the putative p110 catalytic subunit of PI3-K, but does not block CD28-induced association of the p85 PI3-K regulatory subunit with the CD28 receptor. Wortmannin inhibits in a dose-dependent manner both total cellular PI3-K activity and CD28-induced receptor-associated PI3-K activity. Wortmannin (1 μM) inhibits cellular PI3-K activity by 90% with complete inhibition achieved at 10 μM. The inhibitory effect of wortmannin on cellular PI3-K activity is prolonged (> 18 h), suggesting that the drug is not readily metabolized by Jurkat T cells. Wortmannin, at concentrations that blocked PI3-K activity, fails to inhibit the synergistic effect of CD28 on IL-2 secretion in the presence of phorbol 12-myristate 13-acetate and ionomycin. These data demonstrate that CD28-induced signaling events other than the activation of PI3-K catalytic activity contribute to the control of IL-2 secretion.     

RANTES stimulation of T lymphocyte adhesion and activation: role for LFA-1 and ICAM-3

The chemokine RANTES is a potent chemoattractant and activator of T lymphocytes. Mechanisms underlying the RANTES-induced activation of T lymphocytes leading to adhesion and migration have not been fully analyzed. We investigate here the function of RANTES in the regulation of T cell adhesion, specifically the induction of homotypic aggregation. RANTES induced the expression of many important cell surface adhesion and activation receptors in a normal human T cell clone and peripheral blood T lymphocytes, including members of the β1 and β2 integrin family, CD44, CD50, and CD28. Up-regulation of these markers correlated with RANTES-stimulated homotypic adhesion of T cells. This homotypic aggregation event was RANTES dose-dependent, prolonged, and pertussis toxin-independent, but herbimycin A-sensitive, suggesting that it involves signaling through alternative (Gα_i protein-independent) pathways. Using specific monoclonal antibodies, the homotypic aggregation event was shown to be lymphocyte function-associated antigen-1 (LFA-1)-dependent, with no observable interaction through α4 or β1 integrins. Intercellular adhesion molecule-3 (ICAM-3) and possibly ICAM-1 participate as LFA-1 ligands. Additionally, RANTES phosphorylated the β chain of LFA-1 1–2 min following stimulation. These results imply a specific role for the chemokine RANTES in T cell activation and intercellular adhesion.     

Beta1 integrin activation on human neutrophils promotes beta2 integrin-mediated adhesion to fibronectin

Although the importance of beta1 integrin-mediated binding to adhesion molecules and extracellular matrix (ECM) molecules is well established for most types of leukocytes, the expression patterns and functional importance of beta1 integrins on neutrophils have remained controversial. Using flow cytometry, we found that human neutrophils express the alpha4, alpha5, alpha9 and beta1 integrin subunits. To examine whether the integrins VLA-4 (alpha4/beta1) and VLA-5 (alpha5/beta1) have a functional role on neutrophils, we studied adhesion to their ligand fibronectin. Treatment of neutrophils with antibody 8A2, which specifically binds and activates beta1 integrins, resulted in increased binding to fibronectin. However, addition of blocking mAb revealed that 8A2-induced adhesion did not depend on beta1 integrins, but on the beta2 integrin CD11b/CD18. Similarly, activation of beta1 integrins by 8A2 resulted in CD11b-dependent binding of neutrophils to fibrinogen. 8A2 treatment increased expression of an activation epitope of CD11b/CD18, which depended on phosphoinositide 3-OH kinase activity and an adequate concentration of intracellular free Ca2+. These data suggest that engagement of beta1 integrins on neutrophils results in a cross-talk signal that leads to activation of the beta2 integrin CD11b/CD18, followed by CD11b-mediated adhesion. As transmigrated neutrophils are surrounded by both beta1 and beta2 ligands in the ECM, this integrin cross-talk could play a role in modifying migration and cellular activation in inflamed tissues.     

Alpha2 beta1 integrin signaling augments T cell receptor-dependent production of interferon-gamma in human T cells

The mechanisms by which beta1 integrins modulate T cell costimulation are still poorly defined. In this study, we examined the role of collagen-binding integrins alpha1 beta1 and alpha2 beta1 in the regulation of interferon-gamma (IFN-gamma). We demonstrated that ligation of alpha2 beta1 integrin with Collagen type I (Coll I) but not alpha1 beta1 integrin with Collagen IV (Coll IV) significantly augmented T cell receptor (TCR)-dependent expression and production of IFN-gamma by effector T cells. The effect of Coll I was not due to cell adhesion as soluble Coll I also augmented TCR-dependent production of IFN-gamma. Inhibition studies indicated that activation of ERK and JNK MAPKs and PI3K/AKT are necessary for both TCR- and TCR+alpha2 beta1 integrin-dependent IFN-gamma production and that Coll I increases TCR-dependent activation of ERK and JNK MAPKs, and AKT. In addition, our results showed that Coll IV is less potent than Coll I in augmenting TCR-dependent activation of JNK/MAPK, which may explain the differential effect of collagen matrices on TCR-dependent IFN-gamma production. Together, these results indicate that the costimulatory effect of Coll I on IFN-gamma expression is integrated at the levels of ERK and JNK MAPKs and PI3K/AKT signaling pathways and suggest JNK/MAPK as a major signaling pathway of Coll I costimulation. Thus, our study identifies alpha2 beta1 integrin as an important regulatory pathway of IFN-gamma expression and provides novel insights into the signaling mechanisms of integrin costimulation in T cells. As such, this study further supports the functional importance that Coll I interactions may have on the control of T cell-dependent Th1 inflammatory diseases.     

The role of CD2/LFA-3 interaction in antigen- and mitogen-induced activation of human T cells

Binding of LFA-3 to the T cell surface receptor CD2 promotes intercellular adhesion and is costimulatory with anti-CD2 mAbs in 'alternative pathway' activation of T cells. Since all AC-dependent systems of T cell activation are inhibited by anti-LFA-3 mAb, it was asked whether in mitogen- and antigen-induced activation of human T cells, the function of CD2/LFA-3 interaction involves signalling beyond its function in promoting intercellular adhesion. In order to selectively block and reconstitute CD2/LFA-3 interaction while leaving other AC functions available, the response of unseparated PBMC to various T cell mitogens and to allogeneic cells was blocked by a newly developed mAb (G26) to human LFA-3. Addition of purified T11TS, the sheep form of LFA-3 that binds to human CD2 but is not recognized by mAb G26, restored the T cell response to PHA-P but not to ConA, surface aldehydes, anti-CD3 mAb, or allogeneic cells. In addition, purified resting human T cells which were unresponsive to stimulation by lectins or anti-CD3 mAbs were activated by PHA-P in the presence of purified T11TS, demonstrating that provision of LFA-3 is a sufficient accessory cell function in the activation of human T cells by this mitogen. Again, the responses to ConA, cell surface aldehydes, or soluble anti-CD3 mAb were not restored by T11TS. T cell activation by PHA-P, but not by the other polyclonal T-cell activators studied thus seems to be mechanistically similar to 'alternative pathway' activation induced by anti-CD2 mAb in that the costimulatory effect of LFA-3 is independent of its prescence on an accessory cell membrane.(ABSTRACT TRUNCATED AT 250 WORDS)     

Tyrosine kinase activity associated with the CD7 antigen: correlation with regulation of T cell integrin function

Rapid up-regulation of the functional activity of integrin adhesion receptors is a hallmark of T cell activation. Monoclonal antibody engagement of the CD7 antigen on human T cells results in an increase in β1 and β2 integrin-mediated adhesion within minutes. This suggests that CD7 is capable of transducing intracellular signals, and is consistent with other indirect studies implicating CD7 as a signaling receptor on T cells. In this report, we have explored the intracellular mechanism by which CD7 modulates integrin functional activity. First, CD7-mediated up-regulation of T cell adhesion was found to be unique when compared to phorbol ester stimulation and CD3/T cell receptor cross-linking, based on differences in the kinetics of activation-dependent integrin-mediated adhesion and lack of increase in CD2 functional activity. Second, up-regulation of integrin activity mediated by CD7 cross-linking was completely inhibited by the tyrosine kinase inhibitor herbimycin A. Third, antiphosphotyrosine immunoblotting demonstrated that antibody engagement of CD7 results in a rapid but transient increase in tyrosine phosphorylation in human T cells. Finally, CD7 immunoprecipitates contain in vitro kinase activity, as demonstrated by phosphorylation of a predominant band of 80 kDa and multiple other bands. Phosphoamino acid analysis of the 80-kDa substrate revealed phosphorylation on tyrosine as well as serine and threonine residues. Together, our results suggest that CD7 is associated with tyrosine kinase activity and that this tyrosine kinase activity correlates with the ability of CD7 to regulate T cell integrin functional activity.