Regulation of proteins in the VLA cell substrate adhesion family: influence of cell growth conditions on VLA-1, VLA-2, and VLA-3 expression

Cell quiescence resulting from culture of normal human fibroblasts in low serum (0.5%) was associated with a subsequent gradual increase in the expression of the cell-surface glycoprotein VLA-1, and a corresponding decrease in the expression of extracellular matrix adhesion receptors VLA-2 and VLA-3. Quantitation using either flow cytometry or immunoprecipitation showed that both the VLA-1/VLA-2 and VLA-1/VLA-3 ratios increased 10- to 28-fold and were still rising when cells remained quiescent for 20-30 days. Although induced by cell quiescence, changes in the levels of VLA-1, VLA-2, and VLA-3 continued to occur well after cell proliferation had stopped and thus do not directly correlate with cell cycle transition events. Despite prolonged serum deprivation resulting in elevated VLA-1/VLA-2 and VLA-1/VLA-3 ratios, growth-arrested cells remained viable and were fully capable of proliferating when restimulated. The increases in VLA-1/VLA-2 and VLA-1/VLA-3 ratios observed on quiescent cells were readily reversible, since after restimulation with 10% serum, these ratios quickly returned within 1-2 days to a level near that found on normal exponentially grown cells. Elevation of VLA-1/VLA-2 and VLA-1/VLA-3 ratios is generally associated with quiescence and is not due just to serum deprivation since density arrest of cells at confluence had similar effects on these ratios.     

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.     

Role of very-late antigen-4 (VLA-4) in myelin basic protein-primed T cell contact-induced expression of proinflammatory cytokines in microglial cells

The presence of neuroantigen-primed T cells recognizing self-myelin antigens within the CNS is necessary for the development of demyelinating autoimmune disease like multiple sclerosis. This study was undertaken to investigate the role of myelin basic protein (MBP)-primed T cells in the expression of proinflammatory cytokines in microglial cells. MBP-primed T cells alone induced specifically the microglial expression of interleukin (IL)-1beta, IL-1alpha tumor necrosis factor alpha, and IL-6, proinflammatory cytokines that are primarily involved in the pathogenesis of MS. This induction was primarily dependent on the contact between MBP-primed T cells and microglia. The activation of microglial NF-kappaB and CCAAT/enhancer-binding protein beta (C/EBPbeta) by MBP-primed T cell contact and inhibition of contact-mediated microglial expression of proinflammatory cytokines by dominant-negative mutants of p65 and C/EBPbeta suggest that MBP-primed T cells induce microglial expression of cytokines through the activation of NF-kappaB and C/EBPbeta. In addition, we show that MBP-primed T cells express very late antigen-4 (VLA-4), and functional blocking antibodies to alpha4 chain of VLA-4 (CD49d) inhibited the ability of MBP-primed T cells to induce microglial proinflammatory cytokines. Interestingly, the blocking of VLA-4 impaired the ability of MBP-primed T cells to induce microglial activation of only C/EBPbeta but not that of NF-kappaB. This study illustrates a novel role of VLA-4 in regulating neuroantigen-primed T cell-induced activation of microglia through C/EBPbeta     

Regulation of interleukin 2 receptor expression: effects of phorbol diester, phospholipase C, and reexposure to lectin or antigen

Anti-Tac monoclonal antibody identifies the receptor for interleukin 2 (IL 2, or T cell growth factor) present on activated human T lymphocytes. By using tritiated anti-Tac, we now report a sensitive and specific binding assay to evaluate cell surface IL 2 receptor expression. IL 2 receptors on human peripheral blood lymphocytes can be detected within 6 hr after PHA stimulation. PHA-induced receptor expression is inhibited by actinomycin D and cycloheximide, but not by mitomycin C, suggesting a requirement for de novo RNA and protein synthesis, but not DNA synthesis. Scatchard analysis of [3H]-anti-Tac binding to lymphocytes stimulated with PHA for 3 days revealed from 20,000 to 60,000 molecules of antibody bound per cell, and a Kd of 1 to 3 x 10(-10) mol/l. Sequential binding studies of activated human lymphocytes maintained in long-term culture with IL 2 demonstrated a progressive decline in receptor number correlating with diminished growth rate. Restimulation with lectin or antigen increased the number of IL 2 receptors, suggesting that IL 2 dependent immune responses may be regulated, at least in part, by IL 2 receptor expression. Receptor number was also increased by PMA. Moreover, similar effects were produced by incubation with phospholipase C but not interleukin 1. Because both PMA and phospholipase C result in activation of protein kinase C, these data suggest the possibility that activation of protein kinase C may induce IL 2 receptor expression.     

Use of the monoclonal antibody 12F1 to characterize the differentiation antigen VLA-2

A monoclonal antibody, 12F1, has been produced that specifically immunoprecipitates the human cell surface structure VLA-2 from platelets and long-term activated T cells, as well as from fibroblast and neuroblastoma cell lines. Cross-linking studies indicate that the VLA-2 structure exists on the cell surface as a 165,000 Mr heavy chain (alpha 2) in noncovalent 1:1 association with a 130,000 Mr light chain (beta). The monoclonal antibody A-1A5, which reacts with the beta subunit common to all VLA structures, was able to completely preclear VLA-2, indicating that all of the alpha 2 subunit was associated with VLA beta-chain. The specificity of 12F1 for VLA-2 allowed independent immunoprecipitation and flow cytometry analysis of this alpha 2 beta structure separate from any other VLA structures that may have been present such as VLA-1 or free beta-subunit. Subunit dissociation studies were used to demonstrate that 12F1 recognizes an epitope on the alpha 2 chain on VLA-2, which is consistent with the 12F1 specificity for VLA-2 alone among the VLA proteins. Analysis of activated T cells indicated that VLA-2, like VLA-1, is another "very late" appearing T cell activation antigen that arises concurrently with VLA-1 starting at day 7 and increasing through 2 wk. VLA-2 was found on many of the same cells as VLA-1 (inactivated T cells, T cell leukemia cells, fibroblasts, SK-N-SH neuroblastoma cells), but VLA-1 and VLA-2 can be expressed independently, because VLA-2 was also present on VLA-1-negative cells such as HSB and platelets, and VLA-1 was present on VLA-2-negative C8215 cells.     

Costimulation of proliferative responses of resting CD4+ T cells by the interaction of VLA-4 and VLA-5 with fibronectin or VLA-6 with laminin

Given prior evidence that adhesion molecules play critical roles in T cell recognition, it is important to identify new adhesion pathways and explore their role in T cell activation. Our studies of T cell proliferation complement concurrent studies of T cell adhesion; both demonstrate that resting CD4+ human T lymphocytes express the VLA integrins VLA-4, VLA-5, and VLA-6, and can use these receptors to interact with the extracellular matrix (ECM) proteins fibronectin (VLA-4 and VLA-5) and laminin (VLA-6). VLA-dependent interaction of resting human CD4+ T cells with fibronectin (FN) and laminin (LN) facilitates CD3-mediated T cell proliferation. Specifically, T cells do not proliferate in response to a wide range of concentrations of a CD3 mAb, OKT3, immobilized on plastic. However, coimmobilization with the CD3 mAb of FN or LN, but not other ECM proteins such as fibrinogen and collagen, consistently results in strong T cell proliferation. mAb blocking studies demonstrate that three VLA integrin receptor/ligand interactions mediate costimulation: VLA-4/FN, VLA-5/FN, and VLA-6/LN. VLA-5-dependent binding to FN but not costimulation by FN can be specifically blocked with peptides containing the RGD (arg-gly-asp) tripeptide sequence whereas VLA-4-dependent binding and costimulation can both be efficiently inhibited by a 12 amino acid peptide, LHGPEILDVPST (leu-his-gly-pro-glu-iso-leu-asp-val-pro-ser-thr), derived from the alternatively spliced IIICS region of FN. The costimulation provided by FN and LN in this system is stronger than and distinct from costimulatory signals provided by cytokines, such as IL-1 beta, IL-6,, and IL-7. These results suggest that, such as other adhesion molecules, T cell VLA integrins may also function in a dual capacity as adhesion and signalling molecules. In addition, they suggest that the interaction of T cells in vivo with ECM via VLA integrins plays a role not only in T cell migratory processes but may also influence Ag-specific T cell recognition.     

Signals involved in T cell activation. I. Phorbol esters enhance responsiveness but cannot replace intact accessory cells in the induction of mitogen-stimulated T cell proliferation

The role of accessory cells (AC) in the initiation of mitogen-induced T cell proliferation was examined by comparing the effect of intact macrophages (M phi) with that of 4-beta-phorbol 12-myristate 13-acetate (PMA). In high-density cultures, purified guinea pig T cells failed to proliferate in response to stimulation with phytohemagglutinin (PHA), concanavalin A (Con A), or PMA alone. The addition of M phi to PHA or Con A but not PMA-stimulated cultures restored T cell proliferation. The addition of PMA to high-density T cell cultures stimulated with PHA or Con A also permitted [3H]thymidine incorporation, but was less effective than intact M phi in this regard. This action of PMA was dependent on the small number of AC contaminating the T cell cultures as evidenced by the finding that PMA could not support mitogen responsiveness of T cells that had been depleted of Ia-bearing cells by planning, even when these cells were cultured at high density. When PMA was added to T cell cultures supported by optimal numbers of M phi, catalase-reversible suppression of responses was noted. Even in cultures containing catalase, PMA failed to enhance responsiveness above that supported by optimal numbers of M phi. A low-density culture system was used to examine in greater detail the possibility that PMA could completely substitute for M phi in promoting T cells activation. In low-density cultures, mitogen-induced T cell proliferation required intact M phi. PMA could not support responses even in cultures supplemented with interleukin 1-containing M phi supernatants or purified interleukin 2 alone or in combination. Similar results were found in high-density cultures of T cells depleted of Ia-bearing cells. These results support a model of T cell activation in which AC play at least two distinct roles. The initiation of the response requires a signal conveyed by an intact M phi, which cannot be provided by either a M phi supernatant factor or PMA. The response can be amplified by additional M phi or M phi supernatant factors. PMA can substitute for M phi in this regard and can provide the signal necessary for amplification of T cell proliferation supported by small numbers of intact AC.     

alpha1beta1 Integrin+ and regulatory Foxp3+ T cells constitute two functionally distinct human CD4+ T cell subsets oppositely modulated by TNFalpha blockade

The expression of the collagen receptor alpha(1)beta(1) integrin (VLA-1) on CD4(+) T cells is largely restricted to CCR7(-)CD45RO(+) cells that localize to inflamed tissues. Moreover, neutralizing alpha(1) integrin, in vivo, has been shown to compromise cell-mediated immunity. Our current study shows that the expression of VLA-1 on human CD4(+) T cells is restricted to conventional effectors. In contrast, Foxp3(+) T regulatory cells (Tregs) do not express this receptor. Moreover, Foxp3 or VLA-1 expression remained a mutually exclusive event in CD4(+) T cells even upon polyclonal anti-CD3-induced activation. Because TNFalpha blockade ameliorates certain T cell-dependent autoimmune disorders in humans, we investigated, in vitro, whether neutralizing TNFalpha affected the balance between the proinflammatory VLA-1(+) effectors and the counteracting Tregs. We found that anti-CD3 stimulation of freshly isolated PBL from healthy individuals, coupled with continuous TNFalpha blockade, inhibited the typical activation-dependent generation of CD4(+)VLA-1(+) Th1 cells. In contrast, it augmented the outgrowth of VLA-1(neg/dim)CD25(high) and Foxp3(+)CD4(+) T cells. Indeed, repeated anti-CD3 stimulation coupled with TNFalpha blockade generated CD4(+) T cell lines enriched for VLA-1(-)Foxp3(+) Tregs. Importantly, these CD4(+) T cells displayed potent suppressive functions toward autologous CD4(+) PBL, including the suppression of the activation-dependent induction of VLA-1(+) effectors. Thus, we propose a novel mechanism by which anti-TNFalpha therapy may restore self-tolerance, by shifting the balance between VLA-1(+) effectors and Foxp3(+) Tregs, during immune activation, in favor of the latter suppressor cell population.     

Fibronectin promotes proliferation of naive and memory T cells by signaling through both the VLA-4 and VLA-5 integrin molecules.

The capacity of purified fibronectin to costimulate human T cell DNA synthesis was examined. Low concentrations of immobilized fibronectin, but not soluble fibronectin, augmented anti-CD3-induced proliferation of highly purified human T cells. In the absence of anti-CD3 stimulation, immobilized fibronectin did not induce T cell proliferation alone or in the presence of IL-2 or phorbol dibutyrate. Although fibronectin is present in high concentrations in the serum, immobilized fibronectin was able to costimulate T cell proliferation when cells were cultured in serum-containing medium. Immobilized collagen type I did not enhance anti-CD3 stimulated T cell responses, whereas gelatin (denatured collagen) and laminin were able to enhance anti-CD3 stimulated T cell responses modestly. The effects of gelatin, however, appeared to be indirect, because it could not enhance responses in medium devoid of fibronectin. Immobilized fibronectin enhanced anti-CD3 induced proliferation of both CD45RA dim and CD45RA bright subsets within both the CD4+ and CD8+ subpopulations of T cells, although cells with the CD45RA dim phenotype were costimulated by lower concentrations of immobilized fibronectin. Enhancement of anti-CD3 induced proliferation by immobilized fibronectin was completely inhibited by a mAb to CD29, the integrin beta 1-chain (4B4) and not by a variety of other mAb. In contrast to its effects on proliferation, 4B4 only partially blocked T cell binding to anti-CD3 and fibronectin-coated macrowells. These findings suggested that the interaction between fibronectin and its receptor transduced a signal to the T cell and did not merely stabilize the interaction between anti-CD3 and the CD3 complex. Further experiments confirmed this observation. Thus fibronectin could enhance anti-CD3 responses when it was immobilized to a separate surface. The augmentation of anti-CD3 stimulated proliferation induced by immobilized fibronectin was also inhibited partially by mAb to either VLA-4 or VLA-5 and completely by a combination of the two mAb. The mAb to VLA-4 not only blocked the capacity of immobilized fibronectin to enhance anti-CD3-induced T cell proliferation but also directly costimulated T cell responses. Thus, at least two fibronectin receptors are involved in fibronectin-mediated costimulation of T cell proliferation. These studies indicate that signals are transduced through the fibronectin receptors, VLA-4 and VLA-5, that augment T cell responses and therefore implicate the extracellular matrix protein fibronectin as an important influence regulating T cell responsiveness in vivo.     

Stat6 signaling suppresses VLA-4 expression by CD8+ T cells and limits their ability to infiltrate tumor lesions in vivo

VLA-4 plays a critical role in T cell trafficking into inflammatory sites. Our recent studies have suggested that VLA-4 expression on CD8+ T cells is negatively controlled by IL-4 and serves as a functionally distinguishing variable for why Type-1, but not Type-2, CD8+ T cells are able to traffic into tumors. In this study, using in vitro culture of murine CD8+ T cells under Type-1 and Type-2 cytokine conditions, we show that IL-4-mediated down-regulation of VLA-4 expression is completely abrogated in Stat6-deficient CD8+ T cells. Conversely, CD8+ T cells expressing a constitutively active mutant form Stat6 (Stat6VT) failed to express VLA-4 even in the absence of IL-4-stimulation. Notably, Type-2 CD8+ T cells developed from Stat6-/- but not wild-type mice were competent to migrate into tumor lesions in vivo. These results suggest that Stat6-signaling is necessary and sufficient to restrict CD8+ T cell expression of VLA-4 (by IL-4), thereby serving as a regulator for CD8+ T cell infiltration into tumors.     

Regulation of murine T cell proliferation by B cell stimulatory factor-1

The proliferation of mitogen-activated primary T cells, antigen-activated memory T cells from mixed leukocyte culture, and antigen-dependent alloreactive T cell clones in response to purified murine recombinant B cell stimulatory factor-1 (also known as interleukin 4) was examined. We found that B cell stimulatory factor-1 (BSF-1) stimulated optimal proliferation of these T cells only after their recent activation by antigen or mitogen. Analysis of cell surface BSF-1 receptor expression indicated that although T cell activation is accompanied by a small increase in BSF-1 receptor expression, the cells also express BSF-1 receptors prior to activation at a time when they do not proliferate in response to BSF-1. BSF-1 was as effective a stimulus as interleukin 2 for inducing proliferation of the Lyt-2+ subpopulation of concanavalin A-activated murine spleen cells and an alloreactive cytolytic T cell clone. However, the L3T4+ subpopulation of concanavalin A-activated spleen and an alloreactive helper T cell clone were less responsive to BSF-1 than to interleukin 2. Taken together, the data indicate an important role for BSF-1 in the regulation of normal T cell proliferation.     

Human natural killer cells express VLA-4 and VLA-5, which mediate their adhesion to fibronectin.

Very late Ag (VLA)-3, VLA-4, and VLA-5, belonging to the beta-1 subfamily of integrins, have been recently identified as receptors for different binding regions of fibronectin (FN). We have detected VLA-4 and VLA-5, but not VLA-3, on fresh CD3-, CD16+, CD56+ human NK cells by flow cytometry and immunochemical analyses using mAb directed against beta-1, alpha-3, alpha-4, and alpha-5 subunits. Binding assays, performed on FN-coated plates, showed that NK cells specifically adhere to FN and their binding capacity is increased by MgCl2 but not by CaCl2. Using as inhibitory probes a polyclonal antibody against the beta-1 chain of the human FN receptor, the synthetic peptide GRGDSP, which is able to inhibit cellular adhesion mediated by VLA-5, the CS1 fragment, which contains the principal adhesion site in the IIICS domain recognized by VLA-4, and functional mAb directed against alpha-4 or alpha-5 subunits, we show that both VLA-4 and VLA-5 mediate the adhesion of human NK cells to FN. The expression of these integrin receptors may be relevant for NK interaction with extracellular matrix components and other cell types.     

Talin 1 and paxillin facilitate distinct steps in rapid VLA-4-mediated adhesion strengthening to vascular cell adhesion molecule 1

VLA-4 (alpha4beta1) is a key integrin in lymphocytes, interacting with endothelial vascular cell adhesion molecule 1 (VCAM-1) on blood vessels and stroma. To dissect the contribution of the two cytoskeletal VLA-4 adaptor partners paxillin and talin to VLA-4 adhesiveness, we transiently knocked them down in Jurkat T cells and primary resting human T cells by small interfering RNA silencing. Paxillin was required for VLA-4 adhesiveness to low density VCAM-1 under shear stress conditions and was found to control mechanical stability of bonds mediated by the alpha4 subunit but did not affect the integrin affinity or avidity to VCAM-1 in shear-free conditions. Talin 1 maintained VLA-4 in a high affinity conformation, thereby promoting rapid VLA-4 adhesion strengthening to VCAM-1 under both shear stress and shear-free conditions. Talin 1, but not paxillin, was required for VLA-4 to undergo optimal stimulation by the prototypic chemokine, CXCL12, under shear stress conditions. Interestingly, talin 1 and paxillin played the same distinct roles in VLA-4 adhesions of primary T lymphocytes, although VLA-4 affinity to VCAM-1 was at least 200-fold lower in these cells than in Jurkat cells. Collectively, our results suggest that whereas paxillin is a mechanical regulator of VLA-4 bonds generated in the absence of chemokine signals and low VCAM-1 occupancy, talin 1 is a versatile VLA-4 affinity regulator implicated in both spontaneous and chemokine-triggered rapid adhesions to VCAM-1.     

Requirement for extracellular calcium or magnesium in mitogen-induced activation of human peripheral blood lymphocytes

The importance of calcium in lymphocyte activation is well recognized, but the levels of extracellular ionized free calcium (Ca++) necessary for lymphocyte proliferation via various pathways have not been investigated in detail. We studied the ability of a lectin mitogen (PHA) and a calcium ionophore (ionomycin) to induce interleukin 2 receptors, interleukin 2 (IL2) production, and proliferation over various concentrations of extracellular Ca++. Reducing the Ca++ levels from the normal 200 microM to 10 microM in PHA-stimulated cultures partially inhibited IL2 receptor expression, IL2 production, and subsequent proliferation. At 1 microM Ca++, both IL2 activity and proliferation were eliminated, but partial IL2 receptor expression was still observed. Ionomycin did not induce any of these events in cultures where the extracellular Ca++ concentration was below 100 microM. Restoring calcium in the medium resulted in normal levels of IL2 receptor expression, IL2 activity, and proliferation when PBL were stimulated with either mitogen. Exogenous magnesium partially restored these events in PHA-stimulated cultures, but had no effect when ionomycin was used as the mitogen. These data indicate that stimulation by ionomycin is much more dependent upon the levels of extracellular Ca++ than is PHA. Extracellular calcium also appears to be necessary subsequent to IL2 receptor acquisition, since the latter was seen without IL2 activity or proliferation at very low extracellular Ca++, and IL2 failed to restore the proliferative response under these conditions. The data also suggest that PHA, but not ionomycin, can activate lymphocytes via a magnesium-dependent pathway, or that PHA has a lower specificity for divalent cation cofactors.     

Monoclonal antibodies, L-35 and L-36, define novel T cell activation antigens

Two novel T cell specific activation antigens were characterized and were defined by monoclonal antibodies developed against mitogen-stimulated human T cells. These antigens, designated as L-35 and L-36 were expressed on both the CD 4(Leu-3) and the CD 8(Leu-2) subsets of activated but not resting T cells. Moreover these antigens were not expressed on a number of T, B, and myeloid tumor cell lines. L-35 and L-36 were expressed on interleukin 2 (IL 2)-dependent cloned T cell lines, and were weakly expressed on the T cell tumor line, HSB-2. L-35 was expressed on granulocytes and a small subset of thymocytes. SDS-PAGE analysis of 125I-labeled lysates from phytohemagglutinin (PHA)-activated T cells demonstrated that L-35 existed as a complex of 32,000 and 97,000 dalton polypeptides under reducing and nonreducing conditions. Anti-L-36 immunoprecipitated a 90,000 dalton structure from PHA-activated cell lysates prepared with CHAPS detergent. When immunoprecipitates were analyzed from [35S]methionine labeled lysates, anti-L-35 precipitated only the 97,000 dalton component, suggesting that the 32,000 dalton subunit of L-35 complex was not synthesized by the activated cell population. Furthermore anti-L-35 did not immunoprecipitate a 32,000 dalton component from 125I-labeled lysates of anti-Leu-4 or Con A-activated cells, suggesting that the 32,000 dalton component of the L-35 complex may represent a subunit of PHA. The 32,000 dalton protein could not, however, be precipitated from cells incubated with PHA for less than 1 day. These results suggested that anti-L-35 recognizes a 97,000 dalton structure expressed on activated T cells, and that upon activation by PHA, becomes associated with a subunit of this mitogen.     

Inhibition of lymphocyte proliferation by monoclonal antibody directed against the T3 antigen on human T cells

Peripheral blood mononuclear cells from 40% of normal donors are mitogenically unresponsive to UCHT1, a monoclonal antibody reactive to the T3 surface molecule on human T lymphocytes. Cell preparations from non-UCHT1 responders were used to examine whether and how interaction of UCHT1 with the T3 molecule affects T-cell functionality. It was found that UCHT1 profoundly (greater than 85%) suppressed lymphocyte proliferation induced by plant mitogens (phytohemagglutinin (PHA) and concanavalin A (Con A], recall antigen (candidin), and allogeneic non-T cells. The antibody abrogated both the production of interleukin 2 (IL-2) by and the expression of IL-2-specific receptors on T lymphocytes stimulated by PHA or allogeneic non-T cells. UCHT1 was maximally suppressive when added to cells within 2 hr (PHA stimulation) or 1 day (allogeneic non-T cell activation) after the initiation of the culture period. The inhibiting activity of UCHT1 could be related to its ability to modulate T3 molecules from the T-cell surface: both actions displayed the same antibody concentration dependence and had a comparable time dependence. Moreover, after modulation, unresponsive lymphocytes regained responsiveness to PHA in parallel with reexpression of surface T3 molecules. These findings are consistent with the idea that the human T3 molecule functions as an essential signal transducer during the early phases of T-cell activation.     

Activation signals in human lymphocytes: interleukin 2 synthesis and expression of high affinity interleukin 2 receptors require differential signalling for the activation of protein kinase C

The mitogenic activation of resting T lymphocytes involves two distinct cellular events, the synthesis of the ultimate mitogen interleukin 2 and the synthesis and expression of receptors for it. In order to get more detailed information on the mechanisms associated with these activating steps (the effects of different stimuli, leading to activation of protein kinase C were investigated in human lymphocytes). The anti-T-cell receptor (TCR) and anti-CD3 monoclonal antibodies (BMA 031 and BMA 030, respectively), as well as the combination of the phorbol ester, TPA, with a calcium ionophore-induced interleukin 2 synthesis and subsequent proliferation in human peripheral blood lymphocytes. Incubation of cells with synthetic diacylglycerols and calcium ionophores proved to be effective in expression of high affinity interleukin receptors, no detectable amounts of interleukin 2 were, however, synthetized. When diacylglycerols were, however, added repetitively, interleukin 2 was also produced. Both anti-TCR/CD3 antibodies and TPA or DiC8 caused activation and translocation of protein kinase C from the cytosol to the plasma membrane. Significant differences, however, were observed between the time kinetics of the translocation of the enzyme. In plasma membranes of TPA-stimulated cells activation of protein kinase C was detectable up to 4 hr. In contrast, the highest specific activity of protein kinase C was measured in the plasma membranes after 15 min of DiC8 addition to cells. Anti-CD3 monoclonal antibodies activated protein kinase C in a biphasic manner. Shortly after binding of BMA 030 to the T cell antigen receptor/CD3 complex the activity of protein kinase C was increased in the plasma membrane, then it declined to control levels followed by a second long-lasting activation of the enzyme up to 4 hr. These results suggest different signal requirements for different activation steps. While for synthesis and expression of interleukin 2 receptors a short term activation of protein kinase C is sufficient, long-term activation of the enzyme is necessary for interleukin 2 synthesis in human lymphocytes.     

The Src kinase p56(lck) up-regulates VLA-4 integrin affinity. Implications for rapid spontaneous and chemokine-triggered T cell adhesion to VCAM-1 and fibronectin

In circulating lymphocytes, the VLA-4 integrin preexists in multiple affinity states that mediate spontaneous tethering, rolling, and arrest on its endothelial ligand, vascular cell adhesion molecule-1 (VCAM-1). The regulation and function of VLA-4 affinity in lymphocytes has never been elucidated. We show here that p56(lck), the major Src kinase in T cells, is a key regulator of high affinity VLA-4. This high affinity is essential for the rapid development of firm adhesion of resting T cells to VCAM-1 and to their extracellular matrix ligand, fibronectin. Lck-regulated VLA-4 function does not require intact TCR nor several key components of the TCR signaling pathway, including ZAP-70 and SLP-76. Furthermore, stimulation of p56(lck) by the phosphatase inhibitor, pervanadate, triggers firm VLA-4-dependent adhesion to VCAM-1. Although Lck is not required for chemokine receptor signaling to mitogen-activated protein kinase, the presence of Lck-regulated high affinity VLA-4 also facilitates firm adhesion triggered by the chemokine, SDF-1, at short-lived contacts. Surprisingly, bond formation rates, ability to tether cells to VLA-4 ligand, and VLA-4 tether bond stability under shear flow are not affected by VLA-4 affinity or Lck activity. Thus, the ability of high affinity VLA-4 to arrest cells on VCAM-1 under flow arises from instantaneous post-ligand strengthening rather than from increased kinetic stability of individual VLA-4 bonds. These results suggest that p56(lck) maintains high affinity VLA-4 on circulating lymphocytes, which determines their ability to strengthen VLA-4 adhesion and rapidly respond to proadhesive chemokine signals at endothelial sites.     

Activation of purified human thymus-derived (T) cells by mitogens. II. Monocyte- macrophage potentiation of mitogen-induced DNA synthesis.

Thymus-derived (T) cells from peripheral blood were purified by rosette formation with neuraminidase-treated sheep red blood cells (SRBC) and centifugation on Ficoll-Hypaque. T cells recovered from the pellet were freed of SRBC by treatment with Tris-NH4Cl. T cells purified by this method showed a diminished ability to take up 3H-thymidine (3H-TdR) after mitogen stimulation when compared to the mitogenic response of an equal number of autologous peripheral blood mononuclear lymphocytes (PBL). Autologous monocytes restored the capacity of purified T cells to take up 3H-TdR in the presence of phytohemagglutinin (PHA) or Concanavalin A (Con A). The effect was proportional to the number of monocytes added. Similar restorative effects could be obtained with allogeneic or xenogeneic monocytes. These data suggest that the mitogenic stimulation of human PBL and Con A may reflect the participation of more than one cell type: the T cells and monocyte and that the genetic origin of the monocyte is not critical for augmentation of the mitogenic activation of human T cells.     

The integrin VLA-4 supports tethering and rolling in flow on VCAM-1

Selectins have previously been shown to tether a flowing leukocyte to a vessel wall and mediate rolling. Here, we report that an intergrin, VLA- 4, can also support tethering and rolling. Blood T lymphocytes and alpha 4 integrin-transfected cells can tether in shear flow, and then roll, through binding of the intergrin VLA-4 to purified VCAM-1 on the wall of a flow chamber. VLA-4 transfectants showed similar tethering and rolling on TNF-stimulated endothelium. Tethering efficiency, rolling velocity, and resistance to detachment are related to VCAM-1 density. Tethering and rolling did not occur on ICAM-1, fibronectin, or fibronectin fragments, and tethering did not require integrin activation or the presence of an alpha 4 cytoplasmic domain. Arrest of rolling cells on VCAM-1 occurred spontaneously, and/or was triggered by integrin activating agents Mn2+, phorbol ester, and mAb TS2/16. These agents, and the alpha 4 cytoplasmic domain, promoted increased resistance to detachment. Together the results show that VLA-4 is a versatile integrin that can mediate tethering, rolling, and firm arrest on VCAM-1.