Characterizing a soluble survival signal for activated lymphocytes from CD14+ cells

T-cell activation requires at least two signals: antigen and a costimulatory signal. As antigen-presenting cells play an important role in this area, the role of CD14+ cells in T-cell activation, proliferation and activation-induced cell death (AICD) was investigated. Using phytohaemagglutinin (PHA) activation, it was found that CD14+ cell depletion resulted in significantly greater AICD, decreased lymphocyte growth and up-regulated interleukin-2 (IL-2) secretion. However, T-cell activation was delayed according to the expression of CD69 and CD25. Dynabeads conjugated with anti-CD14 monoclonal antibody (mAb) bound CD14+ cells and induced secretion of IL-1beta, tumour necrosis factor-alpha (TNF-alpha), transforming growth factor-beta (TGF-beta) and IL-6, but not IL-2, IL-12 or IL-15. Supernatants were collected from Dynabeads-activated CD14+ cell cultures and designated as 'CD14 cocktails'. Addition of CD14 cocktails to CD14+ cell-depleted mononuclear cell cultures reversed the increased AICD, decreased lymphocyte growth and increased IL-2 secretion. Depletion of IL-1beta and TNF-alpha in the CD14 cocktails by panning followed by blocking with the corresponding mAbs had no effect on the active AICD protection. TGF-beta was determined not to be the active factor owing to the presence of >1.0 ng of TGF-beta in the media for culturing both CD14+ and CD14- peripheral blood mononuclear cells (PBMC). The CD14 cocktails did not contain IL-12 and IL-15. Depletion of IL-6 with panning followed by blocking residual IL-6 with anti-IL-6 mAb significantly reduced the protective effect of the CD14 cocktails. Human recombinant IL-6 also partially reversed the effects of CD14+ cell depletion on AICD, lymphocyte growth and IL-2 secretion. The data suggest that IL-6 is one of the active factors in the survival signal from CD14+ cells.     

Activated CD8(+) T cells from aged mice exhibit decreased activation-induced cell death

To uncouple the defects of activation and apoptosis of T cells from aged mice, we used anti-CD3 plus IL-2 stimulation to induce an activation response and analyzed the subsequent activation-induced cell death (AICD) response of T cells from 16-month-old mice. The results herein demonstrate that T cells from 16-month-old mice could be activated by anti-CD3-induced activation signals but exhibited distinct phenotypic and functional features compared to young (2-month-old) mice. These include a decrease in AICD, a delayed entry into the cell cycle, and a decreased telomerase activity. The decreased AICD of T cells from 16-month-old mice is associated with a decreased expression of Fas and Fas ligand (FasL), decreased susceptibility to anti-Fas-induced apoptosis, and an increased expansion of a CD8(+) T-cell population. Prior to activation, these T cells exhibit a phenotype that is CD44(hi)CD62L(hi). After stimulation, these T cells produced high levels of the pro-inflammatory cytokine, IFN-gamma, and developed an increased population of IFN-gamma(+)IFN-gamma R(-) T cells. Our results suggest that there is a dysregulation in T-cell homeostasis in aged mice associated with a decrease in AICD of CD8(+) T cells.     

Effect of interleukin 15 and interleukin 2 on anti-CD3-induced T-cell activation and apoptosis in children with common variable immunodeficiency.

BACKGROUND: Defective T-cell function and susceptibility to apoptosis following activation may contribute to the immunodeficiency observed in common variable immunodeficiency (CVID) patients. Interleukin (IL) 2 benefits CVID children by boosting T-cell function. OBJECTIVE: To investigate the effect of another IL-2 common gamma-chain signaling cytokine, IL-15, on T-cell activation and apoptosis of peripheral blood mononuclear cells (PBMCs) from children with CVID compared with IL-2. METHODS: Five children treated at the Chang Gung Children's Hospital, Taoyuan, Taiwan, during 1998 to 2002 who fulfilled World Health Organization criteria for CVID and 8 age-matched, healthy controls were enrolled. The PBMCs were stimulated with anti-CD3 in the presence or absence of IL-2 and IL-15 for 4 days, followed by 24-hour incubation with anti-Fas to induce apoptosis. Surface expression of CD69, CD25, and CD95 (Fas) on CD3+ T cells was evaluated by flow cytometry. The degree of apoptosis was evaluated by propidium iodide-phycoerythrin/annexin V-fluorescein isothiocyanate flow cytometric staining. RESULTS: Following anti-CD3 activation, CD69 and CD25 expression of CVID CD3+ PBMCs was enhanced to levels comparable to controls. Exogenous IL-15 resulted in further enhancement of anti-CD3-induced CD69 expression to a greater extent than that achieved with IL-2. A greater degree of apoptosis was found in CVID patients than controls following anti-CD3 stimulation (P = 0.001). IL-15 but not IL-2 further increased anti-CD3-induced apoptosis in control PBMCs (P = 0.001). In contrast, the degree of anti-CD3-induced apoptosis in CVID PBMCs was unaffected by IL-15 or IL-2. Addition of anti-Fas to cultures prestimulated with anti-CD3 further increased the apoptosis in control PBMCs but had no effect on apoptosis of CVID PBMCs. CONCLUSION: Comparable anti-CD3-induced activation and enhanced apoptosis were observed in PBMCs from children with CVID compared with controls. The degree of apoptosis in CVID PBMCs was not affected by exogenous IL-15 or anti-Fas, suggesting a preactivated status in vivo.     

Effect of FK506 on the interleukin 15-driven proliferation and apoptosis of anti-CD3-activated umbilical cord blood T cells.

BACKGROUND: Increased susceptibility of umbilical cord blood (CB) T cells to FK506 immunosuppression may contribute to the lessened severity of graft-vs-host disease in CB transplantation. OBJECTIVE: To investigate the FK506 sensitivity of interleukin 15 (IL-15)- and IL-2-driven proliferation and apoptosis of anti-CD3-stimulated CB T cells compared with adult peripheral blood (APB) T cells. METHODS: Surface flow cytometric analysis (CD25 and CD95), carboxyfluorescein diacetae succinimidyl ester staining to track CD3+ T-cell division, and flow cytometric analysis of apoptotic cell death using Annexin V were performed to determine the effect of FK506 on CD3+ T-cell activation and apoptosis after anti-CD3 stimulation in the presence of IL-15 or IL-2. RESULTS: IL-15 is superior to IL-2 in promoting CD25 expression and proliferation of anti-CD3-stimulated CB and APB T cells. Although IL-15-driven proliferation evaluated by carboxyfluorescein diacetae succinimidyl ester staining revealed comparable sensitivity to FK506 in anti-CD3-stimulated CB and APB T cells, IL-15-driven CD25 up-regulation in CB T cells was more sensitive to FK506 inhibition than APB T cells. FK506 down-regulated anti-CD3-induced apoptosis in CB and APB T cells (P < .01). However, the FK506 sensitivity of anti-CD3-induced T-cell apoptosis was lost in IL-15-supplemented CB cultures (P = .51) but not in corresponding APB cultures (P = .002). The IL-15-enhanced Fas expression on CB T cells (CD95) was decreased by FK506, similar to that observed with adults. CONCLUSIONS: We observed differential FK506 sensitivity of IL-15-driven CD25 up-regulation and apoptotic response comparing CB and APB T cells. This finding suggests the potential therapeutic benefit of FK506 in ameliorating graft-vs-host disease by decreasing IL-15-driven donor T-cell proliferation without inhibiting associated activation-induced apoptosis during CB transplantation.     

Trypanosoma cruzi-induced immunosuppression: selective triggering of CD4+ T-cell death by the T-cell receptor-CD3 pathway and not by the CD69 or Ly-6 activation pathway.

In a model of experimental Chagas' disease induced with metacyclic forms of Trypanosoma cruzi, CD4+ but not CD8+ T cells undergo T-cell receptor (TCR)-CD3-mediated activation-induced cell death (AICD) in vitro. CD4+ T cells from T. cruzi-infected mice also developed unresponsiveness in proliferative responses to TCR-CD3-mediated stimulation. A linear correlation was found between extent of proliferative unresponsiveness and loss of CD4+ T-cell viability. CD4+ T-cell activation through the CD69 or Ly-6 A/E pathway, on the other hand, did not result in proliferative unresponsiveness compared with controls. Lack of suppression in proliferation assays correlated with lack of AICD by cells stimulated through the CD69 or Ly-6 A/E pathway. Concomitant stimulation through CD69, however, did not rescue CD4+ T cells from CD3-induced death. Flow cytometry study of cells stimulated in vitro showed no defect in interleukin-2 receptor expression by CD4+ T cells from infected donors, which escaped TCR-mediated AICD. In vivo injection of anti-CD3 into acutely infected mice, but not into control mice, led to splenocyte DNA fragmentation and failed to increase splenic CD4+ T-cell numbers. These results show that TCR-CD3-mediated AICD is involved in CD4+ T-cell unresponsiveness in vitro following infection with T. cruzi. In addition, successful activation of these cells through the CD69 and Ly-6 pathways is due to differences in the inability of these stimuli to trigger AICD. Since TCR-CD3-mediated AICD can be induced in vivo in infected mice, these findings may be relevant for the onset of immunological disturbances in the host.     

Simultaneous cross-linking of CD6 and CD28 induces cell proliferation in resting T cells.

In the present study, we showed that simultaneous ligation of the monoclonal antibodies (mAb) against CD6 and CD28 induces T-cell proliferation in purified resting T lymphocytes in the absence of T-cell receptor (TCR) occupancy. No cell proliferation was observed when the mAb were cross-linked alone or used simultaneously in the soluble form. T-cell proliferation mediated through CD6/CD28 is accompanied by the up-regulation of interleukin-2 (IL-2) mRNA and expression of IL-2 receptors on the cell surface. In the presence of IL-2-neutralizing mAb the proliferative response of the T cell induced through CD6/CD28 was inhibited dose dependently. Cross-linking mAb to CD6 and CD28 alone or together did not down-regulate the CD3/TCR complex. T-cell proliferation mediated through CD6/CD28 was only partially blocked by the immunosuppressive drug, cyclosporin A (CsA), whereas anti-CD28-induced T-cell proliferation in the presence of the phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA), was unaffected. In sharp contrast T-cell proliferation mediated by anti-CD6 in the presence of TPA was efficiently blocked by CsA. In addition, two protein kinase C (PKC) inhibitors, GF 109203X and H-7 dose-dependently inhibited T-cell proliferation mediated through CD6/CD28, suggesting that PKC activation may be involved. Furthermore, there was a marked differential dose-dependent inhibitory effect of the PKC inhibitors on T-cell proliferation mediated by the co-ligation of anti-CD6 or anti-CD28 in the presence of anti-CD3, with the former being more sensitive to PKC inhibition. Taken collectively, our results suggest that T-cell activation can occur through an antigen-independent pathway by cross-linking the accessory molecules, CD6 and CD28, and that these two cell surface antigens may have distinct signalling pathways.     

CD38 ligation induces discrete cytokine mRNA expression in human cultured lymphocytes

Human CD38 is a surface glycoprotein expressed by different immuno-competent cells such as immature and activated lymphocytes, plasma cells and natural killer cells. It has recently been reported that the CD38 molecule exerts adenosine diphosphate ribosyl cyclase activity and is associated with distinct transmembrane signaling molecules. This study reports that ligation of CD38 by specific monoclonal antibodies (mAb) induces multiple cytokine mRNA expression in cultured peripheral blood mononuclear cells (PBMC). The mRNA for tumor necrosis factor-α, interleukin (IL)-1β, IL-6, granulocyte-macrophage colony-stimulating factor (GM-CSF) and IL-12 were always detected, whereas interferon-γ and IL-10 mRNA expression were seen in most, but not all PBMC cultures. Low levels of IL-2, IL-4 and IL-5 mRNA were also found. The key observation of this work is that CD38 ligation in PBMC induces a large spectrum of cytokines, many of which overlap with those induced via CD3 activation. The main differences between CD38 and CD3 activation are the low to undetectable levels of IL-2 mRNA, and the sustained IL-1β and IL-6 mRNA accumulation found in PBMC cultures following treatment with anti-CD38 mAb. Furthermore, PBMC proliferation was not found to be a prerequisite for CD38-mediated cytokine induction. Together, these results suggest that human CD38 activates a signaling pathway which leads to the induction of a discrete array of cytokines, and that this pathway only partially overlaps with that controlled by T cell receptor CD3.     

Enhancement of activation-induced cell death by fibronectin in murine CD4+ CD8+ thymocytes.

Development of T cells in the thymus is achieved through the interactions of thymocytes with their microenvironments. This study focused on the function of fibronectin (FN), a major extracellular matrix molecule in the thymus, in the cell death induced by activation via the T-cell antigen receptor. FN alone did not increase cell death in murine thymocytes above the baseline level, but it significantly enhanced the cell death induced by fixed anti-CD3 monoclonal antibody (mAb), especially when a high concentration of anti-CD3 mAb was used. DNA fragmentation increased in parallel with cell death, indicating that cell death was a result of the apoptosis. Fluorescence-activated cell sorter (FACS) analysis revealed that the activation-induced cell death (AICD) caused by anti-CD3 mAb alone, or by a combination of anti-CD3 mAb and FN, occurred selectively in CD4+ CD8+ thymocytes. Very late activation antigen (VLA)-4 and VLA-5 are two major ligands to FN on thymocytes. The expression of both ligands was investigated at different stages of thymocyte development. VLA-4 was predominantly expressed at the CD4- CD8- stage, and thereafter the expression was reduced, whereas VLA-5 was constantly expressed during maturation. Furthermore, the enhancing effect by FN was inhibited in the presence of the Gly-Arg-Gly-Asp-Ser-Pro (GRGDSP) peptide but not in the presence of the connecting segment-1 (CS-1) peptide, suggesting that enhancement of AICD observed in CD4+ CD8+ thymocytes is mediated through VLA-5.     

Regulation of T-cell differentiation by CD2 and CD28 accessory molecules.

It was analysed to what extent the functional T-cell responses that result from T-cell receptor (TcR)/CD3 triggering differ from responses that are induced after simultaneous ligation of CD2 and CD28 accessory molecules. To allow a quantitative comparison of these activation pathways, purified lymphocytes were stimulated with either graded densities of immobilized anti-CD3 monoclonal antibodies (mAb) or with increasing amounts of anti-CD28 mAb in the presence of a constant concentration of anti-CD2 mAb. Both activation systems were sensitive to the regulatory properties of CD11a/CD18 molecules. T-cell stimulation via CD2/CD28 molecules induced a more potent release of interleukin-2 (IL-2) and more pronounced T helper (Th) cell responses than T-cell stimulation via the TcR/CD3 complex, whereas CD25 expression was more readily initiated after T-cell activation via the TcR/CD3 complex. Optimal Th cell differentiation was detected under conditions of suboptimal receptor occupancy whereas, in contrast, optimal cytolytic T lymphocyte (CTL) differentiation required optimal TcR/CD3 or CD2/CD28 engagement. The findings indicate that T-cell differentiation can be influenced in a qualitative manner by the strength of the activation signal provided, and suggest that antigen-specific T-cell responses might be regulated in a quantitative manner through CD2 and CD28 accessory molecules.     

Activation-induced cell death of human T-cell subsets is mediated by Fas and granzyme B but is independent of TNF-alpha.

Human primary effector T cells were analyzed for their susceptibility to anti-CD3-induced activation-induced cell death (AICD). Th1 and Tc1 cells were more susceptible to AICD than their type 2 counterparts. Type 1 and type 2 subsets were also found to be differentially susceptible to CD95-mediated apoptosis, although cell-surface expression of CD95 and CD95L was at similar levels on all subsets. A role for CD95 in AICD was confirmed by the addition of anti-CD95L antibodies that partially abrogated AICD. Residual apoptosis could not be accounted for by TNF-alpha/TNFR interactions because although type 1 cells secreted more TNF-alpha than type 2 cells, the addition of TNFR:Fc fusion protein did not inhibit AICD. Instead, a reduction in AICD was observed in the presence of EGTA or concanamycin A. The inhibition of apoptosis by a granzyme B inhibitor z-AAD-CMK in Tc1 cells further indicated an involvement of the granule exocytosis mechanism in AICD.     

Role of B70/B7-2 in CD4+ T-cell immune responses induced by dendritic cells.

Dendritic cells (DC) are potent antigen-presenting cells (APC). However, the molecular basis underlying this activity remains incompletely understood. To address this question, we generated murine monoclonal antibodies (mAb) against human peripheral blood-derived DC. One such antibody, designated IT209, stained differentiated DC and adherent monocytes, but failed to stain freshly isolated peripheral blood mononuclear cells (PBMC). The antigen recognized by IT209 was identified as B70 (B7-2; also recently identified as CD86). Using this mAb we studied the role of B70 in CD4+ T-cell activation by DC in vitro. IT209 partly inhibited the proliferative response of CD4+ T cells to allogeneic DC and to recall antigens, such as tetanus toxoid (TT) and purified protein derivative (PPD) of tuberculin, presented by autologous DC. More importantly, the mAb had a potent inhibitory effect on the primary response of CD4+ T cells to autologous DC pulsed with human immunodeficiency virus (HIV) gp160 or keyhole limpet haemocyanin (KLH). Adherent monocytes, despite their expression of B70, failed to induce T-cell responses to these antigens. IT209-mediated inhibition of CD4+ T-cell responses was equivalent to that produced by anti-CD25 mAb, whereas an anti-CD80 mAb was only marginally inhibitory and did not augment the effect of IT209. These findings indicate that the B70 antigen plays an important role in DC-dependent CD4+ T-cell activation, particularly in the induction of primary CD4+ T-cell responses to soluble antigens. However, since activated monocytes, despite their expression of B70, failed to prime naive T cells to these antigens, our results suggest that additional molecules contribute to the functions of DC in CD4+ T-cell activation.     

Regeneration and tolerance factor is expressed during T-lymphocyte activation and plays a role in apoptosis

Regeneration and tolerance factor (RTF) is a protein cloned from the thymus and expressed on B lymphocytes in normal pregnancy, B lymphocytic leukemia lines, and T and B lymphocytes in individuals with HIV infection. Findings, using the Jurkat T-cell model, revealed that RTF is upregulated after activation and anti-RTF antibody-induced apoptosis. In this article anti-RTF antibody-induced apoptosis of both unstimulated and activated T lymphocytes. RTF expression was examined in human PBMC or purified T lymphocytes after their in vitro activation. Kinetic studies indicated maximal RTF cell surface expression on activated T lymphocytes occurred between expression of the early activation antigen CD69 and the IL-2alpha receptor (CD25) by multiparameter flow cytometry. RTF receptor expression correlated with Fas (CD95) and CD25 receptor expression (r2 = 0.6 and 0.5, respectively). RTF surface expression was dependent on the stimuli used to activate T lymphocytes. T lymphocytes obtained maximal RTF expression when activated through the TCR signal complex using anti-CD3epsilon antibody alone when compared with T lymphocytes activated with costimulation provided by anti-CD28 antibody alone or with anti-CD28 and anti-CD3epsilon antibody. RTF is expressed under conditions of both activation and anergy. The RTFs increased concentration on the surface of anergic T cells may protect these cells from apoptosis because increased RTF concentrations inhibited anti-RTF induced apoptosis. These data further characterize the expression of RTF on activated T lymphocytes and the role of anti-RTF antibody in T-lymphocyte apoptosis.     

Defective interleukin 2 receptor expression is associated with the T cell disfunction subsequent to bone marrow transplantation

In the present work we have used monoclonal antibodies (mAb) as probes to attempt a dissection of the mechanisms underlying the immunodeficiency subsequent to bone marrow transplantation (BMT). To this end we have studied 19 allogeneic BMT recipients, analyzing the proliferative response of peripheral blood mononuclear cells (PBMC) after activation with either phytohemagglutinin (PHA), anti-CD3 or anti-CD2 mAb. All patients presented normal proportions of CD2+ and CD3+ lymphocytes, as assessed by flow cytometry. Our results indicated that in most cases both CD2 and CD3-mediated activation pathways were inefficient to trigger normal T cell proliferation. The addition of exogenous interleukin 2 (IL2) did not restore in most cases the proliferative response, pointing out that additional defects contribute to the hyporesponsiveness. This was more evident in the group of patients studied during the first 6 months. To further dissect the T cell defect we analyzed the effect of a phorbol ester (phorbol myristate acetate, PMA), which activates protein kinase C, on the anti-CD3-induced response. Our data showed that PMA synergized with anti-CD3 similarly to exogenous IL2, and restored the proliferative response only in certain cases. The expression of IL2 receptors (CD25) as assessed by cytofluorimetry, after either PHA or anti-CD3 and PMA stimulation, was shown to be depressed, and the addition of IL2 did not restore it. Finally, we observed that the early increase of intracytoplasmic Ca2+ after anti-CD3 stimulation was comparable to that detected in normal PBMC. Altogether these results indicate that a diminished CD25 expression is associated with the T cell defect, and cannot apparently be attributed to an inability of the CD3 molecule to transduce early activation signals thus suggesting that either protein kinase C itself or an as yet undefined metabolic step preceding IL2 receptor expression is abnormal in variable proportions of T cells after BMT, and constitutes another manifestation of this complex immunodeficiency.     

Immobilized anti-CD3 monoclonal antibodies induce accessory cell-independent lymphokine production, proliferation and helper activity in human T lymphocytes.

Monoclonal antibodies (mAb) directed against the human CD3 molecular complex are able, when immobilized on the plastic of microtitre wells, to induce accessory cell-independent T-cell proliferation. In this study, we show that the anti-CD3 mAb CLB-T3/3 induces strong T-cell stimulation that is proportional to the density of the immobilized antibody. T cells, optimally stimulated with plastic-immobilized CLB-T3/3, showed a five-fold higher proliferation compared to cells that were stimulated with soluble anti-CD3 in the presence of accessory cells. The difference in magnitude of proliferation was found to be correlated with the expression of the CD25 (TAC) antigen and the production of interleukin (IL)-2, but not with the number of high-avidity IL-2 receptors expressed on the surface of these differentially activated cells. In addition, immobilized CLB-T3/3 initiated the production of interferon-gamma (IFN-gamma), but not of IL-4, in purified T lymphocytes. Coated anti-CD3 mAb induced helper activity in T cells for IgM and IgG production by B lymphocytes. Whereas addition of IL-1 or IL-2 had only a moderate effect on T-cell proliferation induced by immobilized anti-CD3 mAb, helper activity was strongly enhanced in the presence of these factors. This T-cell activation system may prove useful for a standardized analysis of both activation requirements and immunoregulatory capacities of human T cells.     

Interleukin-12 can replace CD28-dependent T-cell costimulation during nonspecific cytotoxic T lymphocyte induction by anti-CD3 antibody

Cytotoxic T lymphocyte (CTL) development is regulated closely by an intricate series of signals provided by the T-cell receptor/CD3 complex, cytokines, and costimulatory ligand/receptor systems. In this study, we have explored the role of interleukin (IL)-12 and CD28 in mouse CTL development. Activation of T cells with anti-CD3 monoclonal antibody (mAb) in the presence of anti-CD86 mAb, which prevents CD28-CD86 interaction, led to decreased production of type 1 (IL-2, interferon-gamma) and type 2 (IL-4, IL-6, IL-10) cytokines, as well as diminished expression of granzyme B (Gzm B) and reduced cytotoxic effector function. Cytolytic activity in T-cell cultures that were activated in the presence of anti-CD86-blocking mAb alone or in combination with anti-CD80 mAb could be restored by the addition of exogenous IL-12 at initiation of culture. The ability of IL-12 to substitute for CD28-costimulatory signaling during CTL development was found to be dependent on the presence of IL-2 rather than interferon-gamma. IL-2 is required for IL-12Rbeta2 expression by T cells activated in the presence of anti-CD86 mAb. Moreover, IL-12Rbeta2 expression by T cells activated in the presence of anti-CD86 mAb is enhanced by IL-12. We, therefore, conclude that the ability of IL-12 to substitute for CD28-costimulatory signaling during CTL development is a result of the interaction of IL-12 with IL-12Rbeta2 induced by low levels of IL-2 synthesized by T cells activated in a CD28-independent manner.     

Immobilized anti-CD3 mAb induces anergy in murine naive and memory CD4+ T cells in vitro

The induction of non-responsiveness in resting murine CD4+ T cells was investigated using immobilized anti-CD3 mAb. Incubation of freshly isolated CD4+ T cells with immobilized anti-CD3 mAb led to apoptosis in 40-60% cells. The surviving cells were profoundly non-responsive to subsequent mitogenic stimulation. The non-responsive state was characterized by a lack of IL-2 production and hyper-responsiveness to added IL-2, but was not explained by further activation-induced cell death. The induction of non-responsiveness was not due to modulation of the TCR-CD3 complex, and required partial activation of the T cells in that it was accompanied by an increase in cell size and was inhibited by addition of cyclosporin A. Finally, analysis of anti-CD3-mediated responses in naive and memory CD4+ T cells, separated on the basis of CD44 expression, showed that both naive and memory T cells have similar sensitivity to immobilized anti-CD3 mAb-induced activation, apoptosis and anergy. These results demonstrate that TCR-CD3 engagement on freshly isolated resting CD4+ naive and memory T cells, In the absence of co-stimulation, as achieved by plastic-immobilized anti-CD3 mAb, induces both anergy and cell death.      

Induction of T-cell proliferation by recombinant mouse and chimeric mouse/human anti-CD3 monoclonal antibodies.

The isotype of anti-CD3 mAb has a dramatic effect on anti-CD3 induced T-cell activation, as was previously reported for switch variants (IgG2b to IgA) of a high-avidity IgG1 anti-CD3 mAb (CLB-T3/4.1). In order to study and compare the isotype dependency of T-cell activation with anti-CD3 mAb of various mouse and human subclasses, we now prepared recombinant anti-CD3 mAb. The variable region of the anti-CD3 Ig heavy chain was cloned, joined with genes for the heavy chain constant region and expressed in a cell line only secreting autologous mouse chi light chains. Thus we obtained cell lines that produced mouse (m) IgM, mIgG3 and chimaeric mouse/human (h) IgM, hlgG1, hlgG2, hlgG3, hlgG4, hlgE and hlgA2 anti-CD3. The matched set of mouse and mouse/human chimaeric anti-CD3 isotypes switch variants was then used to study activation of T cells in an accessory cell-dependent system. hlgG1, hlgG4, hlgE, mlgG2a and mlgE induced T-cell proliferation in PBMC of all donors tested, whereas PBMC from a subset of donors were unresponsive to stimulation with hlgG2, hlgG3, hlgA2, mlgG1 and mlgG2b anti-CD3 mAb. hlgM, mlgM and mlgA were only able to induce T-cell mitogenesis in combination with PMA. Our panel of anti-CD3 mAb variants may prove a powerful tool to study mouse and human isotype-dependent effector functions and their influence on T-cell activation requirements in detail.     

Requirements for activation of human peripheral blood T cells by mouse monoclonal antibodies to CD3

The present study was undertaken in an attempt to reconcile the conflicting results concerning the signals required for the activation of human resting T cells by antibodies to the T-cell receptor/CD3 complex (Ti/CD3). For this purpose we have used highly purified peripheral blood T cells, depleted of monocytes and of preactivated Ia + T cells, to the extent that they were unable to proliferate to interleukin 2 (IL-2) alone or to optimal doses of phytohemagglutinin (PHA). To further minimize the contribution of contaminating monocytes, we used the anti-CD3 mAb, Leu-4, and cells from Leu-4 nonresponder subjects, whose monocytes we show completely fail to bind the Leu-4 mAb. The parameters of T-cell activation which we measured were rises in intracellular free calcium ion [Ca2+]i, IL-2 receptor expression IL-2 production, and cell proliferation. Our results indicate that induction of proliferation of resting T cells requires at least two signals. Signal one is best delivered by multivalent anti-CD3 mAb, such as Leu-4 mAb covalently linked to Sepharose 4B (Seph-Leu-4), or with Leu-4 mAb and anti-mouse IgG. These reagents crosslink the CD3 receptor complex on the T cell, and result in a rise in intracellular [Ca2+]i, in expression of receptors for IL-2, and in proliferation upon addition of IL-2. In contrast, purified T cells exposed to soluble Leu-4 mAb do not exhibit a rise in intracellular [Ca2+]i, do not express receptors for IL-2, and do not proliferate upon addition of IL-2, indicating that the valency of anti-CD3 mAb is critical for the delivery of the first activation signal to the T cell. The essential step of crosslinking of CD3 antigens on T cells by anti-CD3 mAb is normally mediated by monocytes which have bound anti-CD3 mAbs via their Fc receptors. Monocytes from Leu-4 nonresponder subjects, which we show fail to bind Leu-4 mAb, fail to crosslink CD3 antigens on T cells, resulting in failure of T-cell activation. The second signal needed for the proliferation of T cells whose Ti/CD3 complexes are crosslinked is IL-2. IL-2 production by such T cells required a monocyte delivered signal, which must be delivered to these T cells simultaneously with the crosslinking of their Ti/CD3 antigens. This IL-2-inductive signal can be delivered by both Leu-4 nonresponder and Leu-4 responder monocytes, indicating that delivery of this IL-2 inductive signal is independent of anti-CD3 mAb binding by monocytes.(ABSTRACT TRUNCATED AT 400 WORDS)     

CD26 induces T-cell proliferation by tyrosine protein phosphorylation.

CD26 antigen distribution among lymphoid cells and its participation in the process of lymphocyte activation and proliferation has been widely documented. However, the molecular and biochemical mechanisms coupled to the CD26 molecule are not yet known. With different monoclonal antibodies (mAb) we have detected that approximately 56% of CD4+ and 35% of CD8+ cells from peripheral blood lymphocytes express CD26 and the expression of this antigen is required for antigen- but not for mitogen-induced proliferation unless exogenous interleukin-2 (IL-2) is added to the culture. The stimulation of nylon wool-separated T cells and T-cell clones by the anti-CD26 mAb, 134-2C2, induced tyrosine phosphorylation on a subset of proteins of 50,000, 46,000, 26,000, 24,000 and 21,000 MW. This pattern of phosphorylation was not affected by the presence of 12-myristate 13-acetate (PMA), although this cofactor is required for CD26-mediated IL-2 mRNA expression and T-cell proliferation. When a specific tyrosine kinase inhibitor, Tyrphostin, was used in CD4+ cells cultures stimulated with 134-2C2 and PMA, the proliferation and the expression of IL-2 mRNA were inhibited. Thus, protein tyrosine phosphorylation seems to play a major role in CD26-mediated T-cell proliferation.