The glycosylphosphatidylinositol-anchored CD59 protein stimulates both T cell receptor ζ/ZAP-70-dependent and -independent signaling pathways in T cells

The glycosylphosphatidylinositol (GPI)-anchored CD59 protein (human protectin) protects cells against complement-induced lysis, binds to CD2 and also transduces activation signals within T cells. We have further examined the biochemical signals transduced by CD59 and addressed its role in regard to the CD3-mediated signaling cascade. We show here that CD59 cross-linking induces a time-dependent activation of p56^lck and of p70^zap (ZAP-70) in CD3-positive Jurkat cells, leading to the stimulation of the T cell receptor ζ/ZAP-70 signaling cascade and interleukin-2 (IL-2) synthesis. Cross-linking of CD59 on peripheral T cells and thymocytes induces tyrosine phosphorylations identical to those seen in Jurkat cells and this is followed by lymphokine production and proliferation. In contrast, only activation of CD59-associated p56^lck occurs in CD3-negative Jurkat cells, while IL-2 production is impaired, consistent with the lack of ZAP-70 tyrosine phosphorylation observed in these cells. CD59 triggers activation events even in the absence of CD3/T cell receptor expression in Jurkat cells. CD59 cross-linking synergizes with sub-optimal doses of phorbol ester for activation of the protein kinase C and of the p42^mapk, as shown by in vitro phosphorylation of histone HIIIS and myelin basic protein, respectively, and leads to CD25 but not CD69 expression. In conclusion, at least two signaling pathways are triggered through CD59, the first one involving ZAP-70 activation and leading to IL-2 secretion and a second pathway observed in the absence of ZAP-70 activation leading to CD25 expression. These two pathways are likely to be involved in the modulation of T cell activation by CD59 protein.     

Essential role of the adaptor protein Nck1 in Jurkat T cell activation and function

The non-catalytic region of tyrosine kinase (Nck) is proposed to play an essential role in T cell activation. However, evidence based on functional and biochemical studies has brought into question the critical function of Nck. Therefore, the aim of the present work was to investigate the role of Nck in T cell activation. To study this, the human Jurkat T cell line was used as a model for human T lymphocytes. The short interfering (si) RNA targeting Nck1 gene was used with electroporation to knock-down Nck1 protein expression in Jurkat T cells. Primary human CD4 T cells were also transfected with the siRNA of Nck1. The results showed that decreased Nck1 protein expression did not affect the apoptosis of the transfected Jurkat T cells compared with control siRNA-transfected cells and non-transfected cells. Upon CD3ε/CD28 stimulation, knock-down of Nck1 in Jurkat T cells caused a decrease in CD69 expression and in interleukin (IL)-2 secretion. Similarly, knock-down of Nck1 in primary CD4 T cells also caused decreased CD69 expression. However, no significant alterations of CD69 and IL-2 expression were found upon phytohaemagglutinin (PHA)/phorbol myristate acetate (PMA) stimulation. Knock-down of Nck1 had no effect on the proliferation of Jurkat T cells stimulated with either PHA or anti-T cell receptor (TCR) monoclonal antibody (C305). The reduced Nck1 expression in Jurkat cells was also associated with a reduced phosphorylation of extracellular regulated kinase (Erk)1 and Erk2 proteins upon CD3ε/CD28 stimulation. In conclusion, the decreased Nck1 protein in Jurkat T cells resulted in an impairment of TCR-CD3-mediated activation involving a defective Erk phosphorylation pathway.     

MUC1 mucin-mediated regulation of human T cells

MUC1 mucin is expressed by normal human epithelial cells and is overproduced in underglycosylated form by malignant epithelial cells. A number of anticancer immunotherapeutic strategies are being designed with the goal of inducing humoral and cellular immune responses against MUC1 mucin. Newly synthesized MUC1 mucin is also expressed on polyclonally stimulated human T cells. An immunoregulatory role has been postulated for MUC1 mucin expressed by activated T cells. We now show that several MUC1 peptide and glycopeptide epitope specific antibodies bind to activated T cells and inhibit their proliferation. Inhibition by antibody B27.29 could be reversed by glycopeptide haptens specific for the antibody. Intact antibody B27.29 and its divalent F(ab')(2) fragment inhibited the proliferation of T cells undergoing T cell activation but the monovalent Fab' fragment did not, indicating that cross-linking of the MUC1 antigen on T cells is required for the inhibitory effect. MUC1 expression on activated T cells was increased in the presence of IL-12 but was not affected by IFN-gamma, IL-2, IL-4, IL-5, IL-10, IL-13 or TNF-alpha. Treatment of T cells inhibited by monoclonal antibody (MAb) B27.29 with either IL-2 or costimulatory anti-CD28 antibody restored proliferation to a level equivalent to that of control cultures. These results provide further support for the hypothesis that the expression of MUC1 on the activated T cell surface is associated with the regulation of T cell responses.     

Knockdown of C-terminal Src kinase by siRNA-mediated RNA interference augments T cell receptor signaling in mature T cells

C-terminal Src kinase (Csk) controls the Src family kinase Lck, which is essential for T cell antigen receptor (TCR)-mediated signaling. For the first time, we here report the effects of acute elimination of Csk in Jurkat T cells and primary T cells using short interfering (si) RNA. In both cell types, 70-85% knockdown of Csk was achieved within 48 h. No alterations in surface expression of CD3, CD4 or CD8, or in Lck protein level were observed. Phosphorylation of Y505 in Lck was markedly reduced and a concomitant 4-5-fold increase in Lck Y394 phosphorylation was observed both in normal and Jurkat T cells. Kinase assays revealed 2-3-fold higher Lck activity. In Jurkat cells, basal levels of zeta chain phosphorylation were elevated, and spontaneous NFAT-AP-1 activation occurred, indicating aberrant Lck kinase activity. After TCR triggering, Csk knockdown cells revealed faster and stronger, but not sustained, phosphorylation of Lck Y394 and zeta chains compared to control. TCR-induced activation of NFAT-AP-1 and TCR/CD28-stimulated IL-2 secretion occurred at weaker stimuli and with augmented responses in Csk knockdown Jurkat and primary T cells, respectively. Altogether, these data suggest that acute elimination of Csk in T cells without evolution of compensatory mechanisms results in aberrant Lck activity and augmented TCR-stimulated responses.     

Glycosylation-dependent interaction of Jacalin with CD45 induces T lymphocyte activation and Th1/Th2 cytokine secretion

Jacalin, an alpha-O-glycoside of the disaccharide Thomsen-Friedenreich antigen (galactose beta1-3 N-acetylgalactosamine, T-antigen)-specific lectin from jackfruit seeds, has been shown to induce mitogenic responses and to block infection by HIV-1 in CD4+ T lymphocytes. The molecular mechanism underlying Jacalin-induced T cell activation has not been elucidated completely yet. In the present study, protein tyrosine phosphatase (PTPase) CD45 was isolated from a Jurkat T cell membrane fraction as a major receptor for Jacalin through affinity chromatography and mass spectrometry. CD45, which is highly glycosylated and expressed exclusively on the surface of lymphocytes, is a key regulator of lymphocyte signaling, playing a pivotal role in activation and development. We found that the lectin induced significant IL-2 production by a CD45-positive Jurkat T cell line (JE6.1) and primary T cells. However, this effect did not occur in a CD45-negative Jurkat T cell line (J45.01) and was blocked completely by a specific CD45 PTPase inhibitor in Jurkat T (JE6.1) and primary T cells. Furthermore, we also observed that Jacalin caused a marked increase in IL-2 secretion in response to TCR ligation and CD28 costimulation and contributed to Th1/Th2 cytokine production by activating CD45. Jacalin increased CD45 tyrosine phosphatase activity, which resulted in activation of the ERK1/2 and p38 MAPK cascades. Based on these findings, we propose a new, immunoregulatory model for Jacalin, wherein glycosylation-dependent interactions of Jacalin with CD45 on T cells elevate TCR-mediated signaling, which thereby up-regulate T cell activation thresholds and Th1/Th2 cytokine secretion.     

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.     

G1/S cell cycle arrest provoked in human T cells by antibody to CD26

CD26 is T cell costimulatory molecule with dipeptidyl peptidase IV (DPPIV) enzyme activity located in its extracellular region. The expression of CD26 is enhanced after activation of T cells, while it is preferentially expressed on a subset of CD4+ memory T cells in the resting state. In this paper, we demonstrate that binding of the soluble anti-CD26 monoclonal antibody (mAb) 1F7 inhibits human T-cell growth and proliferation in both CD26-transfected Jurkat T-cell lines and human T-cell clones by inducing G1/S arrest, which is associated with enhancement of p21Cip1 expression. This effect depends on the DPPIV enzyme activity of the CD26 molecule. Moreover, we show that expression of p21Cip1 after treatment with the anti-CD26 mAb 1F7 appears to be induced through activation of extracellular signal-regulated kinase (ERK) pathway. These data thus suggest that anti-CD26 treatment may have potential use in the clinical setting involving activated T cell dysregulation, including autoimmune disorders and graft-vs.-host disease.     

CD2 singnaling in T cells involves tyrosine phosphorylation and activation of the Tec family kinase, EMT/ITK/TSK

Ligation of the CD2 cell surface glycoprotein expressed on Tlymphocytes and NK cells induces protein tyrosine phosphorylationand activation of the Src kinases, LCK and FYN. We show herethat in Jurkat T leukemia cells and in peripheral blood T cells,CD2 stimulation also leads to tyrosine phosphorylation and activationof the Tec family kinase, EMThTKITSK. Activation of EMT by CD2was induced by mitogenic pairs of CD2 mAb, certain single CD2mAb followed by secondary antibody cross-linking, and CD58-bearingsheep red blood cells. With the use of different Jurkat cellmutants it was demonstrated that CD2-mediated activation ofEMT required expression of LCK, but did not require surfaceexpression of the CD3 chain. Receptor-mediated activation ofLCK does not in itself lead to activation of this Tec kinasesince induction of LCK by ligation of CD4 or CD5 did not resultin activation of EMT. The activation of EMT during CD2 signalingsuggests an important role for this kinase in CD2 co-stimulationof T cell responses.     

Lipopolysaccharide induces overexpression of MUC2 and MUC5AC in cultured biliary epithelial cells: possible key phenomenon of hepatolithiasis

Bacterial infection, bile stasis, mucin hypersecretion, and an alteration of the mucin profile such as an aberrant expression of gel-forming apomucin (MUC2 and MUC5AC) in the intrahepatic biliary tree are thought to be important in the lithogenesis of hepatolithiasis. So far, there have been no detailed studies linking bacterial infection to altered mucus secretion of biliary epithelium. In this study, the influence of lipopolysaccharide (LPS), a bacterial component, on apomucin expression in cultured murine biliary epithelial cells was examined with emphasis on the participation of tumor necrosis factor (TNF)-alpha. It was found that LPS up-regulated the expression of MUC2 and MUC5AC in cultured murine biliary epithelial cells. LPS also induced the expression of TNF-alpha in biliary epithelial cells and its secretion into the culture medium. The up-regulation of these apomucins was inhibited by pretreatment with TNF-alpha antibody. TNF-alpha alone also induced the overexpression of MUC2 and MUC5AC in cultured biliary epithelial cells. This overexpression was inhibited by pretreatment with calphostin C, an inhibitor of protein kinase C. These findings suggest that LPS can induce overexpression of MUC2 and MUC5AC in biliary epithelial cells via synthesis of TNF-alpha and activation of protein kinase C. This mechanism might be involved in the lithogenesis of hepatolithiasis.     

Lck tyrosine kinase is important for activation of the CD11a/CD18-integrins in human T lymphocytes

CD11a/CD18 (beta2)-integrins are expressed on leukocytes and are involved in cell adhesion and signaling. Despite extensive studies the signaling pathways and molecular mechanisms involved in integrin regulation in T cells remain not completely understood. We have now studied the involvement of the tyrosine kinase Lck in the regulation of CD11a/CD18 function in Jurkat T cells. Using the Src-family kinase inhibitor PP2, we found that CD3 ligation-induced adhesion to ICAM-1 was inhibited by PP2 at the same concentration required for complete inhibition of the MAP kinase pathway, implicating a role for Lck in integrin activation. We therefore used the Lck-deficient Jurkat cell line JCaM1.6 to further examine the involvement of Lck in integrin regulation. Interestingly, JCaM1.6 cells showed dramatically reduced levels of both CD3- and phorbol ester-induced adhesion to coated ICAM-1 as compared to normal Jurkat cells. By using flow cytometry and cell surface labeling, it was found that the surface expression of the CD11a/CD18-integrins was significantly lower in Lck-deficient T cells as compared to normal Jurkat cells. CD18 was expressed as a mature and an immaturely glycosylated form in Jurkat T cell lines, and predominantly the immature form, not associated with CD11a, was found in Lck-deficient cells. Retransfection of human Lck in JCaM1.6 cells restored adhesion. Thus, Lck is involved in regulating CD11a/CD18-integrins in T cells.     

Both T cell receptor (TcR)-CD3 complex and CD2 increase the tyrosine kinase activity of p56lck. CD2 can mediate TcR-CD3-independent and CD45-dependent activation of p56lck.

T cell activation by triggering the T cell receptor (TcR)-CD3 complex leads to a dramatic increase in tyrosine phosphorylation of multiple cellular proteins. To date, there has been no direct evidence on the identity of the tyrosine kinase activity implicated in this signaling pathway. In this study, we demonstrate that activation of human T cells with anti-CD3 monoclonal antibody increases tyrosine kinase activity of p56lck. This extends our previous findings which demonstrated the involvement of p56lck kinase activity in the CD2 signal transduction pathway. The results from peripheral blood lymphocytes and Jurkat cell line showed in both cases an early and transient change in the specific activity of p56lck, followed by a shift to a higher apparent molecular mass. Therefore, to test directly the role of TcR-CD3 in CD2-induced activation of p56lck, we utilized mutant variants of the Jurkat cell line lacking in cell surface TcR-CD3. We found that cell surface expression of TcR-CD3 is not required for the activation of p56lck via CD2 but is necessary for the appearance of the reduced-electrophoretic-mobility form of p56lck observed after CD2 triggering. By isolating CD45- mutants from Jurkat cells, we observed that surface expression of the tyrosine phosphatase CD45 is required in order to increase p56lck activity following CD2 stimulation, while CD4-induced activation of the kinase remained unchanged. These data provide evidence for a specific functional linkage between CD2 and p56lck, in which CD45 may play an essential role.     

Impaired TCR signaling through dysfunction of lipid rafts in sphingomyelin synthase 1 (SMS1)-knockdown T cells

During T cell activation, TCRs cluster at the center of the T cell-antigen-presenting cell interface forming the central supramolecular activation cluster. Although it has been suggested that sphingolipid- and cholesterol-rich microdomains, termed lipid rafts, form platforms for the regulation and transduction of TCR signals, an actual role for membrane sphingomyelin (SM), a key component of lipid rafts, has not been reported. After cloning a gene responsible for SM synthesis, sphingomyelin synthase (SMS) 1, we established a SM-knockdown cell line (Jurkat-SMS1/kd) by transfection of SMS1-short-interfering RNA into Jurkat T cells, which is deficient in membrane expression of SM. Upon CD3 stimulation, expression of CD69 (the earliest leukocyte activation antigen), activation-induced cell adhesion and proliferation as well as TCR clustering was severely impaired in Jurkat-SMS1/kd cells. CD3-induced tyrosine phosphorylation and association of linker for activation of T cell with ZAP-70 and Grb2 and phosphorylation of protein kinase C (PKC) were also severely impaired in Jurkat-SMS1/kd cells. Finally, translocation of TCR, ZAP-70 and PKC into lipid rafts was markedly decreased in Jurkat-SMS1/kd cells. These findings indicate that membrane SM is crucial for TCR signal transduction, leading to full T cell activation through lipid raft function.