A dual participation of ZAP-70 and scr protein tyrosine kinases is required for TCR-induced tyrosine phosphorylation of Sam68 in Jurkat T cells

Sam68 has been initially described as a substrate of src kinases during mitosis in fibroblasts. Recent evidence suggests that in T lymphocytes Sam68 may act as an adaptor protein and participate in the early biochemical cascade triggered after CD3 stimulation. A direct interaction between Sam68 and the two src kinases involved in T cell activation, p59(fyn) and p56(lck), as well as a partnership of Sam68 with various key downstream signaling molecules, like phospholipase Cgamma-1 and Grb2, has been shown. In this study we analyze the contribution of p56(lck), as well as the role of ZAP-70, the second class of protein tyrosine kinase involved in T cell activation, in Sam68 tyrosine phosphorylation in the human Jurkat T cell line. Using the src inhibitor PP1 [4-amino-5-(4-methylphenyl)7-(t-butyl) pyrazolo [3,4-d] pyrymidine] and cell variants with defective expression of p56(lck) or expressing a dominant negative form of ZAP-70, we demonstrate that, while both p56(lck) and ZAP-70 are dispensable for the low constitutive phosphorylation of Sam68 observed in Jurkat cells, a cooperation between the two kinases is required to increase its rapid phosphorylation observed in vivo after CD3 stimulation. We also show that recombinant forms of both p56(lck) and ZAP-70 phosphorylate Sam68 in vitro. However, using CD2 stimulated cells, we observe that p56(lck) activation by itself does not induce Sam68 tyrosine phosphorylation. We conclude that p59(fyn) and p56(lck) differently participate in regulating the phosphorylation state of Sam68 in T cells and that ZAP-70 may contribute to Sam68 tyrosine phosphorylation and to the specific recruitment of this molecule after CD3 stimulation.     

Regulation of CTL by ecto-nictinamide adenine dinucleotide (NAD) involves ADP-ribosylation of a p56lck-associated protein

Receptor-mediated activation of T lymphocytes involves protein phosphorylation by several protein tyrosine kinases, among those the src-related enzymes p56lck and p59fyn. Accumulating evidence supports the notion that these enzymes are regulated by tyrosine phosphorylation and dephosphorylation, but much is yet to be learned about regulation of their activity. Here we demonstrate that p56lck but not p59fyn exists as a complex with a 40-kDa protein, which in its ADP-ribosylated form inhibits p56lck kinase activity. ADP-ribosylation of this protein is mediated by an arginine-specific mono-ADP-ribosyltransferase, which makes use of extracellular nicotinamide adenine dinucleotide (NAD). This enzyme is a glycosyl-phosphatidylinositol-anchored protein releasable from the surface of cytotoxic T cells by glycosyl-phosphatidylinositol-specific phospholipase C. Release of arginine-specific mono-ADP-ribosyltransferase results in failure of extracellular NAD to downmodulate p56lck kinase activity. Concomitant to suppression of the kinase by NAD, CD8 mediated transmembrane signaling and p56lck kinase activation are inhibited.     

Late-onset rheumatoid arthritis: is pitting oedema of the hands at onset a good prognostic indicator?

Selectin and alpha 4 beta 7-integrins have been shown to mediate transient leucocyte interactions with endothelial cells which is a crucial step in the initial immune response to pathogens. We have previously shown that stimulation of T lymphocytes via L-selectin results in activation of a signalling cascade from the L-selectin molecule via the tyrosine kinase p56lck and tyrosine phosphorylation of L-selectin to the stimulation of p21Ras and Rac proteins. In the present study we demonstrate that stimulation of Jurkat T lymphocytes via L-selectin results in an activation of Jun N-terminal kinase (JNK) but not of p38-K. L-selectin-initiated activation of JNK is mediated by src-like tyrosine kinases and the small G-protein Rac 1/2, since genetic or pharmacological inhibition of p56lck or Rac proteins prevent the stimulation of JNK by L-selectin. Thus, the data point to a novel signalling cascade from L-selectin via src-like tyrosine kinases and Rac proteins to JNK.     

The protein tyrosine kinase p56lck regulates cell adhesion mediated by CD4 and major histocompatibility complex class II proteins

The CD4 protein is expressed on a subset of human T lymphocytes that recognize antigen in the context of major histocompatibility complex (MHC) class II molecules. Using Chinese hamster ovary (CHO) cells expressing human CD4, we have previously demonstrated that the CD4 protein can mediate cell adhesion by direct interaction with MHC class II molecules. In T lymphocytes, CD4 can also function as a signaling molecule, presumably through its intracellular association with p56lck, a member of the src family of protein tyrosine kinases. In the present report, we show that p56lck can affect cell adhesion mediated by CD4 and MHC class II molecules. The expression of wild-type p56lck in CHO-CD4 cells augments the binding of MHC class II+ B cells, whereas the expression of a mutant p56lck protein with elevated tyrosine kinase activity results in decreased binding of MHC class II+ B cells. Using site-specific mutants of p56lck, we demonstrate that the both the enzymatic activity of p56lck and its association with CD4 are required for this effect on CD4/MHC class II adhesion. Further, the binding of MHC class II+ B cells induces CD4 at the cell surface to become organized into structures resembling adhesions-type junctions. Both wild-type and mutant forms of p56lck influence CD4-mediated adhesion by regulating the formation of these structures. The wild-type lck protein enhances CD4/MHC class II adhesion by augmenting the formation of CD4-associated adherens junctions whereas the elevated tyrosine kinase activity of the mutant p56lck decreases CD4-mediated cell adhesion by preventing the formation of these structures.     

CD4:p56lck association studied in vivo using antibody-induced capping and double indirect immunofluorescence microscopy

Accumulating data suggest that the T-cell surface antigen CD4 transduces an independent signal during antigen-mediated T-cell activation. In vitro studies which showed that the cytoplasmic protein tyrosine kinase p56lck is present in anti-CD4 immunoprecipitates led to the model that p56lck is associated with the cytoplasmic domain of CD4. In this report we have extended these studies and examined potential CD4:p56lck associations in vivo. We show here by double immunofluorescence microscopy a specific co-distribution of p56lck with antibody-induced CD4 caps in intact cells. Murine T-cell hybridoma lines expressing mutant forms of CD4 were used to demonstrate that the 31 carboxyterminal aminoacids of its cytoplasmic domain, in particular cysteine-420 and cysteine-422, are crucial for the formation of CD4:p56lck complexes in vivo. The potential of the method applied is discussed with regard to studies of other transmembrane signalling systems involving src-like kinases.     

Monoclonal antibody binding to a receptor on nonspecific cytotoxic cells (NCC) increases the expression of proto-oncogene kinases and protein kinase C

Teleost nonspecific cytotoxic cells (NCC) initiate various cell triggering responses following receptor-target cell interactions. A putative receptor protein on NCC may alternatively initiate signalling processes following crosslinkage by homologous anti-receptor mab 5C6. In the present study, we demonstrated that binding to this receptor by mab 5C6 produced increased levels of expression of cytoplasmic src family proto-oncogene kinases lck, fyn and src. The phosphorylated isoforms of each kinase were approximately the same molecular weight (p60). Unlike their mammalian T-cell and natural killer (NK) cell counterparts, NCC p56lck did not autophosphorylate on tyrosine residues. This was determined by a lack of Western blot reactivity of teleost p56lck with anti-phosphotyrosine specific antibodies PT-66 or 4G10. Additional evidence for this lack of tyrosine phosphorylation was shown by experiments treating mab 5C6 activated NCC with sodium orthovanadate. This protein tyrosine phosphatase inhibitor did not affect levels of p56lck autophosphorylation. Mab 5C6 activated NCC were also examined to determine if levels of protein kinase C (PKC) expression were affected during triggering responses. Maximum increased PKC levels occurred 5-10 min following binding. The NCC receptor-activated PKC consisted of a 60,000 M(r) isoform and a 30,000 M(r) homologue equivalent to the mammalian PKC catalytic subunit. Not all kinases examined, however, were affected by mab 5C6 binding. Levels of expression of c-myc and cdc2p34 did not change following NCC activation. This is the first study of NK-like cells in cold-blooded vertebrates regarding the expression of these vital intermediary transducing kinases.(ABSTRACT TRUNCATED AT 250 WORDS)     

Tyrosine kinase-dependent activation of a chloride channel in CD95-induced apoptosis in T lymphocytes

CD95/Fas/APO-1 mediated apoptosis is an important mechanism in the regulation of the immune response. Here, we show that CD95 receptor triggering activates an outwardly rectifying chloride channel (ORCC) in Jurkat T lymphocytes. Ceramide, a lipid metabolite synthesized upon CD95 receptor triggering, also induces activation of ORCC in cell-attached patch clamp experiments. Activation is mediated by Src-like tyrosine kinases, because it is abolished by the tyrosine kinase inhibitor herbimycin A or by genetic deficiency of p56lck. In vitro incubation of excised patches with purified p56lck results in activation of ORCC, which is partially reversed upon addition of anti-phosphotyrosine antibody. Inhibition of ORCC by four different drugs correlates with a 30-65% inhibition of apoptosis. Intracellular acidification observed upon CD95 triggering is abolished by inhibition of either ORCC or p56lck. The results suggest that tyrosine kinase-mediated activation of ORCC may play a role in CD95-induced cell death in T lymphocytes.     

Reconstitution of interactions between protein-tyrosine phosphatase CD45 and tyrosine-protein kinase p56(lck) in nonlymphoid cells

To further understand the functional interactions between CD45 and p56(lck) in T-cells, we stably reconstituted their expression in a nonlymphoid system. The results of our analyses demonstrated that CD45 could dephosphorylate tyrosine 505 of p56(lck) in NIH 3T3 fibroblasts. As is the case for T-cells, removal of the unique domain of p56(lck) interfered with dephosphorylation of tyrosine 505 in fibroblasts, further stressing the importance of this region in the interactions between CD45 and p56(lck). The ability of CD45 to dephosphorylate tyrosine 505 in NIH 3T3 cells was also greatly influenced by the catalytic activity of p56(lck). Indeed, whereas CD45 provoked dephosphorylation of kinase-defective Lck molecules in this system, it failed to stably dephosphorylate kinase-active p56(lck) polypeptides. Finally, our studies showed that CD45 was also able to inhibit the oncogenic potential of a constitutively activated version of p56(lck) in NIH 3T3 cells. This effect did not require the Lck unique domain and apparently resulted from selective dephosphorylation of substrates of activated p56(lck) in fibroblasts. In addition to providing insights into the nature and regulation of the interactions between CD45 and p56(lck) in T-cells, these results indicated that CD45 clearly has the capacity to both positively and negatively regulate p56(lck)-mediated functions in vivo.     

The CD4-associated tyrosine kinase p56lck is required for lymphocyte chemoattractant factor-induced T lymphocyte migration

Lymphocyte chemoattractant factor (LCF) is a polypeptide cytokine which induces both cell motility and activation of T lymphocytes. These LCF-induced events demonstrate an absolute requirement for the cell surface expression of CD4. Because many CD4-mediated T lymphocyte activation events have been demonstrated to require the association of the src-related tyrosine kinase p56lck with the cytoplasmic domain of CD4, we examined the role of p56lck in LCF-induced lymphocyte migration in a murine T cell hybridoma line expressing transfected human CD4. LCF induces the catalytic activity of CD4 associated p56lck at chemoattractant concentrations of cytokine. Hybridoma cells that express CD4 with cytoplasmic point mutations which uncouple the CD4-lck association lack both lck enzymatic activity and chemotactic responses to LCF. The enzymatic activity of lck however does not appear to be required for CD4-mediated migratory signal. First, the protein tyrosine kinase inhibitor herbimycin A blocked LCF-induced p56lck activation but had no effect on the LCF-induced motile response. Second, T cell hybridomas expressing a chimeric receptor combining the extracellular domain of human CD4 and murine p56lck which lacked the kinase domain had a normal LCF-induced motile response. We conclude from these observations that CD4-lck coupling is essential for LCF-induced T lymphocyte migration but the motile response is independent of the enzymatic activity of CD4-associated p56lck.     

Vascular density in melanoma xenografts correlates with vascular permeability factor expression but not with metastatic potential

Previous studies have shown that human airway epithelial cells (AEC) can stimulate allogeneic peripheral blood T-lymphocyte (PBT) proliferation. We now sought to determine which AEC surface molecule/T-cell coreceptors are involved in this process. AEC-induced PBT proliferation was inhibited by 25 microM genestein or herbamycin A (0.9 and 1.8 microM), both tyrosine kinase inhibitors. Anti-phosphotyrosine immunoblots performed on PBT lysates after coculture with AEC demonstrated phosphorylation of 56kD and 60kD bands. To determine whether CD3 associated p59fyn, or CD4 and CD8 associated p56lck phosphotyrosine kinases (PTK) were involved, we assayed kinase activity in lymphocyte lysates immunoprecipitated with anti-p56lck and p59fyn mAbs. PBT cells or murine T-cell line transfectants expressing human CD4 (3G4) or human CD8alpha (3G8) were cocultured with AEC or A549, an alveolar-like cell line lacking class II Ag expression. After A549 or AEC coculture, p56lck activity in PB T-cells peaked at 2 min whereas p59fyn kinase activity continued to rise at 8 min. AEC (expressing class II Ags) stimulate PTK activity in both 3G8 and 3G4 cells. A549 stimulated p56lck in 3G8, but not in 3G4 cells. This activation of p56lck was not blocked by preincubation of A549 with anti-class I or anti-CD1d mAbs. An antibody generated in our laboratory, which recognizes an epithelial specific surface molecule (mAb L12) and which blocks AEC driven PBT proliferation, was shown to block PTK activity of peripheral blood T-cell lysates, though not of 3G8 lysates. These studies suggest that AEC are capable of stimulating CD4 and CD8 associated lck and CD3 associated fyn kinases through class II dependent and independent pathways.     

Binding of CD4 ligands induces tyrosine phosphorylation of phosphatidylinositol-3 kinase p110 subunit

We have previously reported that different putative CD4 ligands (anti-CD4 antibody, gp160 from HIV, synthetic peptides analogous to the residues 35-46 of HLA class II beta1 chain and residues 134-148 of HLA class II beta2 chain) down-regulate LFA-1-dependent adhesion between CD4+ T cells and HLA class II+ B cells, and also activate p56lck and the phosphatidylinositol-3 kinase (PI3-kinase) associated with the CD4-p56lck complex. It was demonstrated that the latter activation was dependent on the CD4-p56lck association. Since these results suggest a relationship between p56lck and PI3-kinase, we investigated whether PI3-kinase was tyrosine phosphorylated after CD4 binding and whether this phosphorylation was also dependent on the CD4-p56lck association. We show herein that CD4 binding increased tyrosine phosphorylation of the catalytic subunit p110 of PI3-kinase but not of the p85 subunit. Association between p56lck and PI3-kinase was constitutive, and was not modified after CD4 binding. In contrast, p110 tyrosine phosphorylation was inducible, transient and dependent on the CD4-p56lck association. The role of the tyrosine phosphorylation of p110-PI3-kinase following ligand binding to CD4 is unknown. We speculate that this event could link the activation of p56lck and of PI3-kinase after CD4 binding.     

Differences in binding of PI 3-kinase to the src-homology domains 2 and 3 of p56 lck and p59 fyn tyrosine kinases

Two T cell-specific src-family tyrosine kinases, p56 lck (lck) and p59 fyn (fyn), are implicated in regulating PI 3-kinase activity in response to interleukin-2 (IL-2), a cytokine that induces T cell proliferation. The src- homology domains 3 (SH3) of src-family kinases can directly interact with the PI 3-kinase regulatory subunit p85 and this may be a mechanism to regulate PI 3-kinase activity. In order to understand the mode of PI 3-kinase activation by the IL-2 receptor, we examined the association of PI 3-kinase to SH2 and SH3 domains of lck and fyn in IL-2-dependent kit 225 cells. The fyn SH3 domain bound more PI 3-kinase and its p85 subunit than the lck SH3 domain, while the lck SH2 domain bound more PI 3-kinase than the fyn SH2 domain. None of these interactions were regulated by IL-2. Low binding of PI 3-kinase to the lck SH3 domain was not observed in IL-2-independent Jurkat T cells. Thus, SH3 and SH2 domains of lck and fyn bound different amounts of PI 3-kinase, a feature that was dependent on a T cell type, but was not influenced by IL-2.     

Zinc is essential for binding of p56(lck) to CD4 and CD8alpha

Binding of the protein tyrosine kinase p56(lck) to T-cell co-receptors CD4 and CD8alpha is necessary for T-lymphocyte development and activation. Association of p56(lck) with CD4 requires two conserved cysteine residues in the cytosolic domain of CD4 and two in the amino terminus of p56(lck), consistent with the notion that these four residues coordinate a single metal atom (1-5). Here we demonstrate that Zn2+ is essential for complex formation. In an in vitro binding reaction, Zn2+ mediates p56(lck) association with a glutathione S-transferase (GST) fusion protein containing the cytosolic domains of CD4 or CD8alpha; no other metals tested support binding. Treatment of preformed GST-CD4.p56(lck) dimers with the Zn2+ chelators 1,10-O-phenanthroline or 8-hydroxyquinoline-5-sulfonic acid results in dissociation of GST-CD4 from p56(lck), consistent with the finding of Huse et al. (5) that Zn2+ is contained within similar complexes. Furthermore, we show that, within live cells, CD4.p56(lck) and CD8alpha.p56(lck) interactions occur in a zinc-dependent fashion. Specifically, pretreatment of the human Jurkat T-cell line with membrane permeable zinc chelators disrupts CD4.p56(lck) complexes, and treatment of COS cells co-expressing CD8alpha and p56(lck) with such chelators likewise leads to dissociation of CD8alpha.p56(lck) complexes. CD4. p56(lck) and CD8alpha.p56(lck) represent the first examples of intracellular proteins that require zinc as a bridge for heterodimerization.     

Cellular depletion of p56lck during thymocyte apoptosis

The src-related protein tyrosine kinase p56lck is thought to be important in regulating maturation and functional responsiveness of T cells and thymocytes. In the present studies we report that expression of p56lck is suppressed during apoptosis. Using primary cultures of rat thymocytes, we found that agents that are effective in inducing apoptosis, including okadaic acid, dexamethasone, and antibodies to the CD3 receptor, also deplete cells of p56lck. This process is rapid, occurring within 24 h, and is not due to cytotoxicity. Inhibition of DNA fragmentation in apoptotic cells with the endonuclease inhibitor ZnCl2 failed to prevent depletion of p56lck, suggesting that it was not a consequence of the DNA degradation process. Using the thymic lymphoma cell line LSTRA, apoptosis was also associated with cellular depletion of p56lck. In contrast to thymocytes, this process required 48-72 h possibly because these cells overexpress p56lck. Although at this time we are uncertain as to the precise role of p56lck in the process of apoptosis, our results indicate that changes in the expression of this protein in thymocytes is an important marker of programmed cell death.     

Lineage-specific control of superantigen-induced cell death by the protein tyrosine kinase p56(lck)

Cell fate decisions in developing T cells depend on signal transduction via the Ag-specific TCR. Although the same TCR can signal for survival or cell death, specific signals that lead to cellular activation or death have not been identified. To study the role of the src tyrosine kinase p56(lck) in cell death of developing T cells, we introduced endogenous mouse mammary tumor retroviruses encoding superantigens (SAG) into p56(lck)-deficient mice. We show that clonal deletion of SAG-reactive CD4+ T cells does occur in p56(lck) -/- mice. Clonal deletion was also evident in CD4+ cells expressing TCRVbeta7, which has low affinity for Mls-1a. However, clonal deletion did not occur in SAG-reactive CD8+ T cells from p56(lck) -/- mice. Deletion of cells expressing SAG-reactive TCRVbeta chains was apparent in CD4+ single-positive but not in CD8+ single-positive thymocytes. Both CD4+ and CD8+ peripheral T cells from Mls-1b p56(lck) -/- mice responded to Mls-1a in vitro. However, CD8+ T cells from Mls-1a p56(lck) -/- mice that did not undergo deletion could not respond to Mls-1a, indicating that these cells are functionally unresponsive. These data show that p56(lck) is not required for clonal deletion of SAG-reactive CD4+ lymphocytes, including CD4+ cell expressing TCRs with low affinity for the SAG. However, p56(lck) appears to be an important signal transduction molecule involved in deletion of SAG-reactive CD8+ T cells.     

Novel T cell antigen 4-1BB associates with the protein tyrosine kinase p56lck1

4-1BB is a 30-kDa inducible T cell Ag, and is expressed predominantly as a 55-kDa dimer on both CD4+ and CD8+ T lymphocytes. The cytoplasmic tail of 4-1BB contains the sequence Cys-Arg-Cys-Pro, which is similar to the sequence Cys-X-Cys-Pro, which mediates the binding of the CD4 and CD8 molecules to the protein tyrosine kinase p56lck. An anti-4-1BB mAb, 53A2, was used to determine whether 4-1BB may associate with p56lck. The 53A2 mAb specifically recognized 4-1BB on a CD8+ T cell line, CTLL-2, and coimmunoprecipitated a 56-kDa protein along with 4-1BB. Peptide mapping indicated that the 56-kDa phosphoprotein was identical to p56lck. The coimmunoprecipitation of p56lck with 4-1BB also occurred in nonlymphoid cells such as insect (Sf-21) and HeLa cells when the two recombinant proteins were coexpressed. Analysis of mutant p56lck recombinant proteins showed that two cysteine residues critical for p56lck-CD4 (or -CD8) complex formation are also required for the p56lck-4-1BB interaction. These studies establish that 4-1BB physically associates with p56lck.     

Differential requirement for p56lck in fetal and adult thymopoiesis

The protein tyrosine kinase p56lck is critical for the generation of mature thymocytes in adult mice. However its requirement during the maturation of thymocytes from the fetal to the adult stage has not been clearly defined. We analyzed prenatal and postnatal thymocyte maturation in mice deficient for p56lck (lck[-/-]). Before birth, lck appears to play a crucial role in the expansion and proliferation of CD4+CD8+ double positive thymocytes, whereas proliferation and absolute numbers of CD4-CD8- double negative thymocyte precursors remained within the normal range until the end of the second week postnatal. Three weeks after birth, the total numbers of double negative and immature single positive thymocytes underwent a dramatic reduction that correlated with a decrease in the double positive population. This ontogenic defect was associated with a significant decrease in the proliferation rates of thymocyte precursors. Our data suggest that signaling via p56lck kinase is differentially required within a given phenotypically defined thymocyte subpopulation, depending on its stage of thymocyte maturation.     

Growth factor receptor-bound protein 2 (Grb2) association with hemopoietic specific protein 1: linkage between Lck and Grb2

To analyze the growth factor receptor-bound protein 2 (Grb2) signaling pathway in lymphoid cells, we used expression cloning to isolate the genes encoding proteins that associate with Grb2. We find that the Src homology 3 domains of Grb2 directly associate, in vitro and in vivo, with murine hemopoietic specific protein 1 (HS1), a protein identical to Lck-binding protein 1. Because HS1 associates with the p56(lck) and p59(lyn) tyrosine kinases in vitro and in vivo, and becomes tyrosine phosphorylated upon various receptor stimulations, our present data suggest that HS1 mediates linkage between Lck or Lyn and Grb2 in lymphoid lineage cells.     

Two distinct pathways exist for down-regulation of the TCR

TCR down-regulation plays an important role in modulating T cell responses both during T cell development and in mature T cells. Down-regulation of the TCR is induced by engagement of the TCR by specific ligands and/or by activation of protein kinase C (PKC). We report here that ligand- and PKC-induced TCR down-regulation is mediated by two distinct, independent mechanisms. Ligand-induced TCR down-regulation is dependent on the protein tyrosine kinases p56(lck) and p59(fyn) but independent of PKC and the CD3gamma leucine-based (L-based) internalization motif. In contrast, PKC-induced TCR down-regulation is dependent on the CD3gamma L-based internalization motif but independent of p56(lck) and p59(fyn). Finally, our data indicate that in the absence of TCR ligation, TCR expression levels can be finely regulated via the CD3gamma L-based motif by the balance between PKC and serine/threonine protein phosphatase activities. Such a TCR ligation-independent regulation of TCR expression levels could probably be important in determining the activation threshold of T cells in their encounter with APC.