Association Of P56lck Research Articles

CTLA-4 suppresses proximal TCR signaling in resting human CD4(+) T cells by inhibiting ZAP-70 Tyr(319) phosphorylation: a potential role for tyrosine phosphatases.

The balance between positive and negative signals plays a key role in determining T cell function. CTL-associated Ag-4 is a surface receptor that can inhibit T cell responses induced upon stimulation of the TCR and its CD28 coreceptor. Little is known regarding the signaling mechanisms elicited by CTLA-4. In this study we analyzed CTLA-4-mediated inhibition of TCR signaling in primary resting human CD4(+) T cells displaying low, but detectable, CTLA-4 cell surface expression. CTLA-4 coligation with the TCR resulted in reduced downstream protein tyrosine phosphorylation of signaling effectors and a striking inhibition of extracellular signal-regulated kinase 1/2 activation. Analysis of proximal TCR signaling revealed that TCR zeta-chain phosphorylation and subsequent zeta-associated protein of 70 kDa (ZAP-70) tyrosine kinase recruitment were not significantly affected by CTLA-4 engagement. However, the association of p56(lck) with ZAP-70 was inhibited following CTLA-4 ligation, correlating with reduced actions of p56(lck) in the ZAP-70 immunocomplex. Moreover, CTLA-4 ligation caused the selective inhibition of CD3-mediated phosphorylation of the positive regulatory ZAP-70 Y319 site. In addition, we demonstrate protein tyrosine phosphatase activity associated with the phosphorylated CTLA-4 cytoplasmic tail. The major phosphatase activity was attributed to Src homology protein 2 domain-containing tyrosine phosphatase 1, a protein tyrosine phosphatase that has been shown to be a negative regulator of multiple signaling pathways in hemopoietic cells. Collectively, our findings suggest that CTLA-4 can act early during the immune response to regulate the threshold of T cell activation.

Selective induction of p38 mitogen-activated protein kinase activity following A6H co-stimulation in primary human CD4(+) T cells.

We have recently described the novel A6H antigen expressed on human peripheral blood T cells and on renal cell carcinoma cells. Cross-linking of the A6H antigen results in co-stimulation of human CD4(+) T cells, characterized by induction of the transcription factor activator protein-1 (AP-1), proliferation and prominent IFN-gamma production, but low levels of IL-2. The proximal signaling events associated with A6H ligation include protein tyrosine kinase phosphorylation and association of p56 Lck, ZAP-70 and the TCR zeta chain. In this study we show that A6H co-stimulation selectively induced activation of the p38 mitogen-activated protein kinase (MAPK) pathway, whereas no significant c-Jun N-terminal kinases (JNK) activity was observed. In contrast, CD28 co-stimulation resulted in both p38 and JNK MAPK activities. Human CD4(+) T cells co-stimulated with A6H up-regulated AP-1 binding proteins reactive with a proximal AP-1 binding site in the human IFN-gamma promoter and a consensus AP-1 binding site. Moreover, preincubation of the T cells with the specific p38 MAPK inhibitor SB203580 resulted in decreased AP-1 binding following A6H or CD28 co-stimulation. This suggests that the p38 MAPK pathway is required for induction of full AP-1 binding activity in human CD4(+) T cells co-stimulated with A6H or CD28. Blocking the p38 MAPK pathway by SB203580 completely inhibited IFN-gamma production from A6H co-stimulated T cells and radically reduced IFN-gamma production from T cells co-stimulated with anti-CD28. In contrast, no significant inhibition of IL-2 production was seen after blocking of the p38 MAPK in either A6H or CD28 co-stimulated T cells. Since the p38 MAPK recently has been shown to be critically involved in regulation of IFN-gamma production from T(h)1 cells, we propose that A6H co-stimulation induces a specific pathway, mediated via p38 and AP-1 activation, for induction of a T(h)1 profile in human CD4(+) T cells.

Interleukin-18 Induces Activation and Association of p56lck and MAPK in a Murine TH1 Clone

Interleukin-18 (IL-18) was identified as an inducer of interferon-γ (IFN-γ) production by stimulated T cells. In this study, we used an ovalbumin-responsive murine Th1 clone (OVA#4), in which DNA synthesis was reportedly enhanced after IL-18 treatment in the presence of a non-mitogenic TCR/CD3 stimulus, to examine signal transduction pathways. In the presence of the stimulus, IL-18 induced the appearance of tyrosine-phosphorylated proteins and herbimycin A inhibited DNA synthesis. It is suggested that protein tyrosine kinase (PTK) mediated signaling is induced by IL-18. Specifically, IL-18 induced phosphorylation of phosphorylates p56lck(LCK) and mitogen-activated protein kinase (MAPK). IL-18 alone induced the kinase activities of both LCK and MAPK, and the activities were increased by the TCR/CD3 stimulus. Simultaneously, IL-18 induced the association of LCK with MAPK and this was also increased by the TCR/CD3 stimulus. The activation of the LCK-MAPK pathway correlated with enhanced DNA synthesis in OVA#4 cells. These results suggest that the LCK-MAPK pathway is involved in IL-18 signaling and that IL-18 may play an important role in modification of TCR/CD3-mediated response.

CD45 Protein-tyrosine Phosphatase Associates with the WW Domain-containing Protein, CD45AP, through the Transmembrane Region

CD45 is a transmembrane protein-tyrosine phosphatase required for antigen receptor signaling in lymphocytes. CD45 activates the Src family protein-tyrosine kinases, p56lck and p59fyn, by dephosphorylating a negative regulatory tyrosine in the carboxyl terminus. Immunoprecipitation of CD45 precipitates p56lck and CD45AP. Although the function of CD45AP is unknown, it has been proposed to be an adapter between p56lck and CD45. To assess the ability of CD45AP to function as an adapter, we determined the regions required for the interaction with CD45 by expressing chimeric proteins in HeLa cells. CD45AP has a region similar to a potential protein-protein interaction domain, the WW domain. Surprisingly, this domain was not necessary for the association with CD45. Rather, a 40-amino acid sequence encompassing the putative transmembrane domain of CD45AP was sufficient to mediate binding to CD45. Similarly, a 39-amino acid sequence encompassing the CD45 transmembrane region was sufficient to direct the interaction with CD45AP. Expression of p56lck with CD45AP resulted in an interaction that could only be detected by in vitro kinase reaction, suggesting that the association of p56lck and CD45AP is weak. These data support a model in which CD45AP links CD45 with other proteins but not necessarily p56lck.

FK506 and Cyclosporin A Each Inhibit Antigen-Specific Signaling in the T Cell Line 171 in the Absence of a Calcium Signal

Antigen-specific signal transduction leading to IL2 induction and secretion in the T cell line 171 is augmented by association of p56 lck with CD4. Although no change in cytoplasmic calcium level ([Ca 2+]i) was detectable during antigen-specific signal transduction of the 171-CD4 + cells, IL2 induction was inhibited by FK506 and CsA. Since these drugs are thought to act selectively by inhibiting calcineurin, a calcium-calmodulin-dependent protein phosphatase associated with activation of the IL2 promoter, we considered the possibility that calcineurin is constitutively active in 171 cells. However, we found no evidence for this because PMA failed to supplement any putatively active calcineurin to induce IL2 secretion. We suggest that IL2 secretion induced by antigen presentation to TCR/CD4/p56 kk requires an FK506 and cyclosporin A-sensitive step which may be independent of calcium signaling. Rapamycin did not inhibit IL2 secretion induced by TCR/CD4/p56 lck, emphasizing the specific action of FK506 and cyclosporin A.

Association of p56lck with the cytoplasmic domain of CD4 modulates HIV-1 expression.

To investigate the role played by the cytoplasmic domain of the CD4 glycoprotein in the process of HIV infection, we have transfected two CD4-negative human T cell lines with cDNAs encoding the full-length CD4 and a truncated form of the molecule, lacking most of the cytoplasmic domain. Levels of viral replication were significantly higher in cells carrying the truncated version of CD4, in comparison with cells expressing the full-length CD4, as measured by the percentage of cells expressing viral p24 protein and the number of infectious particles released into culture supernatants. The extent of viral entry and reverse transcription was similar in each case, as monitored by an enzymatic test and quantitative PCR. Quantitative differences at RNA and protein levels were responsible for changes in viral production. To further characterize the mechanisms responsible for decreased rates of HIV replication in CD4-expressing cells we have treated the different cell lines, very early after HIV infection, with azidothymidine and soluble CD4, two antiviral agents that inhibit replication of HIV at different stages in the virus replicative cycle. Results from these experiments indicate that a cellular signal is mediated by the CD4 molecule, which negatively regulates the expression of viral DNA already present in such cells. This signal would be initiated following oligomerization of the CD4 molecule by the virus itself. Results from experiments with a CD4 construct containing mutations of the cysteine residues which are responsible for association of CD4 with p56lck demonstrate that p56lck is implicated in the transduction of the signal negatively regulating HIV replication.

Association of p56lck with IL-2 receptor beta chain is critical for the IL-2-induced activation of p56lck.

Previous studies demonstrate that p56lck, a member of the src-family of protein tyrosine kinases (PTKs), can physically associate with the interleukin-2 (IL-2) receptor beta chain (IL-2R beta) and that IL-2 receptor engagement stimulates p56lck activity. To examine the mechanisms underlying p56lck PTK activation by IL-2, we established a mouse pro-B cell line, BAF-B03, expressing both IL-2R beta (either the wild-type or mutant forms) and mouse p56lck at high levels. BAF-B03 cells expressing a mutant IL-2R beta chain lacking an 'acidic' region of the cytoplasmic domain, previously shown to be essential for association with p56lck, fail to induce p56lck PTK activation upon IL-2 stimulation. This suggests that the association of p56lck with the IL-2R beta chain, despite its low stoichiometry, is required for the activation of cellular p56lck PTK upon IL-2 stimulation. Intriguingly, BAF-B03 cells expressing an IL-2R beta chain which lacks a different cytoplasmic region, the 'serine-rich' region, also fail to activate p56lck in response to IL-2. Hence, physical association of p56lck with the IL-2R beta chain is not by itself sufficient to permit IL-2-mediated regulation of this PTK. Additional experiments suggest that one result of PTK activation is the accumulation of c-fos and c-jun transcripts.