Major histocompatibility complex class I molecules modulate activation threshold and early signaling of T cell antigen receptor-gamma/delta stimulated by nonpeptidic ligands.

Killer cell inhibitory receptors and CD94-NKG2-A/B heterodimers are major histocompatibility complex class I-specific inhibitory receptors expressed by natural killer cells, T cell antigen receptor (TCR)-gamma/delta cells, and a subset of TCR-alpha/beta cells. We studied the functional interaction between TCR-gamma/delta and CD94, this inhibitory receptor being expressed on the majority of gamma/delta T cells. When engaged by human histocompatibility leukocyte antigen class I molecules, CD94 downmodulates activation of human TCR-gamma/delta by phosphorylated ligands. CD94-mediated inhibition is more effective at low than at high doses of TCR ligand, which may focus T cell responses towards antigen-presenting cells presenting high amounts of antigen. CD94 engagement has major effects on TCR signaling cascade. It facilitates recruitment of SHP-1 phosphatase to TCR-CD3 complex and affects phosphorylation of Lck and ZAP-70 kinase, but not of CD3 zeta chain upon TCR triggering. These events may cause abortion of proximal TCR-mediated signaling and set a higher TCR activation threshold.

Functional inactivation in the whole population of human V gamma 9/V delta 2 T lymphocytes induced by a nonpeptidic antagonist.

Nonpeptidic compounds stimulate human T cells bearing the TCR-gamma delta in the absence of major histocompatibility complex restriction. We report that one of these ligands, 2,3-diphosphoglyceric acid (DPG), which induces expansion of V gamma 9/V delta T cells ex vivo, antagonizes the same cell population after repetitive activation. Stimulation with DPG results in partial early protein tyrosine phosphorylation and a prolonged, but reversible, state of unresponsiveness to agonist ligands in V gamma 9/V delta 2, but not in other T cells. These findings show that TCR antagonism is a general phenomenon of T cells. However, in contrast to the clonal specificity of altered peptides antagonizing alpha beta T cells, all the tested V gamma 9/V delta 2 polyclonal cell lines and clones become unresponsive, a fact that may be relevant for the regulation of their response in vivo.

Degradation of B-Myb by ubiquitin-mediated proteolysis: involvement of the Cdc34-SCF(p45Skp2) pathway.

B-Myb, a highly conserved member of the Myb oncoprotein family, is a 110 kDa sequence-specific DNA binding protein expressed in virtually all proliferating cells. B-myb expression reaches its maximum at the G1/S phase boundary and during the S phase of the cell cycle. We have previously shown that B-Myb activity is cell cycle regulated and it is controlled by the antagonistic effects of cyclin D1 and A. Here we show that ectopic expression of cyclin A causes a pronounced reduction of B-Myb protein level. We provide evidence that in addition to triggering B-Myb activity an important effect of cyclin A is to facilitate multiple ubiquitination of B-Myb. The C-terminal domain of B-Myb is of key importance in mediating this effect of cyclin A. Contrary to full-length B-Myb, a C-terminal deletion mutant displays activity irrespective of cyclin A expression, does not undergo ubiquitination, and its half-life is not affected by cyclin A. Ectopic expression of either Cdc34 or the F-box protein p45Skp2, respectively the E2 and E3 components of a ubiquitination pathway that regulates the G1/S transition, accelerates degradation of B-Myb. We show that B-Myb physically and functionally interacts with components of the Cdc34-SCFp45Skp2 ubiquitin pathway and propose that B-Myb degradation may be required for controlling the correct alternation of events during progression through the cell division cycle. Oncogene (2000).

PCTAIRE-1: characterization, subcellular distribution, and cell cycle-dependent kinase activity.

PCTAIRE-1 is a member of the cyclin-dependent kinase (cdk) family whose function is unknown. We examined the pattern of PCTAIRE-1 protein expression in a number of normal and transformed cell lines of various origins and found that the kinase is ubiquitous. Indirect immunofluorescence indicated that PCTAIRE-1 exhibits cytoplasmic distribution throughout the cell cycle. Confocal microscopy showed that PCTAIRE-1 does not colocalize with components of the cytoskeleton or with the endoplasmic reticulum. We found that endogenous PCTAIRE-1 and ectopically expressed PCTAIRE-1 display kinase activity when myelin basic protein is used as an acceptor substrate. Similar to other members of the cyclin-dependent kinase family, PCTAIRE-1 seems to require binding to a regulatory subunit to display kinase activity. PCTAIRE-1 activity is cell cycle dependent and displays a peak in the S and G2 phases. We show that the low level of kinase activity observed until the onset of S phase correlates with elevated tyrosine phosphorylation of the molecule.

Self glycolipids as T-cell autoantigens.

Multiple sclerosis (MS) is a chronic inflammatory disease of the central nervous system characterized by discrete areas of demyelination. An autoimmune response against components of myelin is thought to contribute to disease pathogenesis. Here we identify glycolipids as new targets recognized by T cells in multiple sclerosis patients. Circulating T cells reactive with glycolipids are more frequent in MS patients than in control donors as shown by enzyme-linked immunospot assay. They specifically recognize different types of glycolipids, such as gangliosides, sulfatide and galactosylceramide and release IFN-gamma and TNF-alpha. T cells specific for gangliosides were found to be CD8+, TCR alphabeta+, restricted by the MHC-like CD1b molecule and specific for epitopes residing in the carbohydrate moiety of gangliosides. Our findings suggest that in addition to self proteins, self glycolipids may represent potential source of autoantigens recognized by T cells in autoimmune diseases.

High frequency of Epstein-Barr virus (EBV) lymphoblastoid cell line-reactive lymphocytes in cord blood: evaluation of cytolytic activity and IL-2 production.

We investigated natural immunity towards autologous EBV lymphoblastoid cell lines (EBV-LCL) in the cord blood. Cord blood lymphocytes (CBL) from 20 healthy neonates were examined together with three EBV+ and one EBV- adult donors. We found that high frequencies of EBV-LCL-reactive cytotoxic lymphocytes, ranging from 1/190 to 1/12,205 were detectable in EBV- and EBV+ donors, as well as in the cord blood of 15 out of 20 neonates. Surface phenotype analysis, depletion experiments with MoAbs specific for T and natural killer (NK) lymphocyte subsets, and T lymphocyte cloning procedures strongly indicate virus-specific cytotoxic T lymphocytes (CTL) as the major population responsible for the lysis of autologous EBV-LCL in EBV+ donors. Conversely, a high frequency of NK cells seems to be involved in the killing activity observed in neonates and in the EBV- donor. Frequencies of EBV-LCL-induced IL-2-producing lymphocytes were high in EBV+ donors (range 1/2247-1/6633) and heterogeneous, but consistent, in cord blood (range 1/5072-1/57,819) and in the EBV- adult (1/17,148). CD8+ lymphocytes were responsible for IL-2 production in EBV+ individuals, while CD4+ T cells were charged with this role in cord blood and in the EBV- donor. These data demonstrate that CBL are able to develop a strong innate immunity, directed against autologous EBV-infected cells, mediated by both NK cells and CD4+ T lymphocytes. This characteristic may be relevant for protection against viral infections in both neonates and patients given cord blood transplantation (CBT).

Locally inducible CD66a (CEACAM1) as an amplifier of the human intestinal T cell response.

CD66a is an adhesion molecule member of the carcinoembryonic antigen immunoglobulin-like family present on the surface of epithelial cells, granulocytes and IL-2 activated T cells. We studied whether CD66a is expressed in vivo by T lymphocytes and whether it affects TCR-mediated activation. CD66a was detected by histochemistry, flow cytometry analysis, reverse transcription PCR and Western blot on fresh colon biopsies and T cell clones. A fraction of T cells in the lamina propria express CD66a, which is induced by IL-7 and IL-15 cytokines. T cells express four different CD66a splice variants and at least two forms of the protein are glycosylated in a cell type-specific manner. Triggering of CD66a on T cells with physiological ligands or with specific mAb increases TCR-mediated lymphokine release, in an antigen dose-independent manner. This effect requires the presence of the CD66a intracytoplasmic domain, which contains two immunoglobulin receptor family tyrosine-based inhibitory motif-like domains, as shown by stimulation of Jurkat cells transfected with different CD66a isoforms and is associated with increased induction of AP1 and NFkappaB transcription factors. These data indicate that CD66a amplifies T cell activation and thus could facilitate crosstalk between epithelial cells and T lymphocytes in intestinal immune response.