Showing papers by "Eric Vivier published in 1991"

Coassociation of CD26 (dipeptidyl peptidase IV) with CD45 on the surface of human T lymphocytes.

Abstract: In the present report, we demonstrated that modulation of CD26 from T cell surface induced by antiCD26 (1F7) led to enhanced phosphorylation of CD3 zeta tyrosine residues and increased CD4 associated p56lck tyrosine kinase activity. We further showed that CD26 was comodulated on the T cell surface with CD45, a known membrane-linked protein tyrosine phosphatase and that anti-CD26 was capable of precipitating CD45 from T cell lysates. These findings strongly suggest that CD26 may be closely associated with the CD45 protein tyrosine phosphatase on T cell surface and further support the notion that the interaction of CD26 with CD45 results in enhanced tyrosine kinase activity, zeta chain phosphorylation, and T cell activation.

Tyrosine phosphorylation of the Fc gamma RIII(CD16): zeta complex in human natural killer cells. Induction by antibody-dependent cytotoxicity but not by natural killing.

Abstract: NK cells are large granular lymphocytes capable of killing certain tumor cells and virally infected cells in a non-MHC-restricted manner. NK cells can also effect an antibody dependent cytotoxicity that is triggered by CD16, an FcR for IgG. In NK cells, CD16 is expressed in association with zeta, a signal transducing subunit of the TCR complex. Here we show that, just as T cell activation via the TCR complex results in tyrosine phosphorylation of zeta TCR, NK cell activation via CD16 results in tyrosine phosphorylation of zeta NK. Whereas antibody-dependent cytotoxicity also results in tyrosine phosphorylation of zeta, natural cytotoxicity does not. Our results indicate that zeta functions as a transducing element for antibody dependent, but not antibody independent killing by NK cells. Consequently, NK cells are likely to express at least two distinct receptor complexes capable of triggering cytolytic effector function.

Structural similarity between Fc receptors and T cell receptors. Expression of the gamma-subunit of Fc epsilon RI in human T cells, natural killer cells and thymocytes.

Abstract: The TCR complex is composed of a clonotypic heterodimer (Ti alpha:beta or gamma:delta) noncovalently associated with the CD3 complex (gamma, delta, and epsilon), and with one or more disulfide-linked dimers whose components are designated zeta and eta. zeta and eta are alternative transcripts of a common gene and are structurally related to the gamma-subunit of the FcR for IgE expressed on mast cells and basophils (Fc epsilon RI). Recent evidence suggests that gamma can also be expressed in natural killer cells and in a murine cytotoxic T cell line, CTLL. Because zeta, eta, and gamma have the potential to join together to form disulfide linked homo- and heterodimers, it has been postulated that alternative dimeric forms composed of these zeta-related subunits might subserve unique signal transducing functions in hematopoietic cells. We have used mAb reactive with zeta and gamma to systematically examine the expression of these zeta-related dimers in human T cells, NK cells, and thymocytes. Our results show that each cell type expresses characteristic combinations of zeta-related homo- and hetero-dimers, and are therefore consistent with the possibility that these subunits contribute to the functional heterogeneity of lymphocyte subsets.

CD2 is functionally linked to the ζ‐natural killer receptor complex

Abstract: Natural killer (NK) cells express two distinct surface receptors capable of triggering cytolytic effector function. The first is CD16, an immunoglobulin Fc receptor that allows NK cells to mediate antibody-dependent killing (ADCC). NK cells express CD16 in association with zeta, a signal-transducing subunit that is also a component of the T cell receptor complex. Activation of NK cells via CD16 results in tyrosine phosphorylation of zeta. The second NK cell triggering receptor is CD2, a 50-55-kDa cell surface molecule that is also expressed on T cells. Here we show that NK cell activation induced by mAb reactive with CD2 (either anti-T11.1 alone or with anti-T11.2 in combination) also results in the tyrosine phosphorylation of zeta. Our results indicate that CD2 is functionally linked to the CD16-zeta complex and suggest that the zeta subunit plays a central role in the signal transduction pathways utilized by NK cells.

Immunoregulatory functions of paf-acether. VI. Dual effect on human B cell proliferation

Abstract: The role of paf-acether (paf), a phospholipid cytokine, in the modulation of human B cell function was investigated. Paf, from 1 x 10(-5) M to 10(-6) M, decreased B cell proliferation induced by both phorbol myristate acetate (PMA) and anti-IgM antibodies (anti-IgM Ab). By contrast, 1 x 10(-7) M to 1 x 10(-9) M paf enhanced PMA triggered, but not anti-IgM triggered B cell proliferation. B cell proliferation was modulated between 24 and 72 hr of culture indicating that the effect of paf did not merely reflect a shift in proliferation kinetics. Interestingly, paf also enhanced the spontaneous proliferation of a Burkitt lymphoma-derived B cell line, Raji, which suggests that paf can directly act on B cells. The modulatory effect of paf on peripheral blood B cells was independent of PMA concentration, yet the effect on Raji cells was dependent upon cell density. The data suggest that paf is a potent modulator of B cell function, and may be involved in the control of humoral immune response.

Expression and tyrosine phosphorylation of the T cell receptor zeta-subunit in human thymocytes.

Abstract: Recent evidence suggests that the zeta-subunit of the TCR complex plays a critical role in transducing signals initiated by the Ag receptor heterodimer. Because thymic maturation involves specific interactions between the TCR complex and thymic stromal cells, the zeta-subunit has been postulated to also play a role in this process. To assess the potential for zeta to contribute to thymocyte maturation, we have used an anti-zeta mAb (TIA-2) to quantitate its expression in mature (CD3bright) and immature (CD3dim and CD3-) populations of human thymocytes. Using both flow cytometric and immunoblotting analysis, we found that the relative expression of TCR-zeta varied directly with the surface expression of CD3. Importantly, TCR-zeta was detected in the majority of CD3- thymocytes, indicating that its expression precedes the surface appearance of CD3:TCR. In thymocytes, TCR-zeta was found to be constitutively phosphorylated on tyrosine residues. The relative expression of phospho-zeta varied directly with the maturational stage of the thymocyte, with the mature (CD3bright), single positive cells accounting for most of the phospho-zeta found in the human thymus. The expression of phospho-zeta could be significantly increased by activating thymocytes with mAb reactive with either CD3 or CD2. These results suggest that TCR-zeta is functionally linked to the major thymocyte activation receptors.