148 research outputs found

    CD4-Lck through TCR and in the absence of Vav exchange factor induces Bax increase and mitochondrial damage

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    In the present study, we aimed to demonstrate that CD4 may represent a critical turning point that governs the apoptotic and survival programs in T cells, without modifying the physical association with the TCR-CD3 complex. To address this issue, we have explored the possibility that the activation of CD4 may transduce apoptotic signals unless signaling effectors neutralize them. Our data show that in Jurkat T cells CD4 engagement by Leu3a mAb results in a rapid and strong increase of Lck kinase activity, subsequent alterations of mitochondrial membrane potential, and apoptosis. Critical parameters are coassociation of CD4/Lck with TCR/CD3 and up-regulation of the proapoptotic protein Bax. Indeed, Leu3a-mediated Lck activation failed to induce apoptotic features in Jurkat cells either defective for TCR/CD3 or overexpressing the antiapoptotic protein Bcl-2. Furthermore, we demonstrate that Leu3a treatment of Jurkat cells overexpressing Vav results in the inhibition of mitochondrial damage and apoptosis; this rescue effect is accompanied with a significant decrease of Bax expression observed in apoptotic cells. Our evidence that the activation of Lck activates in T cells apoptotic pathways which are counteracted by Vav, a signaling molecule that cooperates with CD28 to boost TCR signals, suggests a novel role for costimulation in protecting T cells from CD4-mediated cell death

    Dexamethasone-dependent modulation of human lymphoblastoid B cell line through sphingosine production

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    The relationship between dexamethasone-dependent changes in intracellular sphingosine levels, energy and phospholipid metabolism have been investigated by P-31-NMR spectroscopy and high-performance liquid chromatography. The cellular functions have been evaluated by cellular growth and immunoglobulin M secretion (IgM). Significant increases in intracellular phosphorylcholine (PCho), extracellular choline (Cho), and endogenous sphingosine levels were observed only at 30 min incubation with dexamethasone. These results confirmed a sphingosine-dependent hydrolysis of choline-linked phospholipids (Miccheli, A., Ricciolini, R., Piccolella, E., Delfini, M. and Conti, F. (1991) Biochim. Biophys. Acta 1093, 29-35). Furthermore, no significant variations were evidenced at hours 1, 2, 6 and 18 of incubation. Dexamethasone causes an inhibition of cellular growth and IgM secretion as well as the sphingosine treatment. The results suggest that the effect of dexamethasone may be mediated by endogenous sphingosine production in Epstein-Barr virus transformed B lymphocytes

    Apoptosis: prospects for pharmacological manipulation of activated programmed cell death in immunological disease.

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    Apoptosis of lymphoid cells is an important process in regulating the development and maintenance of the immune system. In addition, apoptosis can be considered as the primary cause of a variety of diseases. The decision of a cell to undergo apoptosis or to proliferate can be influenced by several activating stimuli, as well as by the phenotype of the cell and its stage of activation. Consequently, apoptosis represents one feature of the multiple events that regulate a correct immune response. Here, we discuss the regulatory pathways responsible for the induction of apoptosis in normal and pathological conditions, and analyse the possible substances interfering with these pathways with particular attention to the levels at which these substances act

    SUBTELOMERIC AS WELL AS TELOMERIC SEQUENCES ARE LOST FROM CHROMOSOMES IN PROLIFERATING B-LYMPHOCYTES

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    B lymphocytes purified from peripheral blood can be normally cultured in vitro for only one doubling. They can undergo an unlimited number of cell divisions after transformation with a DNA tumor virus such as the Epstein-Barr virus. We have shown that the terminal restriction fragments of virus transformed B lymphocytes are shortened in the course of proliferation and that this process is accompanied by structural modifications. We have identified the sequences that are lost during the shortening process by hybridization to the canonical human telomeric simple repeat TTAGGG, to other simple sequences that are found at the ends of human chromosomes, and to a human subtelomeric sequence. We have observed that by 20 doublings over half the TTAGGG sequences, but few or no TGAGGG sequences, are lost from the TRFs. The subtelomeric sequence was removed from most of the TRFs on which it was present. The implications that these observations have on the problems of cell senescence and oncology are discussed

    Modulation of human lymphoblastoid B cell line by phorbol ester and sphingosine. A 31P-NMR study

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    Changes in phospholipid and energy metabolism in Epstein-Barr Virus transformed B lymphocytes (EBV-B), induced by phorbol 12,13-dibutyrate (PD) and sphingosine (an inhibitor of protein kinase C), have been evaluated by 31P-NMR spectroscopy. The effects of PD and sphingosine on [3H]thymidine incorporation have also been studied. An increase in phosphorylcholine (PCho) levels has been observed in sphingosine and sphingosine + PD treated cell after 30 min of incubation, whereas no change was observed in lymphocytes incubated with PD during the same period. Extracellular choline levels increased in sphingosine treated cells but decreased in PD treated cells. Hence, a sphingosine-dependent hydrolysis of choline-linked phospholipids is suggested. A time-dependent reduction of PCho observed after 120 min PD incubation is consistent with an increase of the synthesis of choline-linked phospholipids. © 1991

    Both Maturation and Survival of Human Dendritic Cells are Impaired in the Presence of Anergic/Suppressor T Cells

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    T cell suppression is a well established phenomenon, but the mechanisms involved are still a matter of debate. Mouse anergic T cells were shown to suppress responder T cell activation by inhibiting the antigen presenting function of DC. In the present work we studied the effects of co-culturing human anergic CD4+ T cells with autologous dendritic cells (DC) at different stages of maturation. Either DC maturation or survival, depending on whether immature or mature DC where used as APC, was impaired in the presence of anergic cells. Indeed, MHC and costimulatory molecule up-regulation was inhibited in immature DC, whereas apoptotic phenomena were favored in mature DC and consequently in responder T cells. Defective ligation of CD40 by CD40L (CD154) was responsible for CD95-mediated and spontaneous apoptosis of DC as well as for a failure of their maturation process. These findings indicate that lack of activation of CD40 on DC by CD40L-defective anergic cells might be the primary event involved in T cell suppression and support the role of CD40 signaling in regulating both activation and survival of DC
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