1,721,041 research outputs found
Responses of mouse lymphocytes to extracellular adenosine 5'-triphosphate (ATP). Lymphocytes with cytotoxic activity are resistant to the permeabilizing effects of ATP
No full textAbstract
The effects of extracellular ATP on plasma membrane permeability in mouse lymphocytes were studied with plasma membrane depolarization, uptake of ethidium bromide, and release of lactate dehydrogenase as indicators of increased permeability. Extracellular ATP induced sustained depolarization of plasma membrane potential as well as uptake of low m.w. fluorescent markers in mouse lymphocytes derived from thymus and spleen, and in two lymphoma lines YAC-1 and MBL-2. The fully ionized form ATP4- rather than MgATP2- mediated the increased permeability of the plasma membrane. Although prolonged exposure to exogenous ATP ultimately lysed the lymphocytes, two CTL populations (CHM-14 clone and CTLL-2 line) and IL-2-treated spleen lymphocytes with unrestricted killing activity were highly resistant to the permeabilizing action of extracellular ATP at all concentrations tested. In addition, CTL derived from primary immune peritoneal exudate and enriched by in vitro culture for 5 days in the presence of specific stimulator cells were also resistant to this permeabilizing effect. These findings show that exogenous ATP has a lytic effect on mouse lymphocytes but not on CTL, and suggest a role for ATP in cell-mediated cytotoxicity
Meccanismi molecolari della lisi mediata dai linfociti citotossici
No full textMeccanismi molecolari della lisi mediata dai linfociti citotossic
DNA-based vaccination against tumors expressing the P1A antigen
No full textBased on experience acquired in the last few years, we describe some technical steps and provide suggestions on how to induce an immune response against tumors expressing the weakly immunogenic antigen P1A by means of a DNA-based vaccination approach. P1A is the product of a normal mouse gene, which shares many characteristics with already identified human tumor-associated antigens, and therefore represents a useful experimental model to evaluate the efficacy of new vaccination strategies potentially applicable to the field of human tumors. Information gained with this model has been applied with success in other experimental settings, and thus we think that the procedure described herein may constitute a valid platform that can be implemented and further refined
T lymphocyte tolerance and early appearance of virus-induced cell surface antigens in Moloney-murine leukemia virus neonatally injected mice.
No full text
Progressing Moloney sarcoma virus (M-MSV) induced tumors: effect of host's immunomanipulation.
No full textReversibility of lymphokine-induced NK-like activity in virus-specific cytotoxic T-lymphocyte clones.
No full textA limiting dilution microculture system, supplemented with a source of interleukin-2 (IL-2), was employed to evaluate the frequency of Moloney-murine leukaemia/sarcoma virus (M-MuLV/M-MSV)-specific cytotoxic T-lymphocyte precursors (CTL-p) which also exhibited NK-like activity. Spleen cells, obtained from M-MuLV/M-MSV regressor mice, were restimulated in bulk secondary mixed leucocyte-tumour cell cultures (MLTC), and subsequently plated in a culture medium supplemented with two different supernatants (SN) produced following PMA-stimulation of the same EL-4 thymoma cell line. SN 20, obtained from the cell line maintained in vitro, contained IL-2 and only negligible amounts (less than 3 U/ml) of interferon (IFN), while SN 19, obtained after passage of the ascitic form of EL-4 thymoma in syngeneic mice, contained both IL-2 and IFN in high titres. The frequency of CTL-p specific for MBL-2 lymphoma cells was high and comparable in cultures supplemented with both SN (1/2 X 84 cells and 1/2 X 40 cells, respectively), while the frequency of CTL-p directed against NK-susceptible YAC-1 target cells was low in SN 20 (1/90 cells) and high in SN 19 (1/5 X 40 cells). An analysis of individual microcultures established at low cell dose (1 cell/well) indicated that specific and NK-like activity could be ascribed to the same precursor cells. Furthermore, using different long-term CTL clones, we observed that, after passage in SN 20, double-reactive clones gradually lose the capacity to lyse NK-susceptible targets, while most of MBL-2 specific clones acquired NK-like activity following a few passages in SN 19. Therefore, the induction of NK-like activity is reversible and may be modulated by soluble factors present in supernatant in which CTL clones are maintained. Double-reactive clones were unable to lyse NK-resistant allogeneic tumour cells or normal syngeneic blast cells. A few clones cross-reacting with H-2d alloantigens also exhibited NK-like activity when maintained in SN 19. The different pattern of CTL clone activity was associated with a morphological change in the clones themselves: the acquisition of double activity was accompanied by an increase in cell size and the appearance of numerous cytoplasmic granules. All CTL clones were phenotypically Thy-1+ and Lyt-2+ on indirect immunofluorescence and complement-dependent cytotoxicity investigation.(ABSTRACT TRUNCATED AT 400 WORDS
Reduction in precursors of cytotoxic T lymphocytes and of cells with natural killer-like activity in spleens of cyclophosphamide-treated mice.
No full textThe effect of cyclophosphamide (CY) on precursors of cytotoxic T lymphocytes (CTL), specific for Moloney-murine leukemia virus (M-MuL V)- induced antigens, and on the precursors of cells having natural killer (NK)-like activity was studied by means of limiting dilution assay. Pre-treatment with a single CY dose of 100 mg/kg induced a marked reduction not only in the total spleen cell number but also in the frequencies of M-MuL V-specific CTL, and NK-like cell precursors. Maximal effect was obtained 2 days after CY injection, and a gradual recovery in both total spleen cell number and cytotoxic activity was achieved by day 12. These results confirm that CY exerts a strong but transient immunodepressive effect
Role of accessory cells in the induction of a secondary cytotoxic response to Moloney murine sarcoma virus-induced tumors.
No full textThe role of Ia-positive accessory cells in the generation of a secondary cytotoxic response to tumor-associated antigens induced by Moloney murine sarcoma virus (M-MSV) was evaluated. Spleen cells from M-MSV-immune A.TL mice, depleted of accessory cells by anti-Iak serum plus C treatment and stimulated in secondary mixed leukocyte tumor cell culture (MLTC) with syngeneic Ia-negative A6ATL Moloney leukemic cells, failed to generate virus-specific cytotoxic T lymphocytes (CTL). CTL generation in Ia-depleted MLTC may be reconstituted by the addition of nonimmune Ia-positive spleen or peritoneal cells obtained not only from syngeneic A.TL but also from I-incompatible A.TH mice. This lack of restriction observed in accessory cell function is explained in terms of a nonspecific mechanism of CTL triggering mediated by soluble factors. In fact, IL 2 as well as supernatants obtained from I region-incompatible cultures consisting of M-MSV-immune, Ia-depleted A.TL spleen cells and A.TH Ia-positive cells, reconstituted secondary virus-specific CTL generatio
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