Apoptosis is a physiologic process in normal development, tissue remodeling and cell turnover. This cell death is noninflammatory and nonimmunogenic, but when associated with a danger signal, it can activate the immune system. However, the capacity of apoptotic cells to activate the immune system is not clearly established, although dead tumor cells have been largely exploited as a source of TAA in cellular therapy against cancer. From these cellular preparations, contradictory results have been reported on the effect of apoptotic cells as an effective source of TAA and their immunologic properties. These conflicting data strongly suggest that the optimal preparation of apoptotic cells derived from tumor cells remains to be determined. In this work, we studied and compared the efficacy of antitumor immune responses derived from repeated injections using different preparations of apoptotic cells. We investigated the importance of HSP70 and TGF- expression in apoptotic cells used in the treatment of an established and nonimmunogenic rat carcinoma. UVB-mediated apoptosis did not affect TGF- expression in tumor cells, whereas HS treatment sharply downregulated it. Thus, downregulation of TGF- permits normal DC activation and maturation and the induction of tumor immunity. We conclude that HS followed by UVB irradiation is a superior source of tumor antigen for the treatment of established tumors. Future work will determine whether HS independently upregulates HSP70, thereby suppressing expression of active TGF-, or whether the 2 are linked via a still undefined mechanism.
Though the duration of a single round of replication is an important biological parameter, it has been determined for only few viruses. Here, this parameter was determined for Cauliflower mosaic virus (CaMV) in transfected protoplasts from different hosts: the highly susceptible Arabidopsis and turnip, and Nicotiana benthamiana, where CaMV accumulates only slowly. Four methods of differing sensitivity were employed: labelling of (1) progeny DNA and (2) capsid protein, (3) immunocapture PCR,, and (4) progeny-specific PCR. The first progeny virus was detected about 21 h after transfection. This value was confirmed by all methods, indicating that our estimate was not biased by the sensitivity of the detection method, and approximated the actual time required for one round of CaMV replication. Unexpectedly, the replication kinetics were similar in the three hosts; suggesting that slow accumulation of CaMV in Nicotiana plants is determined by non-optimal interactions in other steps of the infection cycle.
Dendritic cells (DC) are activated by pathogens, cytokines and activated T cells. We investigated the impact of a transient initial DC stimulation on the kinetics of maturation using a combination of double-stranded RNA and TNFalpha and subsequent restimulation by T cell-derived stimuli. Transient stimulation of DC was sufficient to start an irreversible program of phenotypic maturation which proceeded in the absence of the initial stimulus. Transiently stimulated DC secreted lower amounts of IL-12 during the 48-h period of the first stimulation than cells activated for 48 h. Although both DC preparations expressed the same level of maturation-associated markers at 48 h, DC stimulated for shorter periods preserved higher sensitivity to boosting upon subsequent stimulation by T cell-derived signals. We showed that DC initially stimulated for shorter periods were more potent stimulators of T lymphocytes and they induced a more polarized Th1 response. These results indicate that short exposure of DC to maturation stimuli enables an efficient defensive immune response induction by differentially regulating phenotypic maturation and cytokine production of DC.
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