1E10 is a murine anti-idiotypic mAb specific for an idiotypic mAb that reacts with NeuGc-containing gangliosides, sulfatides, and Ags expressed in some human tumors. In melanoma, breast, and lung cancer patients, this anti-idiotypic Ab was able to induce a specific Ab response against N-glycolilated gangliosides, attractive targets for cancer immunotherapy as these glycolipids are not naturally expressed in humans. A clinical study with nonsmall cell lung cancer patients showed encouraging clinical benefits. Immunological studies performed in 20 of these patients suggested a correlation between the induction of Abs against NeuGcGM3 and longer survival times. The induced anti-NeuGcGM3 Abs recognized and directly killed tumor cells expressing the Ag, by a mechanism independent of complement activation. In the present work, we show that this cytotoxicity differs from apoptosis because it is temperature independent, no chromatin condensation or caspase 3 induction are detected, and the DNA fragmentation induced has a different pattern than the one characteristic for apoptosis. It is a very quick process and involves cytosqueleton reorganization. The Abs induce cellular swelling and the formation of big membrane lesions that allow the leakage of cytoplasm and the loss of the cell membrane integrity. All of these characteristics resemble a process of oncotic necrosis. To our knowledge, this is the first report of the active induction in cancer patients of NeuGcGM3-specific Abs able to induce complement independent oncotic necrosis to tumor cells. These results contribute to reinforcing the therapeutic potential of anti-idiotypic vaccines and the importance of NeuGcGM3 ganglioside as antitumor target.
P3 is a murine IgM mAb that recognize N-glycosylated gangliosides, sulfatides, and antigens expressed in melanoma, breast, and lung human tumors. This antibody has the ability to trigger an IgG antibody response in the syngeneic BALB/c model, even when it is administered in the absence of adjuvant or carrier protein. The mechanism by which the P3 mAb, a self-immunoglobulin, induce this immune response in the absence of co-stimulatory or classical danger signals is still unknown. In the present paper we show that the high immunogenicity of P3 mAb depends not only on CD4 but also on CD8+ T cells, since the depletion of CD8+ or CD4+ T cells led to the loss of P3 mAb immunogenicity in the syngeneic model. Furthermore, the immunization with P3 mAb enhanced the recovery of the CD8+ T cell population in mice treated with an anti-CD8a antibody. Additionally, the immunization with P3 mAb restored the capacity of immunosuppressed mice to reject allogeneic tumors, a mechanism mediated by the action of CD8+ T cells. Finally, in mice with cyclophosphamide induced lymphopenia, the administration of P3 mAb accelerated the recovery of both CD4+ and CD8+ T cells. These results show new possibilities for B and CD8+ T cells interactions during the immune response elicited by a self-protein. Furthermore they point to P3 mAb as a potential interesting candidate for the treatment of immunosuppressed patients.
Comparison of the features of arthroscopic synovial biopsies with biopsy samples obtained at surgery
N-glycolylated (NeuGc) gangliosides are not naturally expressed in normal human tissues but are overexpressed in several tumors and have immunosuppressive capacity, contributing to cancer progression. The present work shows the existence of a natural antibody response against NeuGcGM3 in healthy donors. 64 of the 100 donors tested had antibodies that specifically recognized NeuGcGM3 and killed tumor cells expressing the antigen by a complement mediated mechanism. Interestingly, even after complement inactivation 17% of the positive sera showed a direct cytotoxic effect on the tumor cells. This cytotoxicity was dependent on the presence of the antigen on the tumor cells and resembles an oncotic necrosis kind of cell death. The levels of anti-NeuGcGM3 antibodies in the sera of healthy donors and the percentage of donors with this natural immunity decreases with age. Furthermore we could only detect this reactivity in the sera of 5 from 51 lung cancer patients that matched in sex and age the assessed healthy donors. Non-small cell lung cancer patients vaccinated with an idiotypic antibody that mimics NeuGcGM3 elicited specific anti-tumor cytotoxic antibodies and showed longer survival times than non-responder patients. These results suggest the existence of natural antibodies against NeuGcGM3, with anti-tumor immune surveillance functions, that can be boosted in cancer patients, reinforcing the importance of N-glycolylated ganglioside as anti-tumor targets.
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