Abstract: This invention comprises cellular vaccines and methods of using them in cancer immunotherapy, particularly in humans. The vaccines comprise a source of tumor-associated antigen, and a cytokine-secreting cell line. Tumor antigen may be provided in the form of primary tumor cells, tumor cell lines or tumor extracts prepared from the subject. In certain embodiments of the invention, the cytokine-secreting line is a separate tumor line that is allogeneic to the patient and genetically altered so as to produce a cytokine at an elevated level. Exemplary cytokines are IL-4, GM-CSF, IL-2, TNF-&agr;, and M-CSF in the secreted or membrane-bound form. In these embodiments, the cytokine-producing cells provide immunostimulation in trans to generate a specific immune response against the tumor antigen.

Abstract: This invention comprises cellular vaccines and methods of using them in cancer immunotherapy, particularly in humans. The vaccines comprise a source of tumor-associated antigen, and a cytokine-secreting cell line. Tumor antigen may be provided in the form of primary tumor cells, tumor cell lines or tumor extracts prepared from the subject. In certain embodiments of the invention, the cytokine-secreting line is a separate tumor line that is allogeneic to the patient and genetically altered so as to produce a cytokine at an elevated level. Exemplary cytokines are IL-4, GM-CSF, IL-2, TNF-&agr;, and M-CSF in the secreted or membrane-bound form. In these embodiments, the cytokine-producing cells provide immunostimulation in trans to generate a specific immune response against the tumor antigen.

Abstract: This invention comprises cellular vaccines and methods of using them in cancer immunotherapy, particularly in humans. The vaccines comprise a source of tumor-associated antigen, and a cytokine-secreting cell line. Tumor antigen may be provided in the form of primary tumor cells, tumor cell lines or tumor extracts prepared from the subject. In certain embodiments of the invention, the cytokine-secreting line is a separate tumor line that is allogeneic to the patient and genetically altered so as to produce a cytokine at an elevated level. Exemplary cytokines are IL-4, GM-CSF, IL-2, TNF-&agr;, and M-CSF in the secreted or membrane-bound form. In these embodiments, the cytokine-producing cells provide immunostimulation in trans to generate a specific immune response against the tumor antigen.

Abstract: This invention comprises cellular vaccines and methods of using them in cancer immunotherapy, particularly in humans. The vaccines comprise stimulated lymphocytes allogeneic to the subject being treated, along with a source of tumor-associated antigen. The allogeneic lymphocytes can be stimulated by combining or coculturing them with leukocytes obtained from the subject to be treated or from another third-party donor. Tumor antigen may be provided in the form of primary tumor cells, tumor cell lines or tumor extracts prepared from the subject. Stimulated allogeneic lymphocytes and tumor antigen are combined and administered at a site distant from the primary tumor, in order to prime or boost a systemic cellular anti-tumor immune response. This approach overcomes the natural refractory nature of the immune system to stimulation by tumor antigens, generating a host response and potentially improving the clinical outcome.

Abstract: This invention provides methods and compositions for treating tumors by implanting near the tumor an alloactivated cell population. The cell population is made up of a plurality of third-party donor cells that have been cultured together ex vivo, and harvested near the time of peak cytokine secretion. Once placed in the tumor bed, the alloactivated cells recruit active participation of the host, which then reacts against the tumor and provides a level of ongoing protection. Employing multiple third party donor cells confers particular advantages in terms of effectiveness, timing, and ease of use.

Abstract: A method is provided for treatment of a mammalian patient having a tumor by administering to the patient allogenic donor lymphocytes that have been co-cultured in the presence of the patient-derived lymphocytes under conditions sufficient to alloactivate the donor lymphocytes. It is preferred that the donor lymphocytes be introduced intralesionally. This method is preferred for treatment of glioblastoma in humans.

Abstract: A method is provided for treatment of a mammalian patient having a tumor by administering to the patient allogenic donor lymphocytes that have been co-cultured in the presence of the patient-derived lymphocytes under conditions sufficient to alloactivate the donor lymphocytes. It is preferred that the donor lymphocytes be introduced intralesionally. This method is preferred for treatment of glioblastoma in humans.

Abstract: Two lymphotoxins are disclosed which are effective in mediating growth of malignant cell lines. The two lymphotoxins are designated as LT-2 and LT-3. A method for producing LT-2 and LT-3 is disclosed in which HUT-102 cells are stimulated with 4 Beta Phorbal 12-Myristate 13-Acetate (PMA).