Antitumor Effect of Exogenous/Endogenous TNF (EET) Therapy with Cyclophosphamide on C6 Glioma in Rat

Abstract: We earlier reported that endogenous TNF could be induced in mice as well as in patients by successive administration of exogenous TNF as a primer and OK-432 as a trigger, and we termed this exogenous/endogenous TNF (EET) therapy. We studied the effect of EET therapy with cyclophosphamide (CY) on tumor-transplanted rats. In order to induce endogenous TNF, 5 x 10(5) U/kg of recombinant human TNF-S(AM2) (rTNF; 5.6x10(6) U/mg protein) was injected intravenously (iv) as a primer followed by injection of 25 KE/kg of… Show more

“…To determine whether TNF-SAM 2 is useful for the treatment of malignant gliomas, we previously studied the effect of TNF-SAM 2 with an alkylating agent on rat C6 experimental glioma, and observed a dramatic antitumor effect in vivo. 24) We also reported early results in patients treated with TNF-SAM 2 as part of initial therapy for glioblastoma, but the preliminary results of TNF-SAM 2 treatment for malignant astrocytomas, especially for glioblastoma, achieved only a modest level of significance. 7) TNF-a triggers a biochemical pathway that leads to programmed cell death, i.e., apoptosis, but also activates a key molecule that can block this apoptotic pathway, which reflects the dual nature of TNF-a.…”

Expression of Nuclear Factor-κB, Tumor Necrosis Factor Receptor Type 1, and c-Myc in Human Astrocytomas

“…To determine whether TNF-SAM 2 is useful for the treatment of malignant gliomas, we previously studied the effect of TNF-SAM 2 with an alkylating agent on rat C6 experimental glioma, and observed a dramatic antitumor effect in vivo. 24) We also reported early results in patients treated with TNF-SAM 2 as part of initial therapy for glioblastoma, but the preliminary results of TNF-SAM 2 treatment for malignant astrocytomas, especially for glioblastoma, achieved only a modest level of significance. 7) TNF-a triggers a biochemical pathway that leads to programmed cell death, i.e., apoptosis, but also activates a key molecule that can block this apoptotic pathway, which reflects the dual nature of TNF-a.…”

Expression of Nuclear Factor-κB, Tumor Necrosis Factor Receptor Type 1, and c-Myc in Human Astrocytomas

Brain tumor development in rats is associated with changes in central nervous system cytokine and neuropeptide systems