erucylphosphocholine and Glioma

Erucylphosphocholine (ErPC) has been shown to exert strong antineoplastic effects against various brain tumor cell lines in vitro. Since ErPC only enters the brain after long-term treatment, ineffective drug delivery to the tumor is considered to be the reason for the moderate responses to chemotherapy with ErPC observed in animal brain tumor models. We investigated a recently described method for chemically opening the blood-brain barrier (BBB) using intraarterial administration of alkylglycerols to increase the transfer of ErPC into the brain.. ErPC (40 mg/kg) was given to C6 glioma-bearing rats either as a single intracarotid bolus injection in the presence or absence of 1- O-pentylglycerol (300 m M) or as an intracarotid infusion in conjunction with bradykinin. Brain tissue concentrations were analyzed and compared to values obtained after intravenous ErPC treatment over 14 and 30 days (cumulative ErPC doses of 210 and 350 mg/kg, respectively).. Pentylglycerol-induced BBB opening resulted in a significant increase in ErPC delivery to the tumor (17-fold) and, to a lesser extent, to the surrounding ipsilateral brain (7-fold) compared to intraarterial ErPC administration without alkylglycerol ( P<0.05). Furthermore, the resulting ErPC concentrations in the brain tumor exceeded those obtained in tumor and tumor-free brain after long-term intravenous ErPC administration. In contrast to this, intracarotid bradykinin did not increase the transfer of ErPC to the tumor or tumor-free brain.. The intracarotid administration of pentylglycerol represents a novel and nontoxic method of overcoming the limited access of ErPC to both brain tumors and brain tissue adjacent to tumors. The present results provide further evidence that chemical opening of the BBB by intraarterial alkylglycerols is a promising new concept for improving delivery of chemotherapeutic agents to brain tumors.

Topics: Animals; Antineoplastic Agents; Blood-Brain Barrier; Brain; Brain Neoplasms; Glioma; Glycerol; Injections, Intra-Arterial; Male; Phosphorylcholine; Rats; Rats, Wistar

Erucylphosphocholine (ErPC) is a promising anti-neoplastic drug for the treatment of malignant brain tumours. It exerts strong anti-cancer activity in vivo and in vitro and induces apoptosis even in chemoresistant glioma cell lines. The purpose of this study was to expand on our previous observations on the potential mechanisms of ErPC-mediated apoptosis with a focus on death receptor activation and the caspase network. A172 and T98G glioma cells were treated with ErPC for up to 48 h. ErPC effects on the expression of the tumour necrosis factor (TNF) and TNF-related apoptosis-inducing ligand (TRAIL) receptor system, and on caspase activation were determined. ErPC had no effect on the expression of TNFalpha or TRAIL. Inhibition of the TNF or TRAIL signalling pathway with antagonistic antibodies or fusion proteins did not affect apoptosis induced by ErPC, and a dominant-negative FADD construct did not abolish ErPC-induced effects. Western blot analysis indicated that ErPC-triggered apoptosis resulted in a time-dependent processing of caspases-3, -7, -8 and -9 into their respective active subunits. Co-treatment of A172 cells with different caspase inhibitors prevented apoptosis but did not abrogate cell death. These data suggest that A172 cells might have an additional caspase-independent pathway that insures cell death and guarantees killing of those tumour cells whose caspase pathway is incomplete.

Topics: Amino Acid Chloromethyl Ketones; Apoptosis; Caspases; Cell Death; Enzyme Activation; Enzyme Inhibitors; Glioma; HeLa Cells; Humans; Ligands; Phosphorylcholine; Receptors, Tumor Necrosis Factor; Signal Transduction; Tumor Cells, Cultured; Tumor Necrosis Factor-alpha

Induction of differentiation represents a promising concept for chemotherapy of malignant gliomas, which are often refractory even to the combined treatment with surgery, irradiation and chemotherapy. Since anti-neoplastic alkylphosphocholines can induce differentiation of leukemic cell lines, the effects of the intravenously applicable alkylphosphocholine-derivative erucylphosphocholine (ErPC) on proliferation, morphology and differentiation of the rat glioma cell line C6 was examined in vitro. Short-term exposure to ErPC induced accumulation of the cells in the G2/M-phase of the cell cycle and apoptotic cell death. In contrast, continuous exposure of C6 rat glioma cells to sublethal ErPC doses (30 and 50 microM) caused both the formation of a slower growing tetraploid cell population and astrocytic differentiation. No resistance to in vivo obtainable ErPC concentrations was observed during this treatment. We conclude that ErPC-induced differentiation might be beneficial for a long-term adjuvant chemotherapy of low grade glioma.

Topics: Animals; Antineoplastic Agents; Apoptosis; Astrocytes; Brain Neoplasms; Cell Differentiation; Cell Division; Flow Cytometry; Glioma; Phosphorylcholine; Ploidies; Rats; Sensitivity and Specificity; Tumor Cells, Cultured