Cancer research
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To explain the sequence-dependent in vitro cytotoxic synergism between 4-hydroperoxycyclophosphamide (4-HC) and cisplatin in the K-562 human leukemia cell line, we have hypothesized that 4-HC decreases cellular glutathione (GSH) levels and that the resulting diminution of the cellular protective effect of GSH leads to the increased cytotoxicity of cisplatin. Exposure of K-562 cells to 4-HC resulted in a concentration- and time-dependent depletion of cellular GSH. To determine the effect of modulation of GSH levels on the toxicity of cisplatin, K-562 cells were exposed to buthionine sulfoximine (BSO) and/or GSH ethyl esters. ⋯ GSH levels in these two cell lines were not altered by incubation with concentrations of 4-HC at which the synergism was observed. In conclusion, the data for the K-562 cell line, indicating that (a) 4-HC depletes cellular GSH levels, (b) the lowering of cellular GSH levels enhances the toxicity of cisplatin, and (c) intact GSH stores are required for the synergism, strongly support the postulate that the cytotoxic synergism between 4-HC and cisplatin is modulated by GSH levels in this cell line. However, the lack of 4-HC-mediated depletion of GSH at concentrations of 4-HC resulting in cytotoxic synergism in the Raji and L1210-CPA cell line indicates that mechanisms other than modulation of GSH levels by 4-HC are responsible for the synergism in these cells.
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Enhanced tumor uptake of macromolecules induced by a novel vasoactive interleukin 2 immunoconjugate.
Low uptake of monoclonal antibodies (MAbs) in cancer lesions is a significant problem in cancer therapy. Recent studies have shown that antibody uptake in tumor is controlled in large part by the tumor blood flow and the vascular permeability of the tumor endothelium. We have hypothesized that these physiological properties of tumor vessels may be altered by pretreatment with vasoactive drugs or peptides linked to tumor-specific MAbs. ⋯ Bidirectional crossover imaging studies in individual tumor-bearing nude mice showed improved uptake and decreased blood pool when the MAb/IL-2 immunoconjugates were used compared to controls. Finally, tumor blood flow and vascular permeability studies demonstrate that the physiological effect of the MAb/IL-2 is due to a reversible and specific vascular leakage at the tumor site. These studies indicate that pretreatment with this novel immunoconjugate may enhance the diagnostic and therapeutic potential of MAbs, drugs, and other macromolecules for the treatment of cancer.