Cancer research
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The radiocurability of human melanoma xenografts was studied by treating tumors with multiple fractions of 2.0 Gy and using local tumor control at 180 days as end point. Three melanoma lines (E. F., G. ⋯ Thus, the differences in tumor radiocurability among the lines were mainly a consequence of cellular differences in the capacity to repair radiation damage. Comparisons of measured TCD50s with theoretical TCD50s, calculated from cell-surviving fractions measured in vitro after radiation treatment in vitro or in vivo, suggested that other tumor parameters, e.g., rate of population between radiation fractions, also had a significant impact on the TCD50. However, this study strongly supports the assumptions that the surviving fraction at 2.0 Gy in vitro is a useful parameter for prediction of clinical tumor radiocurability.
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The murine monoclonal antibody A7 (Mab A7) against human colon cancer was chemically modified with methoxypolyethylene glycol (PEG) (Mr 5000). A high substitution of PEG molecules on Mab A7 produced a progressive reduction in antibody-binding activity. The pharmacokinetic and immunological properties of PEG-modified monoclonal antibody A7 (Mab A7) and the PEG-modified F(ab')2 fragment, which retained their antibody-binding activity, were assessed and compared with the parent Mab A7 and the parent F(ab')2 fragment. ⋯ Tumor localization was enhanced by PEG modification for the F(ab')2 fragment, but not by PEG modification for the whole Mab A7. Multiple i.v. administration of PEG-modified antibody to rabbit did not appear to elicit a measurable immune response to the antibody portion of the conjugate. In conclusion, PEG-modified antibodies are promising reagents as drug carriers to the target tumor.
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Comparative Study
Therapeutic analysis of melphalan-resistant human rhabdomyosarcoma xenograft TE-671 MR.
Investigations with the melphalan-resistant human rhabdomyosarcoma xenograft TE-671 MR were carried out to identify patterns of cross-resistance and collateral sensitivity and to define the mechanism(s) mediating melphalan resistance. TE-671 MR was cross-resistant to thio-TEPA, mitomycin, vincristine, and cisplatin, and partially resistant to chlorambucil and cyclophosphamide. TE-671 MR and the parent line TE-671 were both resistant to 1,3-bis(2-chloroethyl)-nitrosourea and expressed similar levels of O6-alkylguanine-DNA alkyltransferase. ⋯ The frequency of hypoxic regions was similar in TE-671 MR and TE-671, respectively. Measurement of tumor-to-plasma levels at 180 min following i.p. administration of melphalan at 0.5 of the 10% lethal dosage showed mean tumor-to-plasma ratios of 3.81 in TE-671 MR and 7.38 in TE-671, respectively. The lower drug levels in TE-671 MR may be contributing to the resistance to melphalan and thus indicate the need for further studies to define the reasons for these differences in tumor drug level.
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The polyamine analogue, N1,N12-bis(ethyl(-spermine (BESPM), is known to suppress ornithine and S-adenosylmethionine decarboxylase levels, deplete intracellular polyamine pools, and inhibit cell growth. Among human melanoma cell lines, MALME-3 cells were found to be typically sensitive to the antiproliferative activity of the BESPM, whereas LOX cells were atypically insensitive to the analogue. A comparison of polyamine-related parameters revealed that the most differentially altered activity between the 2 BESPM-treated cell lines was that of spermidine/spermine N1-acetyltransferase (SSAT), which increased from 50 pmol/min/mg to greater than 10,000 pmol/min/mg in MALME-3 cells and from 16 pmol/min/mg to only 120 pmol/min/mg in LOX cells over 48 h. ⋯ Treatment of MALME-3 cells with BESPM resulted in an accumulation of N-acetylspermidine in cells and the enhanced excretion of putrescine, spermidine, and N-acetylspermidine into the medium. The relationship between SSAT induction and growth sensitivity was deduced to be a possible function of increased excretion of acetylated polyamines leading to enhanced polyamine pool depletion. The data suggest that, in cell types in which it occurs, unusually high increases in SSAT activity may serve as a determinant of growth sensitivity to bis-ethyl spermine analogues or, alternatively, as a target for appropriately designed chemotherapeutic strategies.
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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.