Cancer research
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We have previously demonstrated that interferon (IFN) treatment of mice bearing the spontaneously metastasizing B16F10L murine melanoma on days -5 to -1 prior to surgical removal (day 0) of the primary tumor resulted in survival of greater than 50% of treated mice. The antitumor effect was correlated with an early increase of natural killer (NK) cell cytotoxicity followed by a later developing specific cytolytic T-cell response. The purpose of this study was to establish definitively the roles of NK, CD4, and CD8 cells as mediators of the antitumor/antimetastatic effects of IFN treatment by administration of anti-asialo-GM1, anti-L3T4, and/or anti-Lyt-2 antisera. ⋯ In vitro analysis of NK cytotoxicity on day 1 after surgery demonstrated (a) a lack of IFN induced stimulation of NK activity in CD4 depleted mice and (b) a significant increase in both baseline and IFN induced NK cytotoxicity in CD8 depleted mice. These data suggested a CD8 cell mediated inhibition of NK activity/stimulation in CD4 depleted mice, possibly responsible for the lack of response to IFN therapy in that group. These results demonstrate the importance of not only individual components of the immune system but also the interaction of these components in both the natural and IFN induced control of spontaneous B16F10L metastases.
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We are searching for relatively nontoxic compounds that can positively modulate the efficacy of antitumor alkylating agents. Lonidamine inhibits cellular energy metabolism and could potentially increase damage by alkylating agents if cellular defenses are energy requiring. Exposure of cells to lonidamine (500 microM) for 2 h under hypoxic conditions followed by 1-h exposures to lonidamine plus alkylating agents under normally oxygenated conditions in vitro significantly increased the cell kill achieved by cis-diamminedichloroplatinum(II) (CDDP) approximately 5-fold and by D-tetraplatin approximately 10-fold at 90% inhibitory concentration in MCF-7/CDDP (CDDP-resistant) cells. ⋯ The increase in bone marrow toxicity caused by lonidamine in addition to the alkylating agents was less than for tumor cells. Finally, in the EMT6 murine mammary carcinoma, use of lonidamine at 500 mg/kg twice daily along with CDDP, carboplatin, thiotepa, and cyclophosphamide significantly increased tumor growth delays by approximately 1.6- to 3.0-fold. The results suggest that lonidamine can positively modulate antitumor alkylating agent cytotoxicity and may be a clinically useful adjunctive therapy with these drugs.
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The effect of antimetastatic sulfated chitin derivatives (SCM-chitin III) on angiogenesis induced by B16-BL6 cells was examined in syngeneic mice. SCM-chitin III caused a marked decrease of the number of vessels toward tumor mass (angiogenic response) without affecting the tumor cell growth when coinjected with tumor cells (on day 0), or injected into tumor site on day 1 or 3 after tumor inoculation. In contrast, carboxymethyl chitin as well as heparin had no effect. ⋯ SCM-chitin III also inhibited the haptotactic migration of endothelial cells to fibronectin-substrate, but did not inhibit the chemotactic activity in tumor conditioned media in vitro. SCM-chitin III did not directly affect the viability and the growth of tumor cells and endothelial cells in vitro. These results suggest that inhibition of lung tumor metastasis by SCM-chitin III may in part be due to the inhibition of tumor-associated angiogenesis.
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During chemotherapy with a cisplatin-containing combination of drugs, 217 blood samples from 30 cancer patients were analyzed for the presence of the main cisplatin-DNA adduct cis-Pt(NH3)2d(pGpG) (Pt-GG). Cisplatin was administered during 3-h infusions on each of 5 consecutive days, resulting in increasing adduct levels which, on the average, were about twice as high after the fifth as after the first infusion. Higher levels were found in blood samples of patients who received the same total amount of cisplatin in one single 3-h infusion. ⋯ In some of the in vivo and in vitro cisplatin-treated blood samples, all 4 known platinum-DNA adducts were determined. In all cases Pt-GG was by far the major adduct, and no significant differences were observed with respect to the relative amounts of the 4 adducts. Similar adduct ratios were found in DNA from a testicular tumor obtained from a patient who underwent orchidectomy; the Pt-GG adduct level was about 10-fold higher than that in his blood cells.
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The new bioreductive drug 3-amino-1,2,4-benzotriazine 1,4-dioxide (SR 4233) shows a high selective cytotoxicity for hypoxic cells, both in vitro and in tumors in vivo. In the present experiments, we have tested the hypothesis that this selective killing of hypoxic cells might be exploited by taking advantage of the fluctuating hypoxia in tumors by use of a multidose regimen of SR 4233 with multiple small doses of X-rays. ⋯ In all four tumors, the enhancement of cell killing was greater than that produced by a large dose of the hypoxic cell sensitizer SR 2508 given before each irradiation, thereby demonstrating the superiority of the approach of using a hypoxic cytotoxic agent rather than a radiosensitizer in fractionated radiation protocols. The data suggest that SR 4233 has considerable promise as an adjunct to standard radiotherapy.