UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
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Treatment of cultured human tumor cells with the chloroethylnitrosourea antitumor drug 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU) selectively induces transcription and protein synthesis of a subset of the human heat shock or stress-induced genes (HSP90 and HSP70) with little effect on other stress genes or on expression of the c-fos, c-myc, or beta-actin genes. The active component of BCNU and related compounds appears to be the isocyanate moiety that causes carbamoylation of proteins and nucleic acids. Transcriptional activation of the human HSP70 gene by BCNU is dependent on the heat shock element and correlates with the level of heat shock transcription factor and its binding to the heat shock element in vivo. Unlike activation by heat or heavy metals, BCNU-mediated activation is strongly dependent upon new protein synthesis. This suggests that BCNU-induced, isocyanate-mediated damage to newly synthesized protein(s) may be responsible for activation of the heat shock transcription factor and increased transcription of the HSP90 and HSP70 genes.
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PMID:Selective activation of human heat shock gene transcription by nitrosourea antitumor drugs mediated by isocyanate-induced damage and activation of heat shock transcription factor. 205 60

To develop multimodality treatment combinations with high curative potential in advanced local disease, BCNU (N,N'-bis(2-chloroethyl)-N-nitro-sourea) and mitomycin C were tested with hyperthermia and radiation in the FSaIIC fibrosarcoma system. Growth delay experiments demonstrated that, while neither BCNU nor mitomycin C produced dose modification of the radiation response, and hyperthermia (43 degrees C, 30 min) produced only a moderate dose modification (1.4 +/- 0.2), the combination of BCNU plus hyperthermia resulted in a radiation dose modifying factor (DMF) of 1.9 +/- 0.3, and mitomycin C plus hyperthermia a dose modifying factor of 2.1 +/- 0.4. Tumor cell survival over a range of BCNU doses administered i.p. immediately before hyperthermia resulted in a dose modifying factor of 1.8 +/- 0.2 versus drug alone. With mitomycin C however, giving the drug immediately prior to heating produced a dose modifying factor due to hyperthermia of only 1.2 +/- 0.10. Hoechst 33342 diffusion was used to separate tumor cells into predominately oxic and hypoxic subpopulations. Administration of the single, double and trimodality therapies showed that BCNU was 3.1-fold more toxic to the oxic versus the hypoxic cells whereas mitomycin C was 3.5-fold more toxic to the hypoxic compared to the oxic cells. Hyperthermia was 1.4-fold more toxic to the hypoxic versus the oxic cells whereas 10 Gy of radiation was 2.0-fold more toxic to the oxic compared to the hypoxic cells. The combination of hyperthermia plus radiation increased killing in both Hoechst dye defined subpopulations but relatively more in the hypoxic cells in which killing was 1.8-fold greater than in the oxic cells. When heat was delivered immediately after i.p. administration of the anticancer drugs, hyperthermia increased BCNU killing in the oxic cells by 17.2-fold versus 4.4-fold in the hypoxic cells and increased mitomycin-killing by 2.6-fold in the oxic cells versus 17-fold in the hypoxic cells. Use of the full trimodality treatment, given in the sequence drug (BCNU, 50 mg/kg or mitomycin-C 5 mg/kg)----heat (43 degrees C, 30 min)----radiation (10 Gy) produced a 3 log kill in the oxic cells versus a 2 log kill in the hypoxic cells with BCNU and a 2 log kill in the oxic cells versus a 3 log kill in the hypoxic cells with mitomycin C. These results indicate that the use of selected anticancer drugs with hyperthermia and radiation can produce highly cytotoxic interactions which markedly modify the effect of radiation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Trimodality therapy (drug/hyperthermia/radiation) with BCNU or mitomycin C. 210 22

The polyamine biosynthesis inhibitor alpha-difluoromethylornithine (DFMO) has been shown to potentiate the cytotoxicity of 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU) in 9L rat brain tumor cells and in non-central nervous system human cancer cells in vitro, but the effects on a human brain tumor cell line have not been reported. Because BCNU is one of the main chemotherapeutic agents used clinically for the treatment of brain tumors, the effect of DFMO treatment on cell growth and potentiation of cytotoxicity was studied in vitro in U-251 MG and SF-126 cells, human tumor cell lines derived from malignant glioma tissue. Pretreatment of U-251 MG with 1 mM DFMO depleted cells of putrescine and spermidine within 48 h but did not sensitize cells to BCNU treatment even after a pretreatment of 72 h. DFMO treatment had no effect on the number of interstrand cross-links formed in BCNU-treated cells. Even treatment with 5 mM DFMO for 72 h caused only the suggestion of potentiation of BCNU cell kill. In contrast, a 72-h pretreatment with 1 mM DFMO decreased the cytotoxic effect of cis-diammine-dichloroplatinum(II) and caused a 38% decrease in the number of DNA interstrand cross-links formed. The glutathione content and cell cycle distribution of U-251 MG cells were not affected by DFMO pretreatment. Because Phase II clinical trials with DFMO and BCNU have shown promise for the treatment of anaplastic astrocytomas in humans, a second brain tumor cell line, SF-126, was studied. In this cell line a consistent potentiation of BCNU cytotoxicity (dose enhancement of 1.2 at the 10% survival level) was observed in cells pretreated with 1 mM DFMO for 72 h.
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PMID:Effect of alpha-difluoromethylornithine on 1,3-bis(2-chloroethyl)-1-nitrosourea and cis-diamminedichloroplatinum(II) cytotoxicity, DNA interstrand cross-linking, and growth in human brain tumor cell lines in vitro. 210 57

We have reported that 2-difluoromethylornithine (DFMO)-induced polyamine (PA) depletion sensitized five chloroethylnitrosourea (CENU)-resistant, O6-alkylguanine repair-proficient (Mer+) human tumor cell lines to 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU), but failed to alter BCNU efficacy in a single CENU-sensitive, repair-deficient (Mer-) line. Further, alkaline elution assays of DNA interstrand cross-links (ISC) found no BCNU-induced ISC in either PA-depleted or control Mer+ cells, suggesting that targets other than ISC may be involved in the DFMO/BCNU drug interaction. To verify that DFMO-induced enhancement of BCNU action segregates with Mer phenotype, we tested three additional Mer- lines for effects of DFMO pretreatment on BCNU efficacy. We found no potentiation of BCNU by PA depletion in any of our human Mer- lines. We also used streptozotocin (STZ) to deplete the repair capacity of Mer+ cell lines, thus converting their BCNU sensitivity to near that of Mer- cells. Combined pretreatment with DFMO then STZ did enhance BCNU cell kill relative to STZ pretreatment alone. Exogenous putrescine restored BCNU sensitivity of (DFMO plus STZ)-pretreated cells to that of cells pretreated with STZ alone. Measurements of O6-alkylguanine DNA alkyltransferase activity verified that in at least one of the Mer+ lines (HT-29), STZ did deplete repair capacity to below detectable limits. These results suggest that in HT-29 cells, STZ and DFMO probably act via differing mechanisms to potentiate BCNU. Our observations also imply that targets for CENUs may differ between Mer+ and Mer- cells, with importance of ISC possibly limited to Mer- cells. Our data further suggest that PA depletion may potentiate CENUs only at targets critical in Mer+ cells. We also noted that 48-h treatments with DFMO markedly reduced clonogenicity of Mer- cells. Exogenous putrescine restored Mer- cell survival after DFMO to near that of controls. In contrast, Mer+ cells showed little, if any, effect of DFMO treatment on plating efficiency. These results suggest that PA depletion may be cytocidal to some Mer- cells.
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PMID:Comparisons between sensitive and resistant human tumor cell lines regarding effects of polyamine depletion on chloroethylnitrosourea efficacy. 213 22

Alterations of the pharmacokinetics and cytotoxic effects of the nitrosoureas, 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU) and 1-(2-chloroethyl)-3-(cyclohexyl)-1-nitrosourea (CCNU) by the 2-nitroimidazoles, misonidazole (MISO) and SR-2508 were investigated using the subcutaneous (sc) 9L tumor model in male Fisher 344 rats. When 50 mg/kg of CCNU was given i.p., the peak plasma concentration of CCNU was about 3 micrograms/ml. CCNU was eliminated with biphasic kinetics that had a terminal half-time (T1/2) of approximately 47 min. When 2.5 mmole/kg of MISO was given i.p. 150 min before CCNU, the peak plasma concentration of CCNU was increased by approximately 63% with no change in the elimination kinetics. Clamping did not change the pharmacokinetics of CCNU in either plasma or tumors. MISO pretreatment increased the peak CCNU concentration in unclamped tumors by 3-fold, but had no effect on the CCNU pharmacokinetics in clamped tumors. With the exception of a decrease in the peak BCNU concentration in tumors similar to that observed with MISO, SR-2508 (3.75 mmole/kg, i.p.) did not change the pharmacokinetics of BCNU or CCNU in plasma and tumors. CCNU had no effect on the MISO concentration in plasma and unclamped tumors. However, in the clamped tumors, CCNU delayed the return of the MISO concentration to the unclamped tumor level by about an additional 60 min after the clamp was released. SR-2508 was eliminated from the plasma with biphasic kinetics having an initial and terminal T1/2 of approximately 11 and approximately 76 min, respectively. SR-2508 reached a peak tumor concentration of about 500 micrograms/ml in 30 min. The elimination T1/2 for SR-2508 in unclamped and clamped tumors was approximately 81 and approximately 42 min, respectively. When the clamp was released, the SR-2508 concentration returned to the level found in the unclamped tumors approximately 90 min after it reached its nadir; BCNU and CCNU had no effect on the kinetics of this process. MISO significantly potentiated the cytotoxicity of BCNU in clamped tumors at surviving fractions less than or equal to 0.5. MISO did not potentiate the cytotoxicity of CCNU until the surviving fraction reached 0.05. SR-2508 did not potentiate the cytotoxicity of either BCNU or CCNU.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Chemosensitization of the nitrosoureas by 2-nitroimidazoles in the subcutaneous 9L tumor model: pharmacokinetic and structure-activity considerations. 214 Aug 24

Induction of transient thermotolerance by heat or other cytotoxic stressors has been reported to confer a moderate degree of drug resistance to tumor cells in vitro. In this study, a genetically stable, heat-resistant mouse B16 melanoma variant (W-H75) was tested for its sensitivity to various cytotoxic and antiproliferative agents. The heat-resistant W-H75 cells displayed a moderate two- to threefold resistance to doxorubicin, VP-16, VM-26, colchicine, cis-dichlorodiammineplatinum(II), HgCl2, and CdCl2. Marginal resistance to 4'(9-acridinylamino)methanesulfon-m-anisidide vinblastine, 1,3-bis(2-chloroethyl)-1-nitro-sourea, and NaAsO2 was observed, while no difference in sensitivity to the anticancer drugs, actinomycin D and camptothecin, was observed. Although W-H75 cells were generally more resistant than the parental cells to most of the agents that were tested, they were collaterally sensitive to the antimetabolites methotrexate and 6-mercaptopurine. Resistance of the W-H75 cells to epipodophyllotoxins and anthracyclines was not due to differences in steady-state drug accumulation. For the epipodophyllotoxin VP-16, resistance may be related to a relative decrease in the number of drug-induced DNA strand breaks in W-H75 cells. However, no difference in DNA strand breakage was observed between W-H75 and parental cells which were treated with doxorubicin, suggesting that resistance to this drug occurred by a different mechanism. The possible involvement of glutathione and glutathione S-transferase in resistance was also investigated. The glutathione content in W-H75 cells was 35% higher than that in the parental line. However, glutathione S-transferase activity appeared to be identical in both cell lines. Two other heat-resistant B16 melanoma variants, B-H103 and R-H92, were also tested for sensitivity to doxorubicin and VP-16. In contrast to the W-H75 cells, these two heat-resistant variants were hypersensitive to doxorubicin. The B-H103 cells were also hypersensitive to VP-16. This study suggests that selection for cellular resistance to heat may result in cells that have an altered sensitivity to drugs.
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PMID:Drug sensitivity of heat-resistant mouse B16 melanoma variants. 223 92

The anti-tumor effect of 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU) was examined in BALB/c mice bearing increasing burdens of a syngeneic lymphoma (YC8). A single i.p. injection of the drug resulted in over 75% of cures when given at day 3, 5, 7 or 10 after an i.v. inoculum of 10(4) YC8 cells. The efficacy of BCNU on mice bearing large tumor burdens (from day 5 on) was not only due to its tumoricidal activity, but was immunologically mediated. Residual tumorigenic cells could be recovered in the livers of 5-day tumor bearers (TB) up to 2 weeks after BCNU treatment and only a low percentage of cures could be achieved when BCNU was administered to nude mice. In addition, BCNU-cured mice specifically rejected a lethal YC8 challenge and their splenocytes developed anti-tumor cytotoxicity in response to in vitro stimulation with YC8 cells. During kinetic experiments a 2-week period elapsed after BCNU injection before an anti-tumor cytotoxic T-lymphocyte (CTL) response could be generated by spleen cells of BCNU-treated 5-day TB. This period was characterized by immunosuppression as evaluated from impairment in the generation of lymphokine-activated killer (LAK) cells or of allospecific primary CTL responses by spleen cells from BCNU-treated 5-day TB and BCNU-treated normal mice. LAK cells first recovered and could be generated 7 days later, whereas primary allospecific CTL responses could only be detected by day 14, concomitantly with the generation of anti-tumor cytotoxicity by 5-day TB. The development of secondary in vitro CTL responses, however, was permanently abrogated. Spleen cells from BALB/c mice immunized either with YC8 or with DBA/2 minor histocompatibility antigens and treated with BCNU 1 week after the last immunization failed to mount an in vitro CTL response to their immunizing antigen, even when the cultures were supplemented with recombinant interleukin-2.
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PMID:Eradication of a disseminated mouse lymphoma by 1,3-bis(2-chloroethyl)-1-nitrosourea is immunologically mediated and accompanied by de novo generation of anti-tumor cytotoxicity. 224 96

Lonidamine is an agent that is reported to inhibit recovery from potentially lethal damage. By itself, it has only mild anticancer activity. We have examined the ability of lonidamine to enhance the cytotoxicity of several drugs against a mouse and a human fibrosarcoma cell line in vitro. By itself, lonidamine showed only a limited cytotoxic effect with drug exposure up to 100 micrograms/ml and 24-h duration. Lower concentrations and shorter term exposures were not toxic to either of these tumor cell lines. When tested against the mouse line, the cytotoxicity of 5-fluorouracil, methotrexate, and etoposide was enhanced by lonidamine if the latter drug was given either before or after the exposure of the cells to the cytotoxic agents. For cisplatinum, bleomycin, mitomycin C, doxorubicin, and Actinomycin D, cytotoxicity was also enhanced, but only if lonidamine followed the other agents. In contrast, potentiation of 1,3-bis(2-chloroethyl)-1-nitrosourea toxicity was maximum when lonidamine preceded the nitrosourea. The human cells were more resistant to lonidamine and to the combination treatments than were the mouse cells. Nevertheless, substantial enhancement was seen particularly for cisplatin and mitomycin C. We examined in more detail the enhancement of cisplatin. Maximum interaction was obtained when lonidamine was given immediately following (or in conjunction with) the platinum agent. Our results suggest that lonidamine enhances the effects of several other agents in a time- and concentration-dependent manner and indicate a potential usefulness for lonidamine in multidrug therapy.
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PMID:Cytotoxicity of lonidamine alone and in combination with other drugs against murine RIF-1 and human HT1080 cells in vitro. 225 27

Pyrazine diazohydroxide (sodium salt, NSC 361456; PZDH) is a new antitumor drug with relatively broad activity in initial evaluations against murine leukemias, solid tumors, and two human tumor xenografts in vivo. The present studies were designed to address questions about PZDH activity on different treatment schedules, its activity against metastases, and the extent of its cross-resistance with established drugs. Human LOX amelanotic melanoma xenografts in athymic mice were used to explore schedule dependence and activity against natural metastases, and a series of drug-resistant murine leukemias provided an in vivo cross-resistance profile. Single-dose treatment and prolonged treatment provided equivalent therapeutic responses to PZDH by both the i.p. and i.v. routes in the i.p. LOX model. A s.c. LOX model resulting in spontaneous pulmonary metastases was adapted for bioassay and quantitation of the numbers of LOX cells killed by PZDH among both primary and metastatic cell populations. It was demonstrated that PZDH afforded about 2-log10 orders of magnitude greater cell kill among pulmonary metastases than against primary s.c. LOX tumors in the same mouse. Murine leukemias resistant to doxorubicin (ADR), vincristine (VCR), cisplatin (DDPt), methotrexate (MTX), N,N'-bis(2-chloroethyl)-N-nitrosourea (BCNU), and cyclophosphamide (CPA) were not cross-resistant to PZDH. However, both P388 and L1210 leukemia sublines resistant to melphalan (L-PAM) were cross-resistant to PZDH, suggesting that patients previously treated with L-PAM might have less likelihood of response to PZDH than those who had had no opportunity to develop L-PAM resistance. Although these observations should not be applied to clinical studies without due caution, they support clinical evaluation of PZDH as well as continued investigation of its molecular pharmacology.
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PMID:Schedule dependence, activity against natural metastases, and cross-resistance of pyrazine diazohydroxide (sodium salt, NSC 361456) in preclinical models in vivo. 231 Nov 70

In order to investigate the effect of environmentally determined conditions on the cytotoxicity of anticancer treatments, Hoechst 33342 dye selected tumor subpopulations were separated after in vivo treatment and plated for single cell colony survival. The 10% brightest cells were assayed as putative normally oxygenated cells and the 20% dimmest as putative hypoxic cells. At single therapeutic doses, cyclophosphamide treatment resulted in the largest differential killing between bright and dim cells (6.3-fold bright greater than dim); 1,3-bis(2-chloroethyl)-1-nitrosourea was 3.2-fold more cytotoxic toward bright cells and carboplatin was 2.4-fold more toxic toward bright cells. Both radiation (10 Gy) and melphalan were 2.2-fold more toxic to bright cells, while cis-diamminedichloroplatinum(II) was 1.8-fold, thiotepa was 1.2-fold and procarbazine was 1.3-fold more toxic to bright cells. Actinomycin D was 3.4-fold more toxic to bright cells. Adriamycin was 2.2-fold, vincristine was 2.1-fold, and etoposide was 1.6-fold more toxic to bright cells. Bleomycin and 5-fluorouracil were also tested and were 1.5- and 2.3-fold more toxic to bright cells, respectively. Only four treatments were more toxic to dim cells: mitomycin C (3.5-fold), misonidazole (1.5-fold), etanidazole (3.5-fold), and 43 degrees C, 30 min local hyperthermia (2.6-fold). In an attempt to shift the pattern of dim cell sparing, Fluosol-DA plus carbogen (95% O2/5% CO2) breathing was added to treatment with radiation (10 Gy), melphalan, cis-diamminedichloroplatinum(II), and etoposide. Although each of these treatments became significantly more toxic with the addition of Fluosol-DA/carbogen, only with melphalan did the combination overcome the sparing of dim cells. These results indicate that cells located distally from the tumor vasculature are significantly less affected by most anticancer drugs and suggest that successful therapeutic strategies against solid tumors will involve greater use of the few treatments which are more toxic toward this tumor subpopulation.
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PMID:Classification of antineoplastic treatments by their differential toxicity toward putative oxygenated and hypoxic tumor subpopulations in vivo in the FSaIIC murine fibrosarcoma. 233 28

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