UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Reduced drug accumulation is the most common functional change accompanying development of P-glycoprotein-associated multidrug resistance. One of our laboratories showed earlier that the anthracycline analogue 4'-deoxy-4'-iododoxorubicin (DIDOX) was accumulated to identical levels in Ehrlich ascites tumor (EHR2) and daunorubicin (DNR)-resistant EHR2/DNR+ cells (E. Friche, P. B. Jensen, T. Skovsgaard, and N. I. Nissen, J. Cell. Pharmacol., 1:57-65, 1990). In this communication, we show that weekly treatment of EHR2-bearing mice with 4, 8, or 12 mg of DIDOX/kg/week led to the development of three DIDOX-resistant cell lines, EHR2/DIDOX-1, EHR2/DIDOX-2, and EHR2/DIDOX-3. The levels of DIDOX accumulation and retention and its outward transport were similar in the drug-sensitive and three drug-resistant cell lines. By contrast, the accumulation of the active DIDOX metabolite, 13-dihydro-DIDOX (13-OH-DIDOX), the parent compound doxorubicin, and daunorubicin were all decreased in proportion to the resistance of the cells. In EHR2/DIDOX-3 cells, the reduction in daunorubicin accumulation coincided with the development of P-glycoprotein as demonstrated by Western blot and flow cytometry with C219 antibody. DIDOX had no effect on the photolabeling of P-glycoprotein by [3H]azidopine, whereas 13-OH-DIDOX inhibited this labeling in a concentration-dependent manner. Subsequent analysis of topoisomerase II activities and amounts in EHR2/DIDOX-3 cells revealed decreased DNA topoisomerase II catalytic activity. The amounts of immunoreactive DNA topoisomerase II from EHR2/DIDOX-1, EHR2/DIDOX-2, and EHR2/DIDOX-3 cells were about 89%, 73%, and 52%, respectively, of that seen in the drug-sensitive cells. We also found that teniposide stabilized DNA-protein complexes in EHR2/DIDOX-3 but they never reached the level seen in EHR2 cells. Because it has been reported that DIDOX is rapidly metabolized to 13-OH-DIDOX, we postulate that the development of resistance to DIDOX in vivo is due in part to its metabolite, 13-OH-DIDOX, which is a substrate for plasma membrane glycoprotein, and in part to DIDOX, which is an inhibitor of topoisomerase II.
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PMID:Characterization of tumor cell resistance to 4'-deoxy-4'-iododoxorubicin developed in Ehrlich ascites cells in vivo. 135 19

Significant prolongation of survival time among the patients with advanced ovarian cancer has been brought under the development of surgery and chemotherapy, but even those with clinical remission shows sometimes recurrence. For the recurrent ovarian cancer patients at present there are no definite strategy to treat the recurrent cases. Under these circumstance, we have reviewed the current treatment of cytoreductive surgery and chemotherapy for the recurrent cases. 1) surgical treatment Generally, in the cases of recurrent ovarian cancer, cytoreductive surgery is required to minimize the residual tumour in the abdomen. But sometimes we can find the distant metastasis including liver, lung, and lymph node. This means that surgery is not sufficient for control of recurrent tumor. Further adjuvant chemotherapy will be required to control metastatic tumors. 2) chemotherapy After the detail assessment of the initial treatment of cases, at first we should think about retreatment with CDDP-based regimen and secondly about dose-intensification of CDDP or CBDCA for the CDDP-resistant cases. And as combination regimens, topoisomerase inhibitors, etoposide or CPT-11 are also preferable to use, alkylating agents such as ifosfamide, 5-fluorouracil, and some current trials with new drug, taxol are effective for recurrent cases. In conclusion, further active chemotherapy using platinum compounds, topoisomerase inhibitors, taxol will be achieved for the control of the recurrent cases of ovarian cancer.
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PMID:[Treatment of recurrent ovarian cancer]. 135 32

A survey is presented of two types of resistance to drugs acting on cellular topoisomerase enzymes, that occurring by altered drug transport and that occurring by altered target interaction. Particular attention is paid to the use of pairs of diagnostic drugs, one susceptible and one refractory to a particular resistance mechanism, in the determination of such resistance in cultured cells. Two pairs of drugs, each including the antitumor agent amsacrine, are used in the analysis of a number of cell lines. Also it is suggested that some normal hemopoietic precursor cells may exhibit two types of multidrug resistance, and that this should be taken into account in determining selectivity of topoisomerase-directed drugs for tumor cells.
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PMID:Resistance mechanisms to topoisomerase poisons: the application of cell culture methods. 136 Feb 75

Squamous cell carcinoma of the upper aerodigestive tract presents significant problems in determining appropriate treatment regimens. Staging aided by sophisticated investigations allows for planning of treatment, but there is a definite need for a specific and reproducible marker to quantify biological aggressiveness. For some classes of tumors the DNA ploidy of cells, as determined by flow cytometry, has shown good correlation to pathologic grading and prognosis. Using a mathematical model, it is possible to calculate the S-phase fraction, which is indicative of proliferative activity and may reflect tumor aggressiveness. However, this parameter is often difficult to determine reliably in squamous cell carcinoma. An optimal marker would be a measureable protein related to proliferation. An attempt was made to use flow cytometry to measure the nuclear enzyme topoisomerase II to assess proliferation in cultured cell lines. Although the antibody was specific to the extracted protein, constituents of the rabbit serum bound non-specifically throughout fixed cells. Further purification of this antibody preparation could realize its diagnostic potential. Antibody against proliferating cell nuclear antigen was more specific, resulting in good correlation flow cytometrically with the S-phase fraction of the cultured cell lines. The results obtained with these protein markers deems further investigation into their use as prognostic indicators. The protocol has been established to apply this technology to tumor samples and establish a meaningful parameter of biological behavior of tumors, upon which treatment regimens can be confidently based.
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PMID:Measurement of proliferative index in squamous cell carcinoma by flow cytometry. 136 86

In an attempt to characterize and overcome tumor cell resistance to amsacrine (m-AMSA), we studied the structure-activity relationships for amsacrine and seven of its analogs. Using the human leukemic cell line, CCRF-CEM, and its derivatives that express either P-glycoprotein (Pgp)-associated multidrug resistance (MDR) (CEM/VLB100) or altered topoisomerase II-associated MDR (at-MDR) (CEM/VM-1), we assessed antitumor effects of these drugs in a 48-hr growth inhibition assay. We also measured drug-topoisomerase II interactions in an intact cell assay that permits quantitation of drug-stabilized DNA-topoisomerase II complexes. We found that among the tested compounds, amsacrine has an intermediate effect on cell growth in all three cell lines. The CEM/VM-1 cells were 8.6-fold cross-resistant to m-AMSA, and the cross-resistance to the analogs was from 3.0- to 10.5-fold. In the CEM/VLB100 cells, the resistance pattern was different: several analogs, including amsacrine, showed little or no cross-resistance (0.5- to 2.8-fold), whereas for those compounds with substituents at position 3 on the acridine ring, resistance was relatively higher (9.9- or 16.2-fold). Substituents at this position substantially decrease the lipophilicity of the two compounds examined, probably because they both contain amino groups that would be charged at physiologic pH. Compound 12489, having a 1'-NHSO2C6H4NH2 substituent, was very potent in the three cell lines, showing only a slightly higher IC50 value in the CEM/VM-1 line and a lower IC50 value in the CEM/VLB100 and in the CEM cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Structure-activity studies of amsacrine analogs in drug resistant human leukemia cell lines expressing either altered DNA topoisomerase II or P-glycoprotein. 136 24

The development of tumor drug resistance is the major obstacle to successful systemic chemotherapy. Therefore, devising methods for reversing drug resistance is a high priority and could lead to significant improvements in cancer treatment. The mechanisms of tumor drug resistance are manifold and are not well understood. The phenomenon of multidrug resistance (MDR) represents the development of resistance to most drugs, regardless of their chemical structure. Several types of MDR are known, for example, the overexpression of a cell membrane glycoprotein (P-170), increased activity of glutathione S-transferase, elevated levels of glutathione (GSH), and alterations in topoisomerase action. A partial reversal of tumor drug resistance has been achieved by the use of competitive inhibitors for the function of glycoprotein P-170, or by the inhibition of GSH synthesis; however, this strategy has not been substantially successful for improving the response of human tumors to clinical therapy. We have recently used electroporation, in conjunction with the cytotoxic drug, cisplatin (cDDP), in an attempt to circumvent drug resistance in cDDP-resistant mouse tumor cells (RIF/Ptr1). Electroporation is the application of a high-voltage electric shock which is known to create transient pores in plasma membranes of cultured cells. Electroporation plus cDDP treatment increased intracellular cDDP concentration and reversed cellular resistance to cDDP-induced cell killing.
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PMID:New approaches to the study of tumor drug resistance. 136 47

Recombinant human tumor Necrosis Factor (rHuTNF) produced dose-dependent cytotoxicity against human ovarian cancer cells, OSC and OMC, obtained from fresh ascites. A combination of rHuTNF and the topoisomerase II inhibitor, Mitoxantrone, produced dose-dependent synergistic cytotoxicity on OSC and OMC cells. When OMC cells were incubated simultaneously for one hour with rHuTNF and Mitoxantrone, increased numbers of DNA single-strands breaks were produced. rHuTNF alone did not induce DNA single-strands breaks. These data are consistent with a role for topoisomerase-linked DNA lesions in the rHuTNF mediated potentiation of killing cells by Mitoxantrone.
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PMID:Augmentation of antineoplastic effects by the combination of recombinant human tumor necrosis factor and mitoxantrone on primary culture of human ovarian cancer cells. 144 98

In the concluding section of this review of cancer destruction by disruption of energy metabolism, the cellular mechanism for interfering with energy production is considered in terms of drug resistance arising independently of previous tumor injury. The occurrence of various degrees of damage to cancerous growths as a consequence of secondary shock is interpreted on the basis of elevated levels of stress hormones, including vasopressin, which have earlier been shown to interfere with energy metabolism in a murine sarcoma. Similarly, the indirect action of various antineoplastic procedures can be related to a role for the endocrine system, with particular reference to vasopressin and inappropriate anti-diuretic hormone secretion syndrome. Multiple drug resistance is also discussed, and the mode of action of the topoisomerase inhibitor doxorubicin is critically examined. The basis of selectivity of disruption of energy metabolism by substances such as hydralazine and L-isoproterenol is discussed from the viewpoint of altered activities of antioxidant enzymes in transformed cells, but these considerations alone are not thought to be sufficient to account for the highly specific nature of the antineoplastic action. Conversely, antioxidant enzymes, more especially those concerned with glutathione metabolism, probably play a major role in multiple drug resistance, although in this respect the case of autoxidative cellular injury awaits attention. Theoretical strategies for the intensification of tumor injury include the aim of prolonging the half-lives of lysophosphatides within damaged tissue. Whereas the clinical application of the principle of tumor destruction through selective disruption of energy metabolism is at present compromised for lack of information, the use of phenothiazines as antineoplastic agents is feasible, and awaits serious exploitation. The relative lack of incapacitating side-effects of phenothiazines should provide an attractive change for the clinical oncologist.
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PMID:Cancer destruction in vivo through disrupted energy metabolism. Part III. Spontaneous drug resistance, selectivity of antineoplastic action, and strategies for intensifying tumor injury. 146 33

Amplification of oncogenes in human tumors has been associated with a poor prognosis. Microscopically visible amplified oncogenes can be located either within chromosomes in homogeneously staining regions, or in an extrachromosomal compartment in double minutes (DMs). The DMs are composed of submicroscopic circular DNA (episomes), which have multimerized to form the microscopically visible DMs. When amplified oncogenes are located in an extrachromosomal location, they are vulnerable to loss from the cell. In this study we have found that the topoisomerase II inhibitor etoposide, in concentrations easily achievable clinically, causes a significant decrease in the number of DM-containing amplified oncogenes in three different human tumor cell lines. The elimination of amplified oncogenes from the cell could be accompanied by less aggressive tumor behavior.
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PMID:Preclinical leads for innovative uses for etoposide. 149 22

Studies of the biological chemistry of most anticancer drugs have revealed their cytotoxicity is expressed after the drugs have entered cells. It is thought that anthracycline antitumor drugs exert their cytotoxicity by entering cells, diffusing into nuclei, and inhibiting topoisomerase II and/or intercalating DNA base pairs. In order to deliver anthracyclines to transferrin (TRF) receptors on the plasma membranes of human tumor cells, we have prepared conjugates of adriamycin (ADR) with human TRF. These TRF-ADR conjugates were found to be stable at low pH and to exert more efficient cytotoxicity than free drug. By using spectrofluorometry, we found that the fluorescence of ADR within the conjugate was quenched by native DNA, demonstrating the presence of conformationally available drug to intercalate with nuclear DNA. However, fluorescence was not quenched when conjugate was reacted with viable cells, indicating that ADR did not reach the nucleus. Results of fluorescence microscopy experiments confirmed that free but not conjugated ADR reached the nuclei of viable cells, and TRF-ADR conjugates labeled with fluorescein isothiocyanate were found to initiate lateral diffusion as determined by patch and cap reactions. The involvement of TRF receptors was shown by flow cytometry experiments in which native TRF inhibited binding of fluorescein-labeled TRF-ADR conjugates. These data suggest that TRF-ADR conjugates mediate cytotoxicity by a mechanism other than intercalation with nuclear DNA. This mechanism, revealed by conjugating ADR to a TRF carrier, may not initiate complications such as cardiotoxicity and drug resistance.
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PMID:Transferrin conjugates of adriamycin are cytotoxic without intercalating nuclear DNA. 157 71

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