Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Revealing the regulatory mechanism of the multidrug resistance 1 (MDR1) gene is important to gain understanding of MDR in tumor cells. Using MDR1 deletion constructs and the 22W mutant of c-Raf in which the NH2-terminal half has been deleted, we examined the effect of the activated Raf on human MDR1 promoter activity in transient expression assay and stable transfectants of GHE-L cells. A DNA sequence exhibiting strong activation of MDR1 promoter by 22W was located between -197 and -136 containing the upstream heat shock element (HSE) motifs without other regulatory elements, whereas the MDR1 deletion construct containing downstream HSE motif showed a relatively weaker activation by 22W. We observed that the activated Raf significantly potentiated the induction of MDRCAT activity in GHE-L cells by sodium arsenite or heat shock, which stimulates heat shock factor (HSF) binding to HSE. In addition, protein kinase A inhibitor (H-87) blocked the activation of the MDR1 promoter by 22W in GHE-L cells in a dose-dependent manner. From these results, we propose the possibility that Raf- and protein kinase A-dependent pathways control the transcription of MDR1 gene via a mechanism involving the modulation of HSF activity.
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PMID:Effect of the activated Raf protein kinase on the human multidrug resistance 1 (MDR1) gene promoter. 855 9

Water-soluble derivatives of camptothecin, and active topoisomerase I inhibitor, have shown a broad spectrum of activity against human tumors. Early clinical trials with the water-soluble sodium salt of camptothecin were hindered by significant cystitis, gastroenteritis, and leukopenia. Furthermore, the sodium salt of camptothecin has been shown to have significantly less activity than the water-insoluble lactone form of the compound. We describe a formulation of lipid-complexed CPT (LC-CPT; particle size range 20.8-208.1 nm) that is very easy to prepare and allows for intravenous administration in vivo in clinically relevant lipid-drug ratios (12.5:1 w/w). The lipid formulation had in vitro antitumor activity similar to that of CPT formulated without lipids and displayed similar cytotoxicity against MDR-1-negative and -positive tumor cells. The biodistribution of CPT was profoundly affected by lipid complexation; free CPT achieved the greatest concentration in the pulmonary parenchyma while LC-CPT achieved the highest concentration in the gastrointestinal tract. LC-CPT had significant antitumor activity in vivo against intraperitoneal L1210 and P338 leukemia and appeared to be more potent then free CPT.
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PMID:Lipid-complexed camptothecin: formulation and initial biodistribution and antitumor activity studies. 861 6

New 2-[2'-(dimethylamino)ethyl]-3H-dibenz[de,h]isoquinoline-1,3-diones with substituents at the 6- and 7-positions were prepared. Nucleophilic aromatic displacement was a key reaction in the syntheses. Ten of the new compounds were more potent than the unsubstituted compound, azonafide, in a panel of tumor cells including human melanoma and ovarian cancer and murine sensitive and MDR L1210 leukemia. They also were less cardiotoxic in cell culture. Four of these compounds were not cross-resistant with the MDR leukemia, and one of them, 6-ethoxyazonafide, was nearly as potent against solid tumor cells as leukemia cells. These compounds also had good potency against human breast, colon, and lung cancer cells, including doxorubicin and mitoxantrone resistant cell lines. Advantages of the new analogues over azonafide were less in vivo, but 6-ethoxyazonafide was more effective against L1210 leukemia and subcutaneous B16 melanoma in mice. Although correlations of antitumor potency in cells and physicochemical properties of substituents were not found, there were statistically significant correlations of DNA melt transition temperature (delta Tm) with potency in solid tumor cells and sensitive and MDR resistant L1210 leukemia cells for 6-substituted azonafides and with solid tumors for 7-substituted azonafides.
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PMID:6- and 7-substituted 2-[2'-(dimethylamino)ethyl]-1,2-dihydro-3H-dibenz[de,h] isoquinoline-1,3-diones: synthesis, nucleophilic displacements, antitumor activity, and quantitative structure-activity relationships. 864

In medullary carcinoma of the thyroid (MTC), drug resistance remains the major obstacle to effective chemotherapy. In this work, we studied the effect of S9788 on doxorubicin (DOX) efficiency in a MTC cell line (TT cells) injected in nude mice. After two passages, TT cells were injected in 40 nude mice divided into four groups [controls and groups receiving DOX alone (10 mg/kg), S9788 alone (50 mg/kg) or both DOX + S9788]. The weight of the mice, tumoral volume (TV), doubling time (DT) of the tumor and survival time of mice were evaluated in each group. In addition, the efficiency of DOX with or without S9788 was assessed by the inhibition of tumoral growth and specific growth delay. In vitro, glycoprotein P 170 (P-gp) was detected on tissular sections and on tumoral cells by immunocytochemistry or flow cytometry with several monoclonal antibodies: JSB1, MRK 16, C219 and UIC2. In vivo the weight of the mice decreased slightly with DOX and dropped dramatically with DOX + S9788. The DT of the tumors increased with DOX over controls (22.5 +/- 8.5/12.7 +/- 3.9 days) and showed a higher value with DOX + S9788 (29.2 +/- 11.4 days). Inhibition of tumoral growth, 89% with DOX, fell to 47.6% with DOX + S9788. Specific growth delay increased with the double treatment (130 versus 75% with DOX alone). In vitro, P-gp was not detected on tissular sections and cells whatever the method and the antibody used. In conclusion, S9788 potentiates the efficiency of DOX treatment in vivo. The absence of P-gp may result from the absence of translation of the MDR1 gene. The reversal effect of S9788 may involve another resistance mechanism such as the MDR Sister of MRP.
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PMID:Effect of S9788 on the efficiency of doxorubicin in vivo and in vitro in medullary thyroid carcinoma xenograft. 879 7

Multiple myeloma is a plasma cell malignancy which is generally incurable in spite of a high initial response to chemotherapy. Relapsing disease commonly heralds an increase in the incidence of drug resistance which is often mediated by the product of the MDR-1 gene, P-glycoprotein (Pgp). One approach to modulating drug resistance due to Pgp overexpression has involved the use of agents known as chemomodulators which inhibit its function. We have developed a human xenograft model of multiple myeloma using the SCID mouse to evaluate the efficacy and toxicities of new MDR-1 chemomodulators. Cyclosporin A (CsA) is a widely used immunosuppressant which has been demonstrated to be a potent inhibitor of Pgp in vitro at concentrations which are clinically achievable. Preliminary studies revealed an acute toxicity in our SCID model which was associated with the combination of CsA and doxorubicin, and which was not observed with either drug alone, nor with cremaphor, the vehicle for CsA. In the current study, non-tumor bearing SCID mice were dosed with doxorubicin or the combination of doxorubicin with cremaphor, verapamil or CsA. Animals were sacrificed and tissues harvested for morphologic examination and for HPLC analysis of doxorubicin levels. In all tissues examined, there was a marked increase in tissue levels of doxorubicin when combined with CsA. Results also revealed a higher incidence and severity of myocardial damage in those animals receiving the combination of doxorubicin and CsA than in those receiving other combinations. The elevations in tissue levels observed with doxorubicin and CsA may contribute to the acute toxicities observed in the SCID mouse model.
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PMID:Cardiotoxicity in the SCID mouse following administration of doxorubicin and cyclosporin A. 884 85

New 2-[2'-(dimethylamino)ethyl]-1,2-dihydro-3H-dibenz[de,h]isoquinoline-1,3- diones with substituents at the 4, 8, 9, 10, and 11 positions were synthesized. Diazonium salts prepared from aminoazonafides were key intermediates for many of the analogues. Six of the new compounds were more potent than azonafide in a panel of tumor cells including human melanoma and ovarian carcinoma and murine L1210 leukemias. Three of these compounds, the 10-OCH3, 10-OC2H5, and 10-F analogues, had better ratios of cardiotoxicity to tumor-cell toxicity than azonafide. Eight compounds were not cross-resistant with MDR L1210 leukemia, and the 10-CN analogue was more potent against solid tumor cells than leukemia cells. The 9-OH, 10-CN, and 10-F analogues had high potency against both sensitive and resistant cell lines of MFX 7 breast carcinoma and WiDr colon carcinoma and sensitivity A599 lung carcinoma. Advantages of the 10-Cl, 10-NH2, and 10-CN analogues over azonafide were apparent in P388 leukemia in mice, and the 10-CN analogue was more effective than doxorubicin in this assay. Quantitative structure-activity relationship studies revealed statistically significant correlations between DNA binding strength of 8- and 10-substituted azonafides, as measured by deltaTm, and toxicity to tumor cells. There also were correlations between substituent size, as measured by MR, and cytotoxicity for 9- and 10-substituted azonafides and between MR and deltaTm for 4- and 11-substituted azonafides. Lipophilicity of substituents (pi) correlated with cytotoxicity for 9-, 10-, and 11-substituted azonafides. These results lend support to a model in which DNA binding strength influences cytotoxic potency, and lipophilicity increases DNA binding whereas large substituents decrease it.
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PMID:2-[2'-(Dimethylamino)ethyl]-1,2-dihydro- 3H-dibenz[de,h]isoquinoline-1,3-diones with substituents at positions 4, 8, 9, 10, and 11. Synthesis, antitumor activity, and quantitative structure-activity relationships. 896 May 58

Resistance to anti-tumor drugs can be mediated by overexpression of the multidrug resistance 1 (MDR1) protein (P-glycoprotein). In three MDR1-transfected cell lines (Gill et al. Cell 71: 23-32, 1992; Altenberg et al. Cancer Res. 54: 618-622, 1994), a hypotonic stress-induced Cl- current has been demonstrated that can be inhibited by MDR1 substrates and Cl- channel blockers. We tested the hypothesis that MDR1 expression confers additional Cl- conductance by measuring regulatory volume decrease (RVD) in four pairs of isogenic cell lines and 36Cl efflux in two cell lines with and without hypotonic stress. The kinetics of RVD and response to Cl- channel blockers were indistinguishable in MDR and parental cells. Additionally, no significant difference was seen between 36Cl efflux rate constants under hypotonic conditions between NIH/3T3 and L1210 parental and MDR cells. We conclude that, in intact cells, the expression of MDR1 does not alter the rate of volume regulation or the rate 36Cl efflux under hypotonic conditions between parental and MDR cells.
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PMID:MDR1/P-glycoprotein function. II. Effect of hypotonicity and inhibitors on Cl- efflux and volume regulation. 896 47

Five different gene transfer protocols have progressed into human clinical trials for the treatment of brain tumors. Two utilize the in vivo transfer of the Herpes Simplex-thymidine kinase (HS-tk) gene by either retroviral or adenoviral gene transfer. HS-tk confers a sensitivity to the anti-herpes drug ganciclovir (GCV). Insertion of HS-tk into tumors and subsequent treatment with GCV has successfully eliminated tumors in experimental animal models despite less than a 100% gene transfer efficiency. This phenomenon, the 'bystander effect', allows the destruction of neighboring tumor cells not transduced with HS-tk. Two other approaches use ex vivo gene transfer of either the IL-2 or antisense insulin-like growth factor type 1 (IGF-1) genes into autologous tumor cells. In animal models, tumor cells genetically altered with antisense IGF-1 or IL-2 genes induce a potent cell-mediated antitumor response. The fifth approach uses the genetic modification of hematopoietic stem cells instead of tumor cells. In this approach, the multiple drug resistance (MDR-1) gene is transferred into stem cells to protect them from the toxic effects of certain chemotherapy drugs. This may allow the administration of higher doses without increasing bone marrow toxicity. Together, these clinical trials will provide critical information needed to develop improved gene transfer technologies for humans and to attain clinical benefit for cancer patients.
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PMID:Gene therapy for malignant neoplasms of the CNS. 897 99

Circulating hematopoietic progenitor cells include pluripotent stem cells expressing indefinite self-renewal capacity and, therefore, can be used for restoring hematopoiesis following myeloablative treatment. A transient shifting of progenitor cells from extravascular sites into the circulation by chemopriming and/or cytokine treatment enables the collection by apheresis of a sufficient number of progenitor cells to guarantee engraftment. The addition of new cytokines (e.g., thrombopoietin) and large volume apheresis will increase peripheral blood progenitor cell (PBPC) procurement efficiency, whereas the risk of concurrently mobilizing clonogenic tumor cells in patients with solid tumors and hematologic malignancies remains to be carefully evaluated. As compared with bone marrow (BM) progenitor cells, the use of PBPCs significantly shortens the recovery of WBC and platelets following transplantation. Most recently, successful allogeneic transplantation of PBPCs has been reported without increasing the incidence and severity of acute graft-versus-host-disease. Due to the more than one log higher number of lymphoid subsets contained in a PBPC allograft, one might expect a more pronounced graft-versus-leukemia effect in the transplant patient. Similar to BM cells, ex vivo manipulation of mobilized apheresis products is used or being developed (ultralight density percoll gradient, CD8 depletion, selection of graft facilitating cells, CD34+ cell purification and others). The transduction and long-term expression of marker genes and, most recently, therapeutic genes (e.g., MDR-1) in PBPCs have been successfully demonstrated by several groups in patients with hematologic malignancies and selected solid tumors. It is expected that, based on the easier procurement of hematopoietic stem cells and advantageous engraftment characteristics, PBPCs in both autologous and allogeneic transplant situations will eventually replace BM-derived progenitor cells.
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PMID:Peripheral blood progenitor cell transplantation: a replacement for marrow auto- or allografts. 899 38

The expression of membranous glycoprotein gp-170, cytoplasmic glutathione (GSH) and energy-related glucose-6-phosphate dehydrogenase (G-6-PD) in cultured normal urothelial cells and transitional cell carcinoma (TCC) cell lines was analyzed by flow cytometric and enzymatic methods. The chemosensitivity of these tumor cells to four major types of anticancer drugs, including cisplatin, thiotepa, methotrexate, 5-fluorouracil, adriamycin and vinblastine, was correlated with biological activities in TCC cell lines. The TCC cell lines displayed a general sensitivity to anticancer drugs with a low incidence of highly resistant cell lines (23%). The expression of multidrug resistance was not related to cellular differentiation or invasiveness of cancer cells. Only 24% of TCC cell lines had an elevated expression of gp-170, but their expression was not related to drug resistance. Increased cytoplasmic GSH and G-6-PD was observed in over 90 per cent of TCC cell lines, but no correlation with drug resistance and cellular differentiation was observed. The biological activities of GSH and G-6-PD were not related to the drug resistance of TCC. The low expression rate of gp-170 in TCC cells indicates that other mechanisms should be involved in the development of MDR in TCC cells.
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PMID:The correlation of membranous glycoprotein-gp-170, cytoplasmic glutathione and glucose-6-phosphate dehydrogenase levels with multidrug resistance in transitional cell carcinoma cell lines of the urinary tract. 899 7


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