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)

The multidrug-resistant P-glycoprotein (Pgp), a M(r) 170,000 plasma membrane protein encoded by the mammalian multidrug resistance gene (MDR1), appears to function as an energy-dependent efflux pump. Many of the drugs that interact with Pgp are lipophilic and cationic at physiological pH. We tested the hypothesis that the synthetic gamma-emitting organotechnetium complex, hexakis(2-methoxyisobutylisonitrile)technetium(I) ([99mTc]SESTAMIBI), a lipophilic cationic radiopharmaceutical, could be a suitable Pgp transport substrate capable of functional imaging of the MDR phenotype. The cellular pharmacological profile of [99mTc]SESTAMIBI transport was examined in Chinese hamster V79 lung fibroblasts and the 77A and LZ derivative cell lines which express modestly low, intermediate, and very high levels of Pgp, respectively. Steady-state contents of [99mTc]SESTAMIBI in V79, 77A, and LZ cells were 10.0 +/- 0.5 (SEM) (n = 9), 3.6 +/- 0.5 (n = 8), and 0.4 +/- 0.02 (n = 9) fmol.(mg protein)-1 (nMo)-1, respectively, consistent with enhanced extrusion of the imaging agent by Pgp-enriched cells. Maximal doses (> 100 microM) of the multidrug-resistant reversal agents verapamil and cyclosporin A enhanced [99mTc]SESTAMIBI accumulation in V79, 77A, and LZ cells by approximately 10-, 25-, and 200-fold, respectively. The median effective concentration values for tracer accumulation in the presence of verapamil in V79, 77A, and LZ cells were 4, 100, and 200 microM, and those for cyclosporin A were 0.9, 3, and > 25 microM, respectively. Pgp-mediated [99mTc]SESTAMIBI transport occurred against its electrochemical gradient and was found to be ATP dependent displaying an apparent Km of 50 microM. Carrier-added [99Tc]SESTAMIBI was 11- to 13-fold less toxic in multidrug-resistant cells, and inhibited photolabeling of Pgp by [125I]iodoaryl azidoprazosin in a concentration-dependent manner; half-maximal displacement was observed at approximately 100- to 1000-fold molar excess [99Tc]SESTAMIBI. Exploiting the favorable gamma emission properties of 99mTc, functional expression of Pgp was successfully imaged in human tumor xenographs in nude mice with pharmacologically inert tracer quantities of [99mTc]SESTAMIBI. Functional imaging with these organotechnetium complexes may provide a novel mechanism to rapidly characterize Pgp expression in human tumors in vivo, target reversal agents in vivo, and ultimately provide a means to direct patients to specific cancer therapies.
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PMID:Functional imaging of multidrug-resistant P-glycoprotein with an organotechnetium complex. 809 97

Lung-tumor cells from pleural effusion of four refractory patients and in cell lines established from them were analyzed for anthracycline retention, cytotoxicity, and MDR-1 gene and P-glycoprotein expression. Murine leukemic P388 and doxorubicin-resistant P388/R84 lines were used as controls. The 50% growth-inhibitory concentration (IC50) for doxorubicin among lung-tumor lines varied from 0.16 to 0.31 microM in soft agar. Heterogeneity in doxorubicin or daunorubicin retention and response to the efflux-blocking action of 25 microM prochlorperazine was noted in pleural effusion of FCCL-1, -4, and -8. Among the cell lines established, an efflux-blocking effect in a subpopulation was noticed only in FCCL-1 and -4. Although the MDR-1 gene was present in all cell lines, including P388, its expression was pronounced only in P388/R84 and FCCL-1. In situ hybridization of antisense RNA probe to tumor cells showed high heterogeneity for MDR-1 message in the human lung-tumor cells as compared with the murine cells. Northern and slot blot hybridization confirmed in situ hybridization in lines with high levels of MDR-1 expression. The synthesis of MDR-1 mRNA and P-glycoprotein in tumor lines was correlated. The results suggest that because of extensive tumor-cell heterogeneity in human tumors, monitoring of MDR expression by in situ hybridization, quantitation of P-glycoprotein content by laser flow cytometry (and/or immunohistochemical methods), and drug efflux (by laser flow cytometry) may be the best ways to monitor multidrug resistance in human tumors.
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PMID:MDR-1 gene expression, anthracycline retention and cytotoxicity in human lung-tumor cells from refractory patients. 809 59

Resistance of tumor cells to doxorubicin is a multifactorial phenomenon. In the present investigation, the ability of resistance modifiers against different resistance mechanisms was analysed. Substances which block P-glycoprotein (P-170) function circumvented resistance of doxorubicin-resistant sarcoma 180 (S180) cells completely (verapamil, thioridazine) or partially (hycanthone), whereas inhibitors of glutathione S-transferase (ethacrynic acid, N-ethylmaleimide, buthionine sulfoximine), and protein kinase C (staurosporine, acridine orange) caused only a partial reversion of resistance. In contrast, an inhibitor of alkaline phosphatase (levamisole) did not overcome doxorubicin-resistance. These results indicate that P-glycoprotein blockers might be more effective to modulate doxorubicin-resistance of S180 cells as compared to other modifiers. Further investigations using other MDR cell lines are required to clarify the generality of these findings.
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PMID:Reversal of doxorubicin-resistance in sarcoma 180 tumor cells by inhibition of different resistance mechanisms. 810 93

The treatment of advanced metastatic prostate cancer by hormone manipulation or orchiectomy is frequently followed by the appearance of hormone-insensitive and highly chemoresistant tumor cells. In this study we have investigated the contribution of the P-glycoprotein-mediated drug efflux (multidrug-resistance; MDR) to the cellular resistance of prostate carcinoma-derived cell lines to diverse cytotoxic drugs by detection of P-glycoprotein (P-gp) measurement of P-gp-mediated drug transport and reversal of MDR by chemosensitizers. The in vitro chemosensitivity of three prostate cancer cell lines (PC-3, DU-145 and LNCaP) to doxorubicin was measured in a thymidine incorporation proliferation assay. Growth of the partially hormone-sensitive cell line LNCaP is inhibited by low doses of doxorubicin (IC50:27 ng./ml.), but PC-3 and DU-145 are highly resistant to the drug, with IC50 values of 10 micrograms./ml. and 7.5 micrograms./ml., respectively. The chemosensitivity of the PC-3 and DU-145 cells is increased in response to 1 microM. verapamil, 1 micrograms./ml. cyclosporine A and 2 microM. tamoxifen, which are known to partially reverse the MDR phenotype in other resistant tumors. A verapamil-sensitive drug efflux has been demonstrated for the PC-3 and Du-145, but not for the LNCaP, cell lines, using flow cytometric measurements of the P-gp substrate rhodamine 123 efflux from preloaded cells. In agreement with the functional measurements, the expression of the P-glycoprotein was detected in the PC-3 and Du-145 cell lines in Western blots using the monoclonal C 219 antibody. In conclusion, the chemoresistant and hormone-insensitive PC-3 and Du-145 cell lines express P-gp and exhibit verapamil-sensitive drug efflux, indicative of MDR. However, the low MDR-reversal rates observed in these cell lines in response to chemosensitizers in clinically achievable concentrations (approximately 2- to 3-fold reversal), point to non-MDR-associated cellular mechanisms as dominant factors of chemoresistance in prostate cancer.
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PMID:Role of the MDR-1-encoded multiple drug resistance phenotype in prostate cancer cell lines. 810 10

Our early experience with Selectron MDR in treating cervical cancer patients at Osaka University Hospital is presented. From May 1991 through December 1992, a total of 22 patients (stage Ia, 1; stage Ib, 3; stage IIa, 1; stage IIb, 2; stage IIIb, 13 and stage IVa, 2) with previously untreated uterine cervical cancer and intact uterus were treated with mid-dose rate intracavitary therapy administered with a Selectron. A rigid applicator made of stainless steel for the Selectron was used for the treatment. The 137Cs source had an activity of 1.48 GBq as of reference time. Source loading corresponded to the Manchester System. Early tumor responses for all patients were complete. No acute radiation injury has been observed. There have been two local recurrences in stage IIIb patients. One of them developed para-aortic lymph node metastasis and died from distant metastasis. Another patient in stage IIIb had para-aortic and left supraclavicular lymph node metastasis and died from distant metastasis. Four patients developed rectal bleeding (grade 1, 3; grade 3, 1). One of them had been treated for aplastic anemia with steroid. The cause of grade 3 rectal bleeding was considered to be technical failure in intracavitary application. The remaining two patients recovered without treatment. From our early experience, it is concluded that Selectron MDR can be used for cervical cancer patients as safely and effectively as our previously used high-dose rate machine.
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PMID:Mid-dose rate intracavitary therapy for cervical cancer with a Selectron: a preliminary report. 815 68

MA is an orally active PG derivative with an excellent safety profile that is used primarily for the treatment of carcinomas of the breast and endometrium. We investigated the potential application of MA as an MDR-reversal agent using cell culture and human tumor xenograft models. The reversing activity of MA in vitro was compared with that of PG and VER in two human MDR cell lines, the colon carcinoma HCT-116/VM46 and the breast carcinoma MCF-7/ADR, and in a murine cell line, J774.2. At concentrations as low as 3 microM, MA was capable of partially restoring sensitivity to Act D in the HCT-116/VM46 cells and sensitivity to DOX in the MCF-7/ADR cells. Although less effective than VER, MA was about 2.5 times more potent than PG in reversing MDR at equimolar concentrations. Increased accumulation of DOX in drug-resistant cells that were treated simultaneously with MA was observed by flow cytometry. In vivo, using established human colon and breast carcinoma xenografts implanted s.c. in athymic mice, the combined therapy with MA and DOX resulted in enhanced antitumor activity relative to that of DOX alone in the MDR sublines. These results suggest that MA may be a promising clinical MDR-reversing agent.
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PMID:Reversal of the human and murine multidrug-resistance phenotype with megestrol acetate. 819 72

An MDR cell line resistant to 1.0 microM vincristine (designated HOB1/VCR1.0) was established. The growth rate of HOB1/VCR1.0 cells was slow. The cells did not go into active proliferation although the drug treatment was released for two months (revertant cells). The HOB1/VCR1.0 cell line and its revertant were resistant to a high dose of vincristine (up to 20 microM). These two cell lines showed a decrease in expression of the hyperphosphorylated form of the retinoblastoma protein, of which the hypophosphorylated form has been considered to be a tumor suppressor. Similar phenomena were observed in the parental cells surviving brief treatment with a lethal dose of vincristine (0.05 microM). The current study gives the impression that self-inhibited growth rate may participate in the initial drug resistance before the expression of P-glycoprotein when tumor cells are suddenly exposed to chemotherapeutic agents.
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PMID:The role of reduced growth rate in the development of drug resistance of HOB1 lymphoma cells to vincristine. 822 21

Seven binary vinca alkaloid congeners were newly synthesized as the C14' or C16'(20') or C14'16'(20') stereoisomers of C20'-modified VBL. These congeners lacked detectable antimicrotubule activity in assays of polymerization of purified microtubule protein and of mitotic arrest induction. The compounds modulated the cytotoxicity of VBL, VCR, and DOX in sarcoma and colon-tumor cell lines. In wild-type cell lines, each congener elicited a concentration-dependent enhancement of cytotoxicity that was drug- and cell-type-selective. For example, C20'-deoxy C14'16'20'-epi VBL sensitized sarcoma S180 cells 19-fold to DOX and 11-fold to VCR but had no effect on VBL cytotoxicity. In the rat colon-cancer cell lines there was preferential enhancement of VCR cytotoxicity by most congeners. In two MDR cell strains of S180, the modulation potency of each congener was independent of specific drug or of resistance level. As a result, the amount of modulator (concentration) required for reversal was proportional to the drug-resistance level. Such properties were not displayed by the monomeric vinca alkaloid modulator vindoline. The potency of drug modulation in both wild-type and MDR cells strains was dependent on the stereoisomeric form of the congener and its C20'-substituents.
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PMID:Modulation of drug cytotoxicity in wild-type and multidrug-resistant tumor cells by stereoisomeric series of C-20'-vinblastine congeners that lack antimicrotubule activity. 843 67

A large number of cell biological parameters are currently available to predict the prognosis of patients with breast cancer, but it is still difficulty accurately to predict the response to treatment. A valuable prognostic factor can be a poor predictive factor for response, and vice versa. High tumor levels of ER, PgR, AR and pS2 predict a relatively good response to endocrine therapy, while EGF-R positively, HER2/neu positivity, aneuploidy, high proliferation indices and possibly high uPA levels indicate a high chance of poor response to endocrine therapy in metastatic breast cancer. With respect to chemotherapy, a high proliferation rate and HER2/neu amplification predict a good response to therapy in metastatic disease, while MDR gene expression and possibly c-myc amplification are related to a worse response. In conclusion, the newer cell biological parameters can be used to select high and low-risk patients, type of systemic treatment, and as targets for new treatment modalities.
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PMID:Cell biological factors associated with the response of breast cancer to systemic treatment. 848 34

The term multidrug resistance is defined in this article as cellular resistance to anticancer agents due to a decreased concentration of active drug at the target sites that is caused by increased metabolism or altered transport or routing of the active drug species. Resistance related to alterations in the drug targets or apoptotic pathways is not discussed. Until recently multidrug resistance was associated almost exclusively with p-glycoprotein (Pgp)-overexpression. However, other non-Pgp-related mechanisms have been tracked down. It has been shown that transfection of the gene that encodes a novel drug transport protein, the multidrug resistance protein, induces cross-resistance for many multidrug resistance drugs as well as active transport of daunorubicin from tumor cells. Surprisingly, it has also been found that multidrug resistance protein mediates transport of negatively charged species that are not classic multidrug resistance drugs, such as leukotriene C4 and other glutathione conjugates as well as negatively charged dyes. It was therefore suggested that multidrug resistance protein is identical with the multispecific organic anion transporter. The transport rate of several positively charged drugs (vincristine, rhodamine-123, daunorubicin) by multidrug resistance protein appeared to be dependent on the cellular glutathione levels. Multidrug resistance protein seems to be constitutively expressed in normal tissues at a low level with few tissues having higher expression. Multidrug resistance protein overexpression in in vitro-selected MDR cell lines occurs relatively frequently in lung cancer and leukemia cell lines and often precedes Pgp overexpression. Differential expression has been demonstrated in tumor samples, which suggests a role in resistance to chemotherapy in at least certain tumor types. Modulation studies of multidrug resistance protein activity are still scarce. Other non-Pgp, non-multidrug resistance protein multidrug resistance mechanisms probably exist but have not been identified at the molecular level as yet.
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PMID:Multidrug resistance proteins and other drug transport-related resistance to natural product agents. 854 2

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