UMLS:C0027651 - FACTA Search

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

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

A series of 70 triazine derivatives have been synthesized and tested for their capacity to modulate multidrug resistance (MDR) in DC-3F/AD and KB-A1 tumor cells in vitro, in comparison with verapamil (VRP), a calcium channel antagonist currently used in therapy as an antihypertensive drug, which also shows MDR modulating activity. Among the 12 selected compounds, 16 (S9788) showed high MDR reversing properties in vitro (300- and 6-fold VRP at 5 microM in DC-3F/AD and KB-A1 cells, respectively) and induced a strong accumulation of adriamycin. The relationship between the increase of ADR accumulation and the fold reversal induced by these compounds and their lack of effects on the sensitive DC-3F cells suggest that they act mainly by inhibiting the P-glycoprotein (Pgp) catalyzed efflux of cytotoxic agents, as already described for a majority of MDR modulators. In vivo, in association with the antitumor drug vincristine (0.25 mg/kg), 16 (100 mg/kg) increased the T/C by 39% in mice bearing the resistant tumor cell line P388/VCR. According to these interesting properties, 16 was selected for a clinical development because it was more bioavailable than 34, even though it was less active.
...
PMID:New triazine derivatives as potent modulators of multidrug resistance. 135 53

We measured the levels of messenger RNA of the human multidrug-resistant (MDR) gene in 15 human musculoskeletal tumors. In metastatic tumors and those which did not respond to combination chemotherapy, there was an increased expression of this gene. No evidence of expressions of the MDR gene was found in the benign tumors. The high expression of the MDR gene from musculoskeletal tumors apparently induced a multidrug resistance, and this acquired resistance may be due to outgrowth of the P-glycoprotein-expressing MDR tumor. Elucidation of expression of the MDR gene is an important step in malignant musculoskeletal tumors research.
...
PMID:Expression of the multidrug-resistant gene in human musculoskeletal tumors. 135 46

P-glycoprotein (Pgp), encoded by the MDR1 gene, is an active efflux pump for many structurally diverse lipophilic compounds. Cellular expression of Pgp results in multidrug resistance (MDR) in vitro and is believed to be a clinically relevant mechanism for tumor resistance to chemotherapy. We have developed a mouse monoclonal antibody, UIC2, that recognizes an extracellular epitope of human Pgp. UIC2 inhibited the efflux of Pgp substrates from MDR cells and significantly increased the cytotoxicity of Pgp-transported drugs, under the conditions where no effect was detectable with other anti-Pgp antibodies. Potentiation of cytotoxicity by UIC2 was observed with all the tested drugs associated with MDR (vinblastine, vincristine, colchicine, taxol, doxorubicin, etoposide, actinomycin D, puromycin, and gramicidin D) but not with any of the drugs to which MDR cells are not cross-resistant (methotrexate, 5-fluorouracil, cis-platinum, G418, and gentamicin). The inhibitory effect of UIC2 in vitro was as strong as that of verapamil (a widely used Pgp inhibitor) at its highest clinically achievable concentrations. Our results suggest that UIC2 or its derivatives provide an alternative or supplement to chemical agents for the reversal of MDR in clinical cancer.
...
PMID:Efficient inhibition of P-glycoprotein-mediated multidrug resistance with a monoclonal antibody. 135 77

A mouse-human chimeric monoclonal antibody (mAb), MH162, against P-glycoprotein was previously found to be more effective than an all-mouse mAb (MRK16) in lysis of multidrug-resistant (MDR) tumor cells by blood mononuclear cells. The present study was performed to identify the effector cells responsible for the chimeric mAb-dependent cell-mediated cytotoxicity (ADCC) against MDR cells. The ADCC reaction was assessed by a 6-h 51Cr release assay. Highly purified lymphocytes (greater than 99%), monocytes (greater than 99%) and neutrophils (greater than 96%) were obtained from peripheral blood of the same healthy donors. A comparison of these three effector cell populations showed no difference between MH162 and its all-murine counterpart MRK16 in MDR cell lysis by monocytes or neutrophils. But MH162 was more effective than MRK16 in lymphocyte-mediated lysis of the MDR cells. The lymphocytes responsible for this ADCC had CD16+ Fc receptors. Pretreatment of monocytes with colony-stimulating factors (IL-3, GM-CSF and M-CSF) caused significant increase in their MH162-mediated lysis of MDR cells. Another anti-P-glycoprotein chimeric mAb (MH171) was also more effective than its murine counterpart MRK17 in lymphocyte-mediated lysis of MDR cells. These findings suggest that mouse-human chimeric mAbs may be useful therapeutically for in vivo destruction of MDR cancer cells by the ADCC reaction.
...
PMID:Effector cell analysis of human multidrug-resistant cell killing by mouse-human chimeric antibody against P-glycoprotein. 135 55

Multi-drug-resistant cells overproduce a 130-180-kDa integral membrane phosphoglycoprotein known as P-glycoprotein which acts as an energy-dependent drug efflux pump. While P-glycoprotein has been shown to transport hydrophobic anti-tumor drugs out of multi-drug-resistant cells in tissue culture, its endogenous substrates remain unknown. This report shows that 3H-corticosterone can specifically photoaffinity label P-glycoprotein. Furthermore, corticosterone is effluxed from multi-drug-resistant cells by P-glycoprotein. These data suggest that corticosterone may be an endogenous substrate for P-glycoprotein.
...
PMID:P-glycoprotein transports corticosterone and is photoaffinity-labeled by the steroid. 135 2

Mammalian cells exposed to a single cytotoxic natural product drug, such as vincristine or dactinomycin, can develop resistance to the selective agent and cross-resistance to a broad spectrum of structurally and functionally distinct antibiotics and alkaloids. This phenomenon, termed multidrug resistance (MDR), has been widely studied experimentally. The most consistent feature of cells with high-level MDR is amplification and overexpression of genes encoding an integral plasma membrane protein known as P-glycoprotein. The MDR genes belong to a small family (two members in humans and three members in mouse and Chinese hamster). Based on several lines of evidence, P-glycoprotein is thought to act as an adenosine triphosphate-dependent efflux pump that decreases accumulation of drugs and increases resistance to their effects. The normal function of P-glycoprotein, apart from its role in MDR, is not known. Proposed roles in detoxification and steroid transport systems are speculative but suggest that the membrane protein may have distinct functions in normal tissues and in tumor cells with acquired MDR. Although possible endogenous substrates for P-glycoprotein have not been identified, insight into normal function may be gained from tissue distribution studies. For example, studies using molecular probes to P-glycoprotein messenger RNA and monoclonal antibodies to different epitopes of the molecule have shown that P-glycoprotein is expressed at high levels in the more differentiated or specialized cells of the colon or kidney. Amplification of MDR genes in vivo has not been observed. Whether intrinsic or acquired MDR plays a causal and potentially modifiable role in clinical nonresponsiveness to cancer chemotherapeutic agents is a topic of current interest. Prospective studies and serial determinations during the course of disease are needed to clarify the importance of this membrane protein in clinical drug resistance.
...
PMID:Genetic aspects of multidrug resistance. 135 4

A survey is presented on the information concerning the nature and molecular mechanism of multi drug resistance, a phenomenon involving the resistance of tumor cells to different types of chemotherapeutic agents. P-glycoprotein is by its enzymatic activity directly responsible for expelling xenobiotics from the intracellular space and thus also for the development of MDR. Its detection provided new possibilities for causal studies of this type of resistance as well as for its in vitro modelling. In the presented survey, the function of P-glycoprotein is characterized also in cells of normal nontumorous tissue.
...
PMID:[Multidrug resistance and the P-glycoprotein]. 135 72

Multidrug-resistant human tumor cells overexpress the MDR1 gene product P-glycoprotein, which is believed to function as an ATP-dependent efflux pump. In this study we demonstrate that the partially purified P-glycoprotein, when reconstituted in an artificial membrane, catalyzes drug-stimulated ATP hydrolysis. Plasma membrane proteins of a human multidrug-resistant cell line, KB-V1, were solubilized with 1.4% (wt/vol) octyl beta-D-glucopyranoside in the presence of 0.4% phospholipid and 20% (vol/vol) glycerol, and the crude detergent extract was chromatographed on DEAE-Sepharose CL-6B. The 0.1 M NaCl fraction, enriched in P-glycoprotein but devoid of Na,K-ATPase, was reconstituted by the detergent-dilution method. P-glycoprotein constituted 25-30% of the reconstituted protein in proteoliposomes. ATP hydrolysis by proteoliposomes was stimulated 3.5-fold by the addition of vinblastine but was unaffected by the hydrophobic antitumor agent camptothecin, which is not transported by P-glycoprotein. The stimulatory effect of vinblastine was observed only if the protein was reconstituted in proteoliposomes, suggesting that either the substrate binding site(s) was masked by detergent or that the conformation of the soluble P-glycoprotein might not be suitable for substrate-induced activation. Several other drugs that are known to be transported by P-glycoprotein enhanced the ATPase activity in a dose-dependent manner with relative potencies as follows: doxorubicin = vinblastine greater than daunomycin greater than actinomycin D greater than verapamil greater than colchicine. The basal and vinblastine-stimulated ATPase activities were inhibited by vanadate (50% inhibition observed at 7-10 microM) but were not affected by agents that inhibit other ATPases and phosphatases. These data indicate that the P-glycoprotein, similar to other ion-transporting ATPases, exhibits a high level of ATP hydrolysis (5-12 mumol per min per mg of protein).
...
PMID:Partial purification and reconstitution of the human multidrug-resistance pump: characterization of the drug-stimulatable ATP hydrolysis. 135 64

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.
...
PMID:Characterization of tumor cell resistance to 4'-deoxy-4'-iododoxorubicin developed in Ehrlich ascites cells in vivo. 135 19

Modulation of the expression of P-glycoprotein, a plasma membrane protein associated with multidrug resistance, was examined in drug-sensitive and drug-resistant tumor cells treated with leukoregulin, a M(r) 50,000 cytokine from human lymphocytes that rapidly permeabilizes the plasma membrane of many tumor cells facilitating the uptake of doxorubicin and other tumor-inhibitory antibiotics. P-glycoprotein expression was measured flow cytometrically by the binding of C219 or MRK16 monoclonal antibody to multidrug-sensitive human K562 erythroleukemia and 8226/S myeloma cells, compared to multidrug-resistant 8226/DOX40 myeloma cells. Cells were treated for up to 2 h with up to 80 units of leukoregulin/ml or one of a variety of unrelated cytokines including interleukin 1 alpha (IL-1 alpha), IL-1 beta, IL-2, IL-3, IL-4, IL-5, IL-6, colony-stimulating factor, macrophage colony-stimulating factor, granulocyte macrophage colony-stimulating factor, tumor necrosis factor alpha, gamma-interferon, alpha-interferon, epidermal growth factor, platelet-derived growth factor AA, platelet-derived growth factor BB, insulin-like growth factor I, insulin-like growth factor II, fibroblast growth factor, or transforming growth factor beta. Leukoregulin caused a concentration-dependent decrease in P-glycoprotein expression; however, P-glycoprotein expression was unaffected by the other cytokines (< 12% decrease in expression). Leukoregulin-induced membrane permeabilization, determined flow cytometrically by intracellular fluorescein efflux, and decreased P-glycoprotein expression occurred simultaneously within 15 min in drug-sensitive and -resistant cells. Enhanced doxorubicin uptake, measured flow cytometrically by doxorubicin influx, was also present within 15 min. Leukoregulin enhancement of doxorubicin uptake and increased membrane permeability varied directly with the decrease in P-glycoprotein expression. Leukoregulin in combination with doxorubicin enhanced the inhibition of cell proliferation in 8226/DOX40 multidrug-resistant cells over expressing P-glycoprotein. In contrast, combined treatment of HL-60/MX2 multidrug-resistant human promyelocytic leukemia cells that do not overexpress P-glycoprotein in association with their multidrug resistance resulted in no greater growth inhibition than observed with HL-60/MX2 cells treated with doxorubicin alone. This is the first demonstration that a naturally occurring macromolecule with anticancer activities can modulate the expression of P-glycoprotein concomitant with enhanced drug uptake and inhibition of cell proliferation.
...
PMID:Decreased P-glycoprotein expression in multidrug-sensitive and -resistant human myeloma cells induced by the cytokine leukoregulin. 135 22

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>