Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.6.3.44 (P-glycoprotein)
 13,344 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

P-glycoprotein (P-170) is the phenotypic marker of tumoral cells that show the phenomenon of multidrug resistance (MDR). Using an immunocytochemical approach, we employed the monoclonal antibody C219 (which recognizes an epitope of such a glycoprotein) to evaluate in cytologic samples the expression of P-170 on neoplastic cells from 52 patients affected by different hematologic malignancies and its eventual correlation to clinical outcome. Longitudinal studies were also performed in 14 patients. Results obtained demonstrated that a) the so-called "MDR phenotype" may be heterogeneously represented (from less than 1 to 100% of positive cells) in hemopoietic tumors at diagnosis (without exposure to pharmacologic agents), as well as during the course of the disease, although a more substantial presence of P-170 occurred in treated patients. There was no correlation between neoplastic kinetic activity (such as expression of Ki 67 recognized nuclear proliferation-associated antigen) and P-170-positive cells. b) Percentage of positive cells as well as intensity of staining seemed to be important in determining MDR; in general, there was a strong correlation between expression of P-170 in more than 20% of neoplastic cells and a lack of response to chemotherapy. However, some false-positive and false-negative cases were observed. c) The detection of scattered P-170-positive cells may predict a pharmacologic selection of intrinsic or mutant-resistant clones.
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PMID:Clinical relevance of immunocytochemical detection of multidrug-resistance-associated P-glycoprotein in hematologic malignancies. 197 59

Increased expression of glutathione-S-transferase isoenzyme pi (GST-pi) may account for drug resistance and treatment failure in hematologic malignancies when alkylating agents like cyclophosphamide, chlorambucil, busulfan and melphalan, or doxorubicin are used. We have studied the expression of GST-pi in peripheral blood lymphocytes of healthy blood donors. In peripheral and bone marrow lymphocytes/blasts of patients with other diseases than hematologic malignancies, and of patients with acute leukemia by using flow cytometry. We studied bone marrow cells of 35 patients diagnosed as having acute leukemia at initial presentation, 16 patients in the refractory stage, 20 in morphological remission and 15 controls. None of the samples obtained in remission contained more GST-pi-positive cells than the controls, whereas 51% of the samples obtained at diagnosis and 56% of those obtained in the refractory stage were GST-pi-positive. The mean proportion of GST-pi-positive cells in the lymphocyte/blast cell gate of bone marrow cells of controls was 2.6% and of patients with acute leukemia studied at diagnosis 16.6%, respectively. We analyzed the samples also for P-glycoprotein expression. There was a significant positive association between GST-pi and P-glycoprotein expression in acute leukemia.
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PMID:Flow cytometric analysis of glutathione-S-transferase-pi in acute leukemia. 751 31

Although combination chemotherapy has had a significant impact on survival for malignancies such as Hodgkin's disease, testicular cancer, and childhood acute leukemias, the majority of cancers are either initially resistant to chemotherapy (renal, colon, etc.) or are initially chemosensitive but acquire resistance during treatment, such as lymphoma and breast cancer. Resistance to chemotherapy remains an obstacle to the successful treatment of human cancer and has been the subject of numerous investigations aimed at identifying the molecular mechanisms of resistance in cancer cells. An improved understanding of the mechanisms by which tumor cells develop resistance to chemotherapy may not only enhance the activity of cytotoxic therapy in advanced malignancies but may ultimately improve the impact of adjuvant therapy, potentially resulting in prolonging disease-free intervals and survival. In this review, therefore, we discuss our current understanding of the MDR1 gene, encoding P-glycoprotein, which is responsible for one mechanism of multidrug resistance (MDR). We also review the evidence supporting the clinical relevance of the MDR1 gene and clinical trials aimed at reversing MDR-mediated resistance. Although MDR-mediated drug resistance has been well characterized in preclinical models, its role in clinical drug resistance is not as well characterized and requires further investigation. Prospective studies are necessary to establish the role of MDR1 gene expression in the clinical resistance. The ability to identify tumors with increased MDR1 gene expression has several potential applications (for example, the prediction of response to chemotherapy and the design of studies aimed at reversal of resistance with agents that inhibit MDR-mediated drug efflux). The initial goal of such trials is to demonstrate the ability to reverse MDR1-mediated drug resistance in the appropriate advanced refractory malignancies. Ultimately, it will be important to incorporate these reversal strategies in the treatment of early-stage disease, at which time the tumor burden is smaller and fewer mechanisms of resistance may be present. Prospective phase I, II, and III clinical trials using reversing agents in conjunction with chemotherapy in malignancies that express the MDR1 gene, such as the hematologic malignancies and breast cancer, are necessary before routine use of agents such as verapamil, quinidine, and cyclosporine, which carry innate toxicities. MDR is a mechanism of drug resistance that provides the potential for an alteration in drug efflux, which may have a significant impact on response and possibly result in improved survival for some cancer patients.
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PMID:Clinical reversal of drug resistance. 760 Aug 45

The methoxymorpholino derivative of doxorubicin (MMDX; FCE 23672) has recently entered clinical trials because of its broad spectrum of preclinical antitumor activity and non-cross-resistance in multidrug-resistant (MDR) tumor models. MMDX is activated in the liver to a > 10 times more potent metabolite that cross-links DNA. To assess the potential of this drug in hematologic malignancies, we studied the myelotoxicity in vitro and antitumor effect of MMDX as well as its bioactivated form (MMDX+) in a panel of 14 different human leukemia and lymphoma cell lines. The tumor specificity of MMDX in CEM and K562 cells was similar to that of doxorubicin (DOX), and that of MMDX+ was slightly superior. All of the 14 cell lines were found to be more sensitive to MMDX and MMDX+ than were granulocyte-macrophage progenitors. On a molar basis, MMDX was approximately 3-100 times more active than DOX, and MMDX+ was 10-1,000 times more potent than DOX. The cytotoxic effect of MMDX and MMDX+ in two P-glycoprotein-positive MDR sublines was greatly improved in comparison with that of DOX. Whereas the response to DOX in the different leukemia and lymphoma cell lines was highly heterogeneous, the response to MMDX and MMDX+ was rather homogeneous. The novel anthracycline MMDX and its bioactivated form MMDX+ are highly active against this panel of human leukemia and lymphoma cell lines and demonstrate potentially greater selectivity for tumor cells in vitro as compared with normal bone marrow precursors.
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PMID:Effects of the methoxymorpholino derivative of doxorubicin and its bioactivated form versus doxorubicin on human leukemia and lymphoma cell lines and normal bone marrow. 826 83

The multidrug resistant (MDR) phenotype has been suspected as a major cause of treatment failure in hematologic malignancies. Numerous studies have investigated the expression of the MDR1 gene product, P-glycoprotein, in leukemia, lymphoma and myeloma. Studies in myelogenous leukemia and myeloma have so far provided best evidence for a significant correlation between P-glycoprotein expression and response to chemotherapy, although large discrepancies in the proportion of positive cells limit any definite conclusion. Differences in P-glycoprotein detection techniques and methodology may account for the divergent results thus emphasizing the necessity for standardized methods of detection. Despite this, encouraging clinical results have been obtained using MDR modulators in combination with conventional chemotherapy to inhibit the activity of the P-glycoprotein pump. The paper summarizes currently available clinical data and provides guidelines for future trials aimed to reverse the MDR phenotype. The potential of idarubicin to overcome the MDR phenotype is also discussed.
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PMID:The MDR phenotype in hematologic malignancies: prognostic relevance and future perspectives. 876 51

Multidrug resistance in hematologic malignancies and some solid tumors is mediated by a cell membrane pump known as the P-glycoprotein (P-gp). P-gp rapidly transports a variety of heterocyclic agents (including many natural product antiproliferative drugs) out of tumor cells thus abrogating their anticancer effects. P-gp can be competitively inhibited by exposure to antirheumatic drugs including antimalarials and cyclosporin A. Such inhibitors are being used as chemosensitizers (CS) to enhance the effects of chemotherapy in drug resistant tumors. P-gp is also expressed by some normal cells including macrophages and cytotoxic lymphocytes. Recent studies of purified natural killer (NK) cells have shown that both the drug efflux and NK cytotoxic functions can be inhibited by CS agents, suggesting that both drug efflux and cytotoxicity may be mediated by P-gp's molecular transport function. NK cell cytotoxicity is mediated by secreted molecules such as granzymes and perforins. Both tumor necrosis factor alpha (TNF-alpha) producing macrophages and NK cells are present in the synovial tissues and fluid in early and advanced rheumatoid arthritis (RA). We hypothesize that antiarthritic effects of the antimalarials and cyclosporine and perhaps glucocorticoids are partially attributable to the inhibition of P-gp function thereby blocking TNF-alpha release by macrophages, TNF-alpha activation of NK cells, and NK cell secretion of cytotoxins in the rheumatoid joint. This hypothesis permits the mechanism of action of some antirheumatic drugs to be classified, and may aid in the development of combination therapy for RA and other autoimmune disorders.
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PMID:Relevance of multidrug resistance to rheumatoid arthritis: development of a new therapeutic hypothesis. 883 64

Multiple cellular mechanisms contribute to the overall clinical drug-resistant phenotype of malignant cells. A major mechanism of drug resistance documented to occur in hematologic malignancies is overexprssion of the MDR-1 gene product, P-glycoprotein (P-gp). Drugs, called chemosensitizers, have been designed to overcome P-gp-mediated drug resistance, and these agents are now being tested in the clinic. Overcoming P-gp-mediated resistance may select for alternative mechanisms of resistance that are not affected by chemosensitizing agents. Alternative mechanisms are now being described, and the clinical relevance of these mechanisms is being investigated in hematologic malignancies. The exact mechanisms involved in the overall drug-resistant phenotype will likely depend on the type of malignancy and its exposure to anticancer drugs. A major challenge in improving the treatment of patients with hematologic malignancies will be to determine if and when these various cellular mechanisms contribute to clinical drug resistance.
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PMID:Mechanisms of drug resistance in hematologic malignancies. 940 55

A variety of cellular mechanisms of multidrug resistance (MDR) have been identified in human drug-resistant cell lines, and may play an important role in the clinical response of hematologic malignancies to chemotherapy. P-glycoprotein (P-gp)-mediated drug efflux is the most well-characterized cellular mechanism of MDR; however, several other non-P-gp membrane transporter proteins have also been implicated in the development of an MDR phenotype in hematologic malignancies. These include the MDR-related protein (MRP), the lung-resistance protein (LRP), and the transporter of antigenic peptides (TAP). The transporter proteins MRP and TAP are both members of the adenosine triphosphate (ATP)-binding cassette (ABC) family of transmembrane transporters, but each has distinct differences in substrate specificity. Despite effective modulation of P-gp, one or more of these alternate mechanisms of drug resistance may contribute to an MDR phenotype in tumor cell lines. Development of multifunctional MDR modulators or novel therapeutics may be necessary to effectively circumvent MDR in hematologic malignancies.
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PMID:Non-P-glycoprotein drug export mechanisms of multidrug resistance. 940 57

The development of multidrug resistance (MDR) is a major obstacle to improving treatment outcomes in multiple myeloma. Recent studies have indicated that several specific mechanisms of MDR may be involved in clinically refractory multiple myeloma patients, such as expression of P-glycoprotein (P-gp), expression of the lung-resistance protein (LRP) and suppression of apoptosis via expression of Bcl-2. The emergence of these mechanisms of MDR in multiple myeloma is enhanced by exposure to chemotherapeutic agents. Recently, clinical reversal of MDR by noncytotoxic P-gp modulators such as verapamil, cyclosporin A (CsA), and PSC 833 was explored in acute leukemia and multiple myeloma. Preliminary results from clinical phase I/II trials indicate that reversal of MDR via modulation of P-gp is possible and that coadministration of these MDR modulators with chemotherapeutic agents alters the plasma pharmacokinetics of chemotherapeutic agents. Phase II and III clinical trials investigating the efficacy of these and other agents in the reversal of MDR in hematologic malignancies are ongoing.
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PMID:Drug resistance in multiple myeloma. 940 59

Resistance to chemotherapy-induced apoptosis and a multidrug-resistance (MDR) phenotype, mainly mediated by P-glycoprotein (P-gp), contribute to chemotherapy failure in hematologic malignancies. To study apoptosis-regulating factors in acute myeloid leukemia (AML), we investigated cell samples of adults with de novo AML by flow cytometry for constitutive expression levels of the apoptosis-related molecules CD95 (n = 135), Bcl-2 (n = 131), and Bax (n = 66), as well as spontaneous apoptosis in vitro (n = 104) and susceptibility to anti-CD95-induced apoptosis (CD95 sensitivity) (n = 93). We correlated these findings with P-gp function as detected by the rhodamine123-efflux test (n = 121), immunophenotype, FAB morphology, cytogenetics, and clinical data of the examined patients. Immature FAB M0/1 AML cells expressed significantly more Bcl-2 (P < 0.0002) and less CD95 (P < 0.0003) compared with AML cells of the more mature FAB M2-5 subtypes. No maturation-dependent difference in Bax expression was observed. FAB M2-5 AML cells were more susceptible to anti-CD95-induced apoptosis (P < 0.008) and showed a lower P-gp function (P < 0.002) than FAB M0/1 AML cells. Leukemic cells of AML patients who achieved a complete remission (CR) after induction chemotherapy expressed less Bcl-2 than non-responder (NR) (69 CR, 23 NR; P = 0.05). CR was associated with a higher extent of spontaneous apoptosis in vitro (58 CR, 17 NR; P=0.05) and a tendency towards a higher CD95 expression (73 CR, 23 NR; P = 0.08) compared to NR. CR also correlated with a low P-gp function (70 CR, 21 NR; P = 0.008) and a tendency towards CD34 negativity (73 CR, 23 NR; P = 0.08). No correlation between Bax expression and response to induction chemotherapy (49 CR, 12 NR) was observed. In stepwise logistic regression analyses, P-gp function and the extent of spontaneous apoptosis in vitro as well as CD95 sensitivity but not Bcl-2, CD95, Bax, and CD34 expression levels emerged as significant markers for response to induction chemotherapy. We conclude that the constitutive expression of CD95 and Bcl-2, as well as CD95 sensitivity and P-gp function but not constitutive Bax expression depend on the maturation stage of leukemic cells in adult de novo AML. P-gp function, the extent of spontaneous apoptosis in vitro and CD95 sensitivity are more predictive for response to induction chemotherapy in adult de novoAML than the constitutive expression levels of the apoptosis-related molecules CD95, Bcl-2 and Bax.
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PMID:Clinical significance of CD95, Bcl-2 and Bax expression and CD95 function in adult de novo acute myeloid leukemia in context of P-glycoprotein function, maturation stage, and cytogenetics. 1060 14


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