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

The expression of the protooncogene encoded proteins (c-erbB1, c-erb B2, c-myc, c-fos) and the suppressor gene product p53 was analyzed in 81 human squamous cell carcinomas of the lung and correlated with clinical parameters of the patients (patient survival, presence of metastases and tumor stage) and with biological characteristics of the tumors (tumor growth in nude mice, DNA-ploidy, proliferative activity, drug-resistance and P-glycoprotein or gluathione S-transferase expression). By means of immunohistochemistry, expression of c-erbB1 oncoprotein (EGF-receptor) was detected in 79% of the tumors, c-erbB2 (c-neu) proteins in 35%, c-myc proteins in 48%, c-fos proteins in 41%, and p53 in 43% of the tumors. Patients with c-erbB1 positive tumors had a poor prognosis (p = 0.021). In addition, these tumors were more frequently drug resistant (p = 0.0067). A significant correlation between the growth of the squamous lung carcinomas in nude mice and c-fos oncoprotein expression was demonstrated (p = 0.017). Therefore, EGF-receptor and c-fos products may serve as prognostic factors for the aggressiveness of squamous cell carcinomas of the lung and for the response of these tumors to chemotherapy. No significant correlation was found between the expression of the c-erbB1 or c-fos gene products and stage, metastasis and DNA-ploidy. In contrast to these results, no relationship was found between c-neu or c-myc gene products expression and any of the clinical or biological parameters examined. Aneuploid squamous cell carcinomas of the lung expressed p53 more frequently than diploid tumors (p = 0.027). However, there was no significant difference between p53 expression and stage, survival of patients, metastasis, growth of the tumors in nude mice, proliferative activity and drug-resistance of the tumors.
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PMID:Oncoprotein (c-myc, c-erbB1, c-erbB2, c-fos) and suppressor gene product (p53) expression in squamous cell carcinomas of the lung. Clinical and biological correlations. 134 20

A cell line, GBM, was established from a human malignant glioblastoma and was characterized with particular reference to its response to conventional drugs. The GBM cell line exhibited a 73 +/- 7 h doubling time in monolayer cultures. Expression of glial fibrillary acidic and S-100 proteins was observed. Karyotype analysis of GBM cells at early passages revealed the presence of two near-triploid clones (A and B) with multiple chromosome rearrangements; a 100% frequency for clone B was observed in the established cell line. GBM cells had tumorigenic properties, since the s.c. injection of cultured cells into nude mice gave rise to slowly growing tumors. The morphology of GBM cells was retained during in vitro and in vivo passages, as judged by light microscopy. GBM cells were relatively resistant to most conventional drugs; among the tested drugs, only taxol exhibited a marked cytotoxic effect comparable to that found in cells of a different tumor type. GBM cells were found positive for the epidermal growth factor receptor, HER2-neu and P-glycoprotein by flow cytometry of cells labelled with monoclonal antibodies. In spite of the expression of relatively high gamma-glutamyltransferase activity, the intracellular glutathione level was comparable to that of other chemosensitive tumor cells. This glioblastoma cell line is a suitable model for the identification and preclinical studies of new agents and provides an additional system to explore the molecular basis of the intrinsic drug resistance of glioblastoma.
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PMID:Characterization of an established human, malignant, glioblastoma cell line (GBM) and its response to conventional drugs. 792 29

Surgical specimens of non-small cell lung carcinomas of 167 previously untreated patients were analyzed for expression of c-fos, c-jun, c-myc and c-neu products and for resistance to drugs. Because most of the patients were treated only by surgery, an in vitro test was used to determine the resistance. For the detection of the oncoproteins the streptavidin-biotin-peroxidase-complex method was used. An association between the resistance and c-fos and c-jun proteins was found (c-fos p = 0.01, c-jun p = 0.09), whereas a correlation between resistance and expression of c-neu and c-myc products was not observed. P-glycoprotein 170 was detected immunohistochemically in 91 tumors using the monoclonal antibody JSB-1. There was a significant correlation between the resistance measured by the in vitro test and P-glycoprotein 170 expression (p < 0.001). Also a significant correlation between the c-fos and c-jun proteins and the expression of P-glycoprotein was found (c-fos p = 0.017, c-jun p = 0.036). In contrast, no significant relationship was found between the expression of the c-neu or c-myc products and the expression of P-glycoprotein 170. Thus, there exists a significant relationship between resistance, P-glycoprotein 170, and c-fos and c-jun products in human non-small cell lung carcinomas. P-glycoprotein 170 may be regulated by the c-fos/c-jun protein complex, which binds specifically to AP-1.
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PMID:P-glycoprotein associated expression of c-fos and c-jun products in human lung carcinomas. 810 Jan 27

The aim of this preliminary study was to evaluate retrospectively sestamibi scintigraphy in relation to the presence of the 170-kDa P-glycoprotein (Pgp), which represents an expression of multidrug resistance in patients with primary breast cancer. Fifteen women (age range 37-76 years) were referred for technetium-99m sestamibi scintigraphy because of suspicious breast lesions detected by mammography and ultrasonography, and subsequently assessed by fine-needle aspiration. Scintigraphy was performed 30 min following the injection of 500 MBq 99mTc-sestamibi. Three planar anterior and oblique images were obtained with the patient in the supine position. Excised tumours were assessed for cytosolic CA 15.3, oestrogen (OR) and progesterone (PR) receptors and c-erb B2 neu oncogene. Pathology revealed that only 13 of the 15 patients had malignant tumours. The two benign tumours were sestamibi-negative and Pgp-positive. Sestamibi scintigraphy was positive in 10 of the 13 malignant lesions (including nine of ten infiltrating ductal carcinomas). Two of the three lesions with false-negative scintigraphy were Pgp-negative; in one of these cases histology revealed an invasive lobular carcinoma and in the other, mucinous adenocarcinoma. The third false-negative lesion was a Pgp-positive infiltrating ductal carcinoma which was c-erb B2 neu-negative but CA 15.3-, OR- and PR-positive. This preliminary study confirms that the resistance to chemotherapy which may occur in patients with primary breast cancer can be a cause of negative sestamibi scintigraphy.
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PMID:Primary breast cancer imaging with technetium-99m sestamibi and its relation with P-glycoprotein overexpression. 875 90

Chemotherapeutic drug resistance is a major clinical problem and cause for failure in the therapy of human cancer. One of the goals of molecular oncology is to identify the underlying mechanisms, with the hope that more effective therapies can be developed. Several mechanisms have been suggested to contribute to chemoresistance: 1) amplification or overexpression of the P-glycoprotein family of membrane transporters (eg, MDR1, MRP, LRP) which decrease the intracellular accumulation of chemotherapy; 2) changes in cellular proteins involved in detoxification (eg, glutathione S-transferase pi, metallothioneins, human MutT homologue, bleomycin hydrolase, dihydrofolate reductase) or activation of the chemotherapeutic drugs (DT-diaphorase, nicotinamide adenine dinucleotide phosphate:cytochrome P-450 reductase); 3) changes in molecules involved in DNA repair (eg, O6-methylguanine-DNA methyltransferase, DNA topoisomerase II, hMLH1, p21WAF1/CIP1; 4) activation of oncogenes such as Her-2/neu, bcl-2, bcl-XL, c-myc, ras, c-jun, c-fos, MDM2, p210 BCR-abl, or mutant p53. An overview of these resistance mechanisms is presented, with a particular focus on the role of oncogenes. Some current strategies attempting to reverse their effects are discussed.
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PMID:Role of oncogenes in resistance and killing by cancer therapeutic agents. 909 Apr 98

Major advances in cellular biology, genetics, pharmacology and immunology in the past decade are beginning to be translated into progress in cancer treatment. This progress is manifested by new cytotoxic drugs which have recently entered clinical practice (taxanes, topoisomerase I inhibitors, gemcitabine, vinorelbine, new purines), as well as the efficacy of monoclonal antibody therapies against the CD-20 antigen of B-cell lymphomas and the Her2/neu oncogene in breast cancer. Several new drugs in development are targeted at reversal or prevention of the multidrug resistance mechanism caused by expression of the MDR1 gene (P-glycoprotein). Tumour angiogenesis as a target is being studied in several early clinical trials. As with many other biological therapies, the evaluation of these compounds and their integration with standard therapies presents a major challenge to clinical investigators. The emerging field of genomics and gene expression micro-arrays will provide enormous information about the biology of cancers. This technology offers great opportunities for the discovery of new therapeutic targets, which should provide a basis for the design and evaluation of many new agents in the coming decade.
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PMID:New approaches in cancer treatment. 1067 67

The aim of this work was to determine the expression of the multidrug resistance (MDR) proteins, namely MDR1 (P-glycoprotein), MRP1 (multidrug resistance-related protein) and LRP (lung resistance-related protein), in 87 samples of breast carcinoma. Detection of these proteins was provided by using indirect enzymatic immunohistochemistry. Our findings were compared with the other clinical and pathological parameters: expression of Her2/neu, estrogen receptor status (ER), progesteron receptor status (PR), histological grade and regional lymph node status. For statistical analysis, non-parametric two sided Mann-Whitney-U test was used. Majority of breast carcinoma specimens show positivity for these proteins. The MDR1 and MRP1 signal was found in the cytoplasm of cancer cells. The expression of LRP was detected in the cytoplasm close to the nuclear membrane. The samples were positive for MDR1 protein in 57%, for MRP1 in 84% and for LRP in 79%. Comparing our results with other clinical and pathological parameters, negative correlation between ER, PR and MDR1 expressions and histological grading status was found. No associations were observed between the MRP1 and LRP proteins and histological grading, as well as between the expression of three MDR proteins and the other clinically relevant parameters. In conclusion, high frequency of expression of MDR proteins in breast carcinoma cells suggests, that these proteins might be an important factor of drug resistance in breast carcinoma. Nevertheless, the negative correlation between the histological grade of malignancy of tumor and the expression of ER, PR and MDR1 indicates possible influence of progressive tumor cell de-differentiation. However, this finding has to be confirmed in additional evaluations.
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PMID:Expression of MDR proteins in breast cancer and its correlation with some clinical and pathological parameters. 1657 68

Chemotherapy plays a vital role in the treatment and management of breast cancer and is associated with significant improvements in survival. Regimens such as CMF (cyclophosphamide/methotrexate/5-fluorouracil) and, more recently, TAC (docetaxel/doxorubicin/cyclophosphamide) have been used with good response rates and complete remissions achieved in approximately 15% of cases. However, a significant proportion of women experience a recurrence of metastatic disease, with an average survival between 1-2 years. The monoclonal antibody trastuzumab is used in the treatment of HER2/neu-positive breast cancer. Although such targeted agents have heralded an exciting new era in cancer therapy, they are limited by the fact that only a subset of patients can benefit from treatment and by the emergence of resistance. Thus, the pursuit of a strategy that modulates resistance to standard chemotherapeutics remains valid. Accumulating evidence indicates that a number of mechanisms known to contribute to clinical drug resistance might be relevant to breast cancer. Tumor cell drug resistance might arise as a result of systemic pharmacologic factors, changes in the tumor microenvironment (eg, pH), cellular pharmacokinetics, drug metabolism and detoxification, drug target modifications, DNA repair, and apoptotic mechanisms. The adenotriphosphate-binding cassette membrane transporter family contributes to clinical drug resistance, especially in breast cancer. The most frequently described of this family is P-glycoprotein, followed by multidrug resistance protein-1. This review describes the factors thought to play a role in clinical breast cancer drug resistance and describes potential methods by which it might be circumvented.
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PMID:The role of efflux pumps in drug-resistant metastatic breast cancer: new insights and treatment strategies. 1802 75

Immunoconjugates of epirubicin were synthesized with monoclonal antibodies against the epidermal growth factor receptors, HER2/neu and EGFR, by creating a sulfhydryl-reactive epirubicin intermediate applying heterobifunctional succinimidyl-4-(N-maleimidomethyl)cyclohexane-1-carboxylate (SMCC), which was introduced at alpha-monoamide groups of the epirubicin carbohydrate moiety. In parallel, N-succinimidyl-S-acetylthioacetate (SATA) was used to incorporate a sulfhydryl group into immunoglobulin at the terminal amine position of -lysine amino acid residues. Eprirubicin-SMCC-SATA-IgG immunoconjugates were produced by reacting epirubicin-SMCC and SATA-IgG at appropriate molar ratios. Epirubicin-(anti-HER2/neu) and epirubicin-(anti-EGFR) had greater potency against chemotherapeutic-resistant SKBr-3 mammary carcinoma than did epirubicin at epirubicin-equivalent concentrations. Epirubicin-(anti-HER2/neu) was more potent than epirubicin-(anti-EGFR), and a synergistic level of antineoplastic activity was detected with an epirubicin immunoconjugate 50/50 combination. Competitive P-glycoprotein inhibition with cyclosporin A or verapamil enhanced the potency of the epirubicin immunoconjugate 50/50 combination. Minor levels of antineoplastic activity were detected only with an immunoglobulin 50/50 combination of anti-HER2/neu and anti-EGFR. The investigations represent a potential strategy for enhancing the selective internalization, intracellular deposition, and antineoplastic potency of chemotherapeutics in multidrug-resistant neoplasias.
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PMID:Dual potency anti-HER2/neu and anti-EGFR anthracycline immunoconjugates in chemotherapeutic-resistant mammary carcinoma combined with cyclosporin A and verapamil P-glycoprotein inhibition. 1948 May 61

Resistance of tumor cells to several structurally unrelated classes of natural products, including anthracyclines, taxanes, and epipodophyllotoxines, is often referred as multidrug resistance (MDR). This is associated with ATP-binding cassette transporters, which function as drug efflux pumps such as P-glycoprotein (Pgp) and multidrug resistance-associated protein 1 (MRP1). Because of the hypothesis in the early eighties that blockade of these efflux pumps by modulators would improve the effect of chemotherapy, extensive effort has been put to visualize these pumps using nuclear imaging with several specific tracers, using both SPECT and PET techniques. The methods and possibilities to visualize these pumps in both the tumor and the blood-brain barrier will be discussed. Because of the fact that the addition of Pgp or MRP modulators has not shown any clinical benefit in patient outcome, these specific MDR tracers are not routinely used in clinical practice. Evidence emerges that combination of chemotherapeutic drugs involved in MDR with the so-called targeted agents can improve patient outcome. The concept of molecular imaging can also be used to visualize the targets for these agents, such as HER2/neu and angiogenic factors such as vascular endothelial growth factor (VEGF). Potentially visualizing molecular drug targets in the tumor can function as biomarkers to support treatment decision for the individual patient.
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PMID:Multidrug resistance in oncology and beyond: from imaging of drug efflux pumps to cellular drug targets. 1994 18


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