UNIPROT:P33527 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P33527 (ABCC1)
1,164 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Monoclonal antibody QCRL-1 is highly specific for a defined linear epitope in a relatively poorly conserved region of the human multidrug resistance protein (MRP). We have used QCRL-1 to examine MRP expression in archival and fresh snap-frozen samples of untreated small cell (SC) and non-small cell (NSC) lung cancers (LCs), as well as normal lung. We found that the majority (87%) of all histological subtypes of NSCLC had detectable levels of MRP in most of the tumor mass. In a substantial proportion of adenocarcinomas (55%) and squamous cell carcinomas (28%), immunoreactivity approached that obtained with the highly multidrug resistant cell line H69AR from which the MRP was originally cloned. Both the level and frequency of MRP expression in untreated SCLC was significantly lower than in NSCLC. The MRP was detectable in only 56% of SCLC tumors and, in most cases, was expressed in small focal clusters of cells. Immunofluorescence studies of tumor tissue and normal lung confirmed the plasma membrane location of the MRP. However, in normal bronchial epithelium and seromucous glands, unlike in tumor cells, the MRP was detected only on basolateral membranes. In addition, strong MRP immunoreactivity was detected in reactive type II pneumocytes present in hyperplastic alveoli, but not in normal type I and type II pneumocytes. No potentially confounding correlation independent of its possible role in drug resistance was observed between MRP expression in untreated NSCLC and any clinicopathological parameter examined, including overall survival.
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PMID:Immunohistochemical detection of multidrug resistance protein in human lung cancer and normal lung. 974 50

We determined the expression of a newly recognized drug resistance gene, the multidrug resistance-associated protein (MRP) gene, [Cole et al., Science (Washington DC), 258: 1650-1654, 1992], in normal human tissues and in >370 human tumor biopsies using a quantitative RNase protection assay and immunohistochemistry. MRP mRNA appeared to be ubiquitously expressed at low levels in all normal tissues, including peripheral blood, the endocrine glands (adrenal and thyroid), striated muscle, the lymphoreticular system (spleen and tonsil), the digestive tract (salivary gland, esophagus, liver, gall bladder, pancreas, and colon), the respiratory tract (lung), and the urogenital tract (kidney, bladder, testis, and ovary). The human cancers analyzed could be divided into three groups with regard to MRP expression. Group 1 consists of tumors that often exhibit high to very high MRP mRNA levels (e.g., chronic lymphocytic leukemia). Group 2 comprises the tumors that often exhibit low, but occasionally exhibit high MRP mRNA expression (e.g., esophagus squamous cell carcinoma, non-small cell lung cancer, and acute myelocytic leukemia). Group 3 comprises the tumors with predominantly low levels of MRP mRNA, comparable to the levels found in normal tissues (e.g., other hematological malignancies, soft tissue sarcomas, melanoma, and cancers of the prostate, breast, kidney, bladder, testis, ovary, and colon). Using the MRP-specific mAbs MRPr1 and MRPm6, we confirmed the elevated MRP mRNA levels in tumor tissues by immunohistochemistry. We conclude that hyperexpression of MRP is observed in several human cancers, and that additional studies are needed to assess the clinical relevance of MRP.
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PMID:Expression of the multidrug resistance-associated protein (MRP) gene in human cancers. 981 25

Multidrug resistance is a major obstacle to the success of cancer chemotherapy. The multidrug resistance-associated protein (MRP) has been shown to confer multidrug resistance. To study MRP gene expression at the transcriptional level, we have fused the MRP gene promoter with the luciferase reporter gene and studied its regulation. Cotransfection of MRP promoter constructs with p53 expression plasmids in p53-null human H1299 and mouse (10)1 cells demonstrated that the wild-type (wt) p53 markedly suppressed MRP promoter activity, whereas mutant p53 had little inhibitory effect. Transfections using 5' deletion mutant constructs of the MRP promoter showed that inhibition of the promoter activity by wt p53 mainly resided in the region from -91 to +103 bp, where several Sp1 transcription factor binding sites are localized. Cotransfection of the MRP promoter into Drosophila SL2 cells with an Sp1 expression vector increased the promoter activity in a dose-related manner up to approximately 200-fold. The stimulation of MRP promoter activity by Sp1 was attenuated by the cotransfection of a wt p53-expression plasmid. Furthermore, we have determined that endogenous MRP mRNA levels were down-regulated by restoration of wt p53-expression in a human lung cancer cell line. The relevance of MRP regulation in drug resistance was studied in a drug-resistant cell line, CEM/VM-1-5, that is approximately 140-fold more resistant to the epipodophyllotoxin, teniposide (VM-26), than the parental CEM cells. CEM/VM-1-5 cells express a much higher amount of MRP mRNA and protein than CEM cells, indicating that the resistant phenotype is at least partly due to increased MRP production. Transient transfection of the promoter constructs revealed that CEM/VM-1-5 cells had higher (7-fold) MRP promoter activity than CEM cells. Cotransfection of a wt p53-expression plasmid caused a reduction of MRP promoter activity in both CEM and CEM/VM-1-5 cells, but the inhibition was more than double in CEM/VM-1-5 cells compared with CEM cells. Our results demonstrated that wt p53 acts as a negative regulator of MRP gene transcription, at least in part by diminishing the effect of a powerful transcription activator Sp1. Therefore, a loss of wt p53 function and/or an increase in Sp1 activity in tumor cells could contribute to an up-regulation of the MRP gene.
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PMID:Transcriptional suppression of multidrug resistance-associated protein (MRP) gene expression by wild-type p53. 986 34

Advanced neuroblastoma and malignant liver tumor are representative childhood cancers for which combined chemotherapy including cisplatin and doxorubicin is routinely performed. The prognosis of patients with tumors which develop multiple drug resistance (MDR) is unfavorable. To elucidate the role of multidrug resistance-associated protein (MRP) and canalicular multispecific organic anion transporter (cMOAT) in the clinical behavior of the tumors, we examined 42 neuroblastomas and 10 malignant liver tumors for the expressions of MRP and cMOAT by quantitative RNA-polymerase chain reaction (PCR). The amplification and expression of N-myc oncogene in the neuroblastomas were also investigated. We found a close association between MRP and N-myc expression in each neuroblastoma sample but no significant relationship between MRP expression and the patients' outcome. The forced expression of N-myc failed to enhance the expression of MRP in N-myc transfected neuroblastoma cell lines. cMOAT was rarely expressed in the neuroblastomas, but was frequently expressed in the malignant liver tumors. The expression of MRP and cMOAT in the childhood liver tumors was more common and higher, especially in advanced cases with a poor outcome, than that observed in normal liver or in 9 hepatocellular carcinomas from adult patients. The enhanced expression of these genes might be characteristic of childhood malignant liver tumors and related to their clinical chemoresistance.
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PMID:Expression of MRP and cMOAT in childhood neuroblastomas and malignant liver tumors and its relevance to clinical behavior. 1008 88

Utilization of chemotherapy for the treatment of tumors is mainly limited by its hematological toxicity. Because of the low-level expression of drug resistance genes, transduction of hematopoietic progenitors with multidrug resistance 1 (MDR1) or multidrug resistance-associated protein (MRP) genes should provide protection from chemotherapeutic agent toxicity. Successful transfer of drug resistance genes into hematopoietic cells may allow the administration of higher doses of chemotherapy and, thus, increase regression of chemosensitive tumors. The interest in the use of MRP as an alternative to MDR1 for bone marrow protection lies in its different modulation. This would allow, in the same patient, the use of MDR1 reversal agents to decrease MDR1 tumor resistance without reversing bone marrow (BM) protection of the MRP-transduced hematopoietic cells, since MRP expression is not reversed by these agents. We have constructed MRP-containing retroviral vectors using the phosphoglycerate kinase promoter and generated ecotropic producer cells. Lethally irradiated mice were engrafted with BM cells transduced by coculture with MRP producer cells. Evidence of long-term (9 months) gene transfer was provided by PCR of peripheral blood from MRP-transduced mice. Southern blot analysis confirmed the integrity of the provirus in the MRP-transduced mice. Long-term MRP expression (>5 months) was detected by RT-PCR and fluorescence-activated cell sorting of blood from living mice. High-level expression of MRP in murine hematopoietic cells reduces doxorubicin-induced leukopenia and mortality. Furthermore, we show in vivo selection of MRP-transduced cells following doxorubicin administration, with better and more significant chemoprotection after the second chemotherapy cycle. These data indicate that MRP retroviral gene transfer may be useful for chemoprotection and selection.
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PMID:Retrovirus-mediated gene transfer of the human multidrug resistance-associated protein into hematopoietic cells protects mice from chemotherapy-induced leukopenia. 1021 Jan 47

Because local recurrence is common after a curative resection for advanced gastric cancer, there has been significant interest in adjuvant chemotherapy. However, the overall effect of chemotherapy remains debatable regarding patients with advanced gastric adenocarcinoma. Multidrug resistance is thought to be a major cause of failure in cancer chemotherapy, and thus the expression of P-glycoprotein (P-Gp), multidrug resistance-associated protein (MRP), and lung-resistance protein (LRP) in tumor cells was evaluated by immunohistochemistry. In 20 gastric adenocarcinomas, 11 (55%), 2 (10%), and 0 (0%) were positive for MRP, LRP, and P-Gp. In malignant lymphomas, only 3 out of 10 cases were positive for MRP (30%). The positive rate of MRP staining was significantly higher in well and moderately differentiated adenocarcinomas (80%) than in poorly differentiated adenocarcinomas (20%). With regard to the degree of MRP expression and histological cell type, higher grades (grade 2-3) were observed only in well and moderately differentiated adenocarcinomas. In terms of the positive-stained cells and staining intensity, heterogeneity was observed in the staining profile of MRP. The proliferative cell nuclear antigen labeling index (PCNA LI) of MRP-positive and MRP-negative cases was 49.3% +/- 11.6% and 49.4 +/- 6.9%, respectively. No correlation was observed between the MRP expression and PCNA LI. In conclusion, the incidence of MRP expression in gastric cancer was the highest in three different multidrug resistance-related epitopes. An evaluation of the MRP expression thus seemed to be beneficial for determining the optimal strategy of chemotherapy.
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PMID:Histopathological assessment of multidrug resistance in gastric cancer: expression of P-glycoprotein, multidrug resistance-associated protein, and lung-resistance protein. 1033 9

This review considers the mechanisms associated with the pleiotropic resistance of cancer cells to chemotherapeutic drugs, and more particularly those related to intracellular pH (pHi). The multidrug resistance (MDR) phenomenon responsible for the decreased accumulation and increased efflux of cytotoxic drugs is generally associated with excess levels of P-glycoproteins (Pgps) encoded by MDR genes and/or the multidrug resistance-associated protein (MRP). MDR cell lines, derived from normal or tumor cells, frequently exhibit abnormally elevated pHi and changes in the production of various proteins. Recent studies have suggested that, in addition to the impact of the ATP-dependent membrane transporters Pgp and MRP on drug transport, other mechanisms linked to pHi changes in MDR cells may play an important role in drug resistance. We have shown that alkalinization of the acidic compartments (endosomes and lysosomes) by lysosomotropic agents could stimulate the efflux of vinblastine from drug-resistant mouse renal proximal tubule cells. The fact that weak base chemotherapeutic drugs can be sequestered within the acidic organelles of MDR cells sheds new light on the cellular mechanisms of drug resistance.
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PMID:Mechanisms of altered sequestration and efflux of chemotherapeutic drugs by multidrug-resistant cells. 1040 56

The multidrug resistance-associated protein (MRP) is a drug efflux membrane pump conferring multidrug resistance on tumor cells. In order to look for compounds that can lead to reversal of such a resistance, the antituberculosis compound rifampicin, belonging to the chemical class of rifamycins, was examined for its effect on MRP activity in human multidrug resistant lung cancer GLC4/ADR cells. Rifampicin was shown to increase accumulation of the MRP substrate calcein in GLC4/ADR cells in a dose-dependent manner by inhibiting its MRP-mediated efflux from the cells; it also enhanced intracellular retention of another substrate of MRP such as the anticancer drug vincristine in the resistant cells. By contrast, the antituberculosis drug did not alter cellular levels of accumulation of either calcein or vincristine in parental drug-sensitive GLC4 cells. Other rifamycins such as rifamycin B and rifamycin SV were also demonstrated to increase intracellular accumulation of calcein in GLC4/ADR cells. These results therefore indicate that rifamycins, including rifampicin, probably constitute a new chemical class of modulators down-regulating MRP-mediated drug transport.
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PMID:Inhibition of multidrug resistance-associated protein (MRP) activity by rifampicin in human multidrug-resistant lung tumor cells. 1040 15

Overexpression of ATP-dependent drug efflux pumps, P-glycoprotein (Pgp) or multidrug resistance-associated protein (MRP), confers multidrug resistance to tumor cells. Modulators of multidrug resistance block the action of these pumps, thereby sensitizing cells to oncolytics. A potent Pgp modulator is LY335979, which fully sensitizes Pgp-expressing cells at 0.1 microM in cytotoxicity assays and for which Pgp has an affinity of 59 nM. The present study examines its effect on MRP1-mediated drug resistance and cytochrome P-450 (CYP) activity and its ability to serve as a Pgp substrate. Drug resistance was examined with HL60/ADR and MRP1-transfected HeLa-T5 cells. Drug cytotoxicity was unaffected by 1 microM LY335979; leukotriene C4 uptake into HeLa-T5 membrane vesicles was unaffected. Because the substrate specificity of Pgp and CYP3A overlap, the effect of LY335979 on the 1'-hydroxylation of midazolam by CYP3A in human liver microsomes was examined. The apparent K(i) was 3.8 microM, approximately 60-fold higher than the affinity of Pgp for LY335979. The modulator's effect on Pgp was evaluated with Pgp-overexpressing CEM/vinblastine (VLB)(100) and parental CCRF-CEM cells. Both cell lines accumulated [(3)H]LY335979 equally well and did not efflux [(3)H]LY335979 during a 3-h incubation, indicating that it is not a substrate of Pgp. Equilibrium-binding studies with CEM/VLB(100) plasma membranes and [(3)H]LY335979 showed that Pgp had a K(d) of 73 nM, which is in good agreement with the previously determined K(i) value. Thus, LY335979 is an extremely potent Pgp, and not MRP1 or MRP2, modulator and has a significantly lower affinity for CYP3A than for Pgp.
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PMID:Selectivity of the multidrug resistance modulator, LY335979, for P-glycoprotein and effect on cytochrome P-450 activities. 1041 2

To characterize the clinical relevance of MRP gene in the chemoresistance of prostate carcinomas we determined the multidrug resistance-associated protein (MRP) expression in 30 samples from organ-confined prostate carcinoma, 9 samples from adjacent normal tissue and 4 hormone unresponsive cancers. The measurement of MRP expression was carried out by reverse transcription polymerase chain reaction (RT-PCR) in combination with capillary electrophoresis. Incorporated fluorescence-labeled primers were disclosed by a laser-operated fluorescence detection module. MRP expression was quantified by integration of the peak area and correlated to the ubiquitously expressed beta2 microglobulin. As positive control served the adriamycin-resistant HL60-ADR cell line, which overexpresses MRP. MRP expression was found in all samples. All samples showed a lower MRP/beta2 ratio than HL60-ADR cells. The expression of the MRP gene was 30% higher in organ-confined tumors than in hormone-unresponsive anaplastic tumors. Normal tissue showed the same MRP mRNA level as the adriamycin-sensitive HL60 cells. A higher tumor stage correlated with an increase of MRP expression (> factor 2), whereas G3 tumors displayed a MRP expression 30% lower than in G2 tumors. The small alterations indicate that MRP expression seems not be involved in the chemoresistance of prostate carcinomas.
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PMID:Expression of the gene for the multidrug resistance-associated protein in human prostate tissue. 1042 16

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