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)

Overexpression of P-glycoprotein (P-gp) in cancer cells can result in resistance to several chemotherapy agents (multidrug resistance) including doxorubicin and vincristine. The drugs to which resistance develops also penetrate the blood brain barrier poorly. P-gp expression in brain capillary endothelial cells suggests that P-gp may restrict drug entry into brain tumors and thus be another mechanism of drug resistance. To seek evidence for either of these roles in the drug resistance of brain tumors, we examined the location of expression of P-gp in 49 brain tumors, using an anti-P-gp mouse monoclonal antibody and immunohistochemistry. P-gp expression was observed in tumor cells of two glioblastomas and a meningeal sarcoma but not in low-grade primary or metastatic tumors. In low-grade primary tumors, P-gp was present in all vascular endothelial cells. In the vascular endothelial cells of anaplastic primary brain tumors and brain metastases, P-gp expression was heterogeneous or absent. These findings are consistent with a role for P-gp in the resistance of some brain tumors to chemotherapy agents.
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PMID:P-glycoprotein expression in brain tumors. 136 24

The applicability of a multilayer immunoperoxidase "sandwich" method (IpS) developed by Chan14 for the amplified detection of P-glycoprotein (Pgp) was investigated. The authors examined 15 formalin-fixed cell lines, as well as formalin-fixed, paraffin-embedded sections from single biopsies of 46 sarcomas. The cell lines included sensitive and multidrug resistant sublines (KB, A2780, MCF-7, HeLa) with various relative degrees of resistance to doxorubicin (Dox). The sarcoma biopsy specimens were selected on the basis of the results obtained in Western blot (WB) detection of Pgp (22 positive and 24 negative by WB) using C219 and C494 monoclonal antibodies to Pgp. The IpS method employed C219. The least resistant cell line in which Pgp could be detected by IpS was fivefold resistant to doxorubicin, whereas Pgp was detected by WB in cells greater than twofold resistant. Cell lines having greater than fivefold resistance to Dox were positive by both IpS and WB analyses. The less resistant cell lines contained more nonreactive cells whereas the highly resistant cell lines showed more homogeneous strong membrane reactions. Among the six cell lines determined to be Pgp negative by WB analysis, no false positive immunostaining by IpS existed. One of 22 WB positive and 7 of 24 WB-negative sarcoma biopsy specimens were positive by IpS methods. Reaction varied and was always focal (a minimum of 3-5 cells, ranging up to 3-4 high power fields) indicating pronounced heterogeneous distribution of Pgp. Thus, WB can detect low average (overall) levels of Pgp in tumor samples but such low concentrations of PgP at the single cell are not detectable by IpS methods. However, IpS can discern among many Pgp-negative cells small subpopulations of immunoreactive cells, which are not detected by WB analysis due to Pgp dilution by the membrane protein of numerous Pgp negative cells. IpS and WB used together as complementary methods can provide more complete information about Pgp distribution and content, particularly in the case of heterogeneous human tumors. The IpS method is more suitable for less drastically treated (not embedded) cell line specimens than for paraffin-embedded (routine) sections. Some modification of the present IpS protocol seems necessary to increase its sensitivity and reduce the disparity with WB results.
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PMID:Comparison of an immunoperoxidase "sandwich" staining method and western blot detection of P-glycoprotein in human cell lines and sarcomas. 137 85

Mechanisms of multidrug resistance were studied in murine leukemia (L 1210) and sarcoma (Sa 180) tumors after pretreatment with anthracyclines in vivo. Despite identical pretreatment protocols, a considerable difference in the level of resistance between L 1210 and Sa 180 tumors was noted (for doxorubicin: 45-fold versus 340-fold; for daunorubicin: 51-fold versus 275-fold). However, no difference in mdr 1 gene-amplification and the overexpression of mdr 1-RNA or P-glycoprotein was demonstrated. None of these parameters did increase by further treatment with a higher concentration of anthracyclines. Resistant sublines of Sa 180 revealed an overexpression of glutathione S-transferase-pi (GST-pi) in comparison to the parental line, whereas in sensitive and resistant sublines of L 1210 tumors the expression of GST-pi was similar. In order to study whether trifluoperazine can reverse the P-glycoprotein mediated component of multidrug resistance, trifluoperazine and doxorubicin were tested in vitro in L 1210 and Sa 180 cells. In contrast to the complete reversal of resistance in L 1210 tumors, resistance in Sa 180 was only partly circumvented. However, by buthionine sulfoximine treatment, the toxicity of multidrug resistant Sa 180 tumors could be increased. It was possible to reverse the resistance of Sa 180 tumors completely by trifluoperazine plus buthionine sulfoximine. Thus, multidrug-resistant Sa 180 tumors express different defense mechanisms whereas L 1210 tumors express only one defense mechanism (P-glycoprotein).
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PMID:Resistance mechanisms in murine tumors with acquired multidrug resistance. 144 88

The plant diterpene forskolin reverses acquired resistance to doxorubicin in variants of the murine sarcoma S180 cell line. Because forskolin is known to elevate intracellular cAMP levels, investigations were performed to determine whether this reversal of resistance resulted from effects on signal transduction. Two analogues of forskolin, dideoxyforskolin, which does not elevate cAMP, and a water-soluble analogue, were also investigated. Although all three diterpenes elevated levels of either cAMP or protein kinase C, these effects were not consistently associated with reversal of doxorubicin resistance. Likewise, all three diterpenes were capable of displacing [3H]azidopine from P-glycoprotein, but reversal of doxorubicin resistance was observed only with forskolin and dideoxyforskolin, suggesting that binding to P-glycoprotein may be a necessary, but not sufficient, condition for reversing doxorubicin resistance. The hydrophobicity of the compounds appeared to be the single factor most consistently related to reversal of doxorubicin resistance in this cell system, with the hydrophilic compound water-soluble forskolin failing to produce this result, even at concentrations 10-fold higher than effective concentrations of the hydrophobic diterpenes.
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PMID:Reversal of doxorubicin resistance by hydrophobic, but not hydrophilic, forskolins. 168 37

Several mechanisms of drug resistance have been defined using cell lines selected for resistance in vitro. However, the relevance of these to tumor cell resistance in vivo remains unclear. We established tumor cell lines from biopsies of human sarcomas before and after doxorubicin therapy. One pretreatment sarcoma line, STSAR90, was 6-fold less sensitive to doxorubicin than was a normal fibroblast line, AG1522. The sensitivities of six other sarcoma lines were similar to that of AG1522. STSAR90 cells did not overexpress P-glycoprotein mRNA, by Northern analysis with the pCHP1 complementary DNA fragment. Photoaffinity labeling with the vinblastine analogue N-(p-azido-3-125I-salicyl)-N'-beta-aminoethylvindesine did not show increased P-glycoprotein concentrations. Accumulation of [3H]daunomycin was not decreased in STSAR90 compared with a less resistant sarcoma line, STSAR11, nor was the doxorubicin sensitivity of STSAR90 increased by coincubation with verapamil. Glutathione levels were twice as high in STSAR90 as in STSAR11, and glutathione peroxidase activity was 3.5- to 6-fold higher. This was due mostly to an increase in selenium-dependent peroxidase activity. After exposure to doxorubicin, STSAR90 cells formed only half as much measurable hydroxyl radical as STSAR11, as detected by electron spin resonance spectrometry. Doxorubicin sensitivity was increased in STSAR90 cells when intracellular glutathione levels were reduced by buthionine sulfoximine. These results indicate that multidrug resistance due to P-glycoprotein-mediated drug efflux is not the only mechanism of doxorubicin resistance that occurs in sarcomas and that glutathione peroxidase-dependent detoxification of doxorubicin-induced oxygen radicals may contribute to clinical doxorubicin resistance.
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PMID:Increased glutathione peroxidase activity in a human sarcoma cell line with inherent doxorubicin resistance. 184 55

Resistance to multiple chemotherapeutic agents has been related to the production of P-glycoprotein, a trans-membrane drug efflux pump that is encoded by the multidrug resistance (MDR) gene mdr1. To investigate whether mdr1 could be involved in clinical resistance to chemotherapy in acute leukemias, we have analyzed retrospectively the RNA from adult acute leukemia cells by slot-blot hybridization with a human mdr1 probe. Units of mdr1 expression were defined by reference to drug-sensitive human sarcoma and K562 leukemia cell lines (1 U) and the highly resistant doxorubicin selected leukemia cells K562/R7 (50 U). We studied 41 adult patients with acute leukemias: 5 acute lymphoblastic leukemias, 23 acute myeloid leukemias, and 13 secondary leukemias or blast crisis of chronic myelogenous leukemia. Expression of 10 U or more of mdr1 was found in 6 of 31 (19%) leukemias at diagnosis, versus 5 of 10 (50%) after relapse from therapy, P = .06. The complete remission rate and in vitro sensitivity to daunorubicin were both correlated with low expression (1 U, v 2 U or more) of mdr1. Among 36 evaluable attempts to induce remission, the complete remission rate was 67% (8 of 12) for patients with undetectable or minimal mdr1 expression (1 U), versus 29% (7 of 24) in patients with 2 U or more of expression, P = .03. In vitro resistance to daunorubicin or other MDR-related drugs was associated with expression of 2 U or more of mdr1 in 11 of 11 cases, while specimens that were sensitive to these agents were negative for mdr1 expression in 5 of 11 cases, P = .03. These data suggest that mdr1 expression contributes to chemoresistance in acute leukemia. Determination of mdr1 gene expression may be useful in designing therapy for patients with leukemia.
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PMID:Multidrug resistance (mdr1) gene expression in adult acute leukemias: correlations with treatment outcome and in vitro drug sensitivity. 185 77

Increased expression of P-glycoprotein is associated with multidrug resistance (MDR) in many cell lines. Significant levels of P-glycoprotein have been detected in a number of human tumors. The purpose of this study was to determine whether P-glycoprotein expression correlates with both response to chemotherapy and prognosis in soft tissue sarcoma of childhood. In a retrospective study, biopsy samples from 30 cases of rhabdomyosarcoma (RMS) and undifferentiated sarcoma (US) treated at The Hospital for Sick Children in Toronto were analyzed using a semiquantitative immunohistochemical procedure. P-glycoprotein was detected in nine patients, four at diagnosis, and five at subsequent biopsy. All nine patients relapsed after a clinical response (complete [CR] 55%, partial [PR] 45%) to chemotherapy. Twenty of 21 patients with consistently P-glycoprotein-negative tumors received chemotherapy and they all responded clinically (CR 80%, PR 20%). Only one of these 20 patients has relapsed. The probability of relapse-free survival was significantly different (P less than .000000012) in chemotherapy-treated patients whose tumors contained detectable levels of P-glycoprotein (n = 9), compared with those whose tumors contained no detectable P-glycoprotein (n = 20). The overall probability of survival was also significantly different in these two groups (P less than .0000267). Both relapse-free and overall survivals remained statistically different in the two groups of patients when analyzed by the log-rank method, after adjustment for differences in stages and sites. The incidence of other adverse prognostic factors in the two groups, for example, younger and older ages, low pretreatment lymphocyte counts, large tumors, and unfavorable histology were not significantly different. Thus, detectable P-glycoprotein appears to be an important adverse prognostic factor in children with soft tissue sarcoma, and consistent absence of the protein is associated with a favorable prognosis.
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PMID:Immunohistochemical detection of P-glycoprotein: prognostic correlation in soft tissue sarcoma of childhood. 196 64

To investigate the role of carcinogenesis in determining the response of tumors to anticancer drugs, we have used the in vivo model of multistage carcinogenesis of the mouse skin. Mice were initiated with Harvey murine sarcoma virus or single and repeated applications of dimethylbenzanthracene (DMBA). The papillomas which developed as a result of these initiation protocols were monitored quantitatively for their response to the anticancer drug doxorubicin. A single dose of 10 mg/kg doxorubicin is relatively inefficient at reducing the frequency of papillomas arising as a result of either single or repeated applications of the chemical DMBA. However, virally initiated papillomas are sensitive to the single 10-mg/kg dose of doxorubicin and are reduced in frequency by greater than 80%. Repeat treatment with four doses of 5 mg/kg doxorubicin over a 4-week period also reveals differences in the responses of the papillomas to doxorubicin. As with the single dose of doxorubicin, papillomas initiated with multiple applications of DMBA showed only a limited response to four 5-mg/kg doses of doxorubicin. In comparison both the virally initiated and the single DMBA initiated papillomas responded to the four doses of doxorubicin and are reduced in frequency by about 80%. These data show that the response of papillomas to doxorubicin is related to the initiating event. Papillomas derived by viral initiation are most sensitive to doxorubicin while increasing the level of exposure to the chemical carcinogen DMBA increases the proportion of papillomas which do not respond to treatment with doxorubicin. There was no obvious relationship between the method of initiation or the treatment of the mice with doxorubicin and the levels of P-glycoprotein expression observed in the papillomas. All the papillomas expressed detectable levels of P-glycoprotein approaching that of the multidrug resistant cell line, CHRC5.
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PMID:Response of mouse skin tumors to doxorubicin is dependent on carcinogen exposure. 197 37

A novel fusion gene has been created in which the expression of a dominant selectable marker, the human multidrug resistance gene, is directly linked to the expression of human adenosine deaminase cDNA. The chimeric gene was inserted between the long terminal repeats of a Harvey murine sarcoma virus expression vector and used to transfect drug-sensitive human KB carcinoma cells. Transfectants were selected in increasing concentrations of colchicine and found to contain multiple copies of the intact fusion gene, which is stably and efficiently expressed. A membrane-associated 210-kDa human P-glycoprotein-adenosine deaminase fusion protein is synthesized which retains function of the multidrug transporter and also exhibits adenosine deaminase activity. The data indicate that the human multidrug resistance gene may be used as a dominant selectable marker to introduce other genes in the form of gene fusions into cultured cells.
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PMID:Expression of a multidrug resistance-adenosine deaminase fusion gene. 256 38

The cephalosporins are a family of semisynthetic antibiotics, some of which have structural features associated with substrates for the multidrug transporter, P-glycoprotein. The activity of a series of six cephalosporins in reversing multidrug resistance (MDR) was examined in MDR variants (Dx5 cells) of the human sarcoma line MES-SA. Dx5 cells express high levels of the mdr1 gene product P-glycoprotein and are 25- to 30-fold resistant to doxorubicin (DOX), etoposide (VP-16), and vinblastine (VBL). Cytotoxicity was measured by the MTT assay. Cefoperazone (1.0 mM) was the most effective modulator of MDR, lowering the IC50 for VP-16 by 29-fold (29x), for VBL by 16x, and for DOX by 14x. Ceftriaxone at 1.0 mM produced 10x modulation of VP-16 cytotoxicity, 8x for DOX, and 2x for VBL. The reversal of resistance was concentration dependent, decreasing to 4x and 5x, respectively, for DOX with 0.25 mM cefoperazone and ceftriaxone. No modulation of cytotoxicity was observed in the parental MES-SA cells, which do not express mdr1. Cefazolin, cefotetan, cephradine, and ceftazidime were ineffective, producing less than 5x modulation of DOX at 1.0 mM. Among these cephalosporins, cefoperazone and ceftriaxone were the most highly protein bound in the media (30 and 52%), and the most lipid soluble, with octanol/water partitioning coefficients of -0.49 and -0.60. Varying the serum concentration in medium from 5 to 50% had less than a two-fold effect on the modulation of MDR by ceftriaxone. The ability to reverse MDR among these agents is associated with lipid solubility, high protein binding, a polycyclic planar geometry, and the presence of the piperazine group in cefoperazone. These data and the potential for achieving high tissue concentrations indicate that cefoperazone merits further study as a modulator of MDR.
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PMID:Reversal by cefoperazone of resistance to etoposide, doxorubicin, and vinblastine in multidrug resistant human sarcoma cells. 258 32


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