Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:5.99.1.3 (topoisomerase)
 9,911 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Anthracyclines were introduced for the treatment of breast cancer in the 1970s and were considered the most active single agents until the recent introduction of the taxoids. Although incorporation of anthracyclines into combination regimens has been shown to improve clinical outcomes, the duration of response and survival in women with metastatic disease is still modest, and 50% of women treated with adjuvant chemotherapy eventually relapse. Intrinsic and acquired drug resistance, leading to untreatable disease, are fundamental reasons for clinical failure in breast cancer, but the clinical relevance of the various known mechanisms of drug resistance is not clear. P-glycoprotein (Pgp)-mediated multidrug resistance, the most studied form of anthracycline resistance, can be inhibited by a variety of chemicals. While in vitro studies have demonstrated the efficacy of some Pgp inhibitors, and led to the development of more clinically acceptable agents, clinical studies have not shown a consistent advantage in using Pgp inhibitors. Since Pgp is a physiologic efflux mechanism, consideration also should be given to the possible consequences of its inhibition. Studies with Pgp knock-out transgenic mice suggest that Pgp is not essential for life, but that Pgp inhibition may make some tissues, such as the brain, more vulnerable to cytotoxic drugs. Correlating overexpression of the MDR1 gene in human tumor samples with treatment failure has not proved straightforward, and further studies are needed to clarify the contribution of multidrug resistance mechanisms to clinical anthracycline resistance. Mechanisms other than drug efflux pumps, which may contribute to anthracycline resistance, include changes in topoisomerase II, the major cellular target of anthracyclines. There remains a gulf between the laboratory definitions of drug resistance, which can be elucidated in great detail, and the clinical definition, which is based on the time to treatment failure. New drugs still need to be assessed empirically in the clinic, and these results may then be correlated with laboratory findings. We cannot yet reliably predict clinical efficacy, cross-resistance, or the mechanisms responsible for treatment failure from laboratory studies.
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PMID:Anthracycline resistance: the problem and its current definition. 927 1

The human small cell lung cancer NCI-H69 cell line selected for resistance to etoposide (H69/VP) has been reported previously to sequentially overexpress both the MRP and MDR1 multidrug resistance-conferring genes. In addition, immunocytochemistry of H69/VP cells demonstrated a distinct extranuclear localization of the nuclear enzyme topoisomerase IIalpha, the target of etoposide. Immunoblots showed a decrease in Mr 170,000 topoisomerase IIalpha in nuclear extracts in H69/VP but equal amounts of the enzyme in whole-cell extracts. Topoisomerase II catalytic activities in H69 and H69/VP whole-cell extracts were equal, as were their inhibition by etoposide. Sequencing of the entire H69/VP topoisomerase IIalpha cDNA showed a homozygous 9-nucleotide deletion encompassing nucleotides 4468-76, coding for Lys-Ser-Lys, overlapping two potential bipartite nuclear localization signals. The deletion occurred at the initial nine nucleotides of an exon, suggesting alternative splicing of topoisomerase IIalpha mRNA. Subsequent sequencing of H69/VP genomic DNA revealed a G-->T point mutation in the 3' acceptor splice site consensus sequence, resulting in the use of an alternate splice site. Comparison with previous reports on three drug-resistant cell lines with large truncations/deletions in the COOH-terminal region of topoisomerase IIalpha and extranuclear localization point to a pivotal role for the basic cluster 1490Lys-Ser-Lys1492 in the nuclear import of this enzyme.
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PMID:Loss of amino acids 1490Lys-Ser-Lys1492 in the COOH-terminal region of topoisomerase IIalpha in human small cell lung cancer cells selected for resistance to etoposide results in an extranuclear enzyme localization. 937 50

Renal cell carcinoma (RCC) displays strong resistance against many chemotherapeutic drugs. Overexpression of P-glycoprotein (Pgp) appears to be part of this resistance. The involvement of another resistance mechanism, involving the decreased activity of DNA topoisomerase II (topoII), remains uncertain. By culturing the human RCC lines RC2 and RC21 in the presence of increasing concentrations of etoposide, we derived the variant sublines RC2E, RC21A and RC21E, that had acquired approximately 30-, 60- and 90-fold resistance to this drug respectively. RC2E, RC21A and RC21E were approximately 50-, 5- and 400-fold cross-resistant to doxorubicin respectively. RC2E and RC21E also showed cross-resistance (approximately 200- and 3500-fold respectively) to vinblastine. Quantitative differences in MDR1 and Pgp expression (elevated in RC2E and RC21E) and topoII alpha (reduced in RC21E and RC21A) were demonstrated using Western blotting and the reverse transcriptase/polymerase chain reaction. Decreased amounts of topoII alpha were reflected in a reduced activity of RC21A and RC21E as measured by unknotting phage P4 DNA. Qualitative changes of the topoII alpha gene, such as point mutations in the motif B/DNBS and DNA-binding regions, or differences in methylation status of the promoter gene of RC21E, were not found. These cell lines represent a model of a solid tumor in which overexpression of Pgp, a combination of increased Pgp and decreased topoII alpha, and a decrease of topoII alpha are represented.
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PMID:Decreased levels of topoisomerase II alpha in human renal cell carcinoma lines resistant to etoposide. 939 88

Multidrug resistance-associated protein (MRP) mRNA expression and drug sensitivity in lung cancer cells were examined, and the effects of verapamil, a modulating agent for MRP, on drug sensitivity were also tested. Nine cell lines expressed various levels of MRP gene expression but not the MDR1 gene. The levels were higher in non-small cell carcinoma cells (NSCLC) than in small cell carcinoma cells (SCLC). Clear correlations between the MRP gene level and the sensitivity to etoposide (VP-16) and doxorubicin (Dox) were observed except for one cell line which highly expressed DNA topoisomerase II. Positive correlations between the MRP gene levels in three cell lines and the modulation effects of verapamil in VP-16, Dox, and vincristine were observed. The present results indicate that MRP probably confers intrinsic multidrug resistance in NSCLC rather than in SCLC.
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PMID:Multidrug resistance-associated protein gene expression and drug sensitivity in human lung cancer cells. 941 93

A possible link between protein kinase C (PKC) and P-glycoprotein (P-gp)-mediated-multidrug resistance (MDR) was assumed from studies on MDR cell lines selected in vitro. The functional relevance of PKC for the MDR phenotype remains unclear, and the involvement of a particular PKC isozyme in clinically occurring drug resistance is not known. Recently, we have demonstrated significant correlations between the expression levels of the PKC eta isozyme and the MDR1 or MRP (multidrug resistance-associated protein) genes in blasts from patients with acute myelogenous leukaemia (AML) and in ascites cell aspirates from ovarian cancer patients. To extend these findings to further types of human tumours we analysed specimens from 64 patients with primary breast cancer for their individual expression levels of several MDR-associated genes (MDR1, MRP, LRP (lung cancer resistance-related protein), topoisomerase (Topo) II alpha/IIbeta, cyclin A and the PKC isozyme genes (alpha, beta1, beta2, eta, theta, and mu) by a cDNA-PCR approach. We found significantly enhanced mean values for MRP, LRP and PKC eta gene expression, but significantly decreased Topo II alpha and cyclin A gene expression levels in G2 tumours compared with G3. Remarkably, significant positive correlations between the MDR1, MRP or LRP gene expression levels and PKC eta were determined: MDR1/PKC eta (rs = +0.6451, P < 0.0001) n = 62; MRP/PKC eta (rs = +0.5454, P < 0.0001) n = 63; LRP/PKC eta (rs = +0.5436, P < 0.0001) n = 62; MRP/LRP (rs = +0.7703, P < 0.0001) and n = 62, MDR1/MRP (rs = +0.5042, P < 0.0001) n = 62. Our findings point to the occurrence of a multifactorial MDR in the clinics and to PKC eta as a possible key regulatory factor for up-regulation of a series of MDR-associated genes in different types of tumours.
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PMID:Multiple gene expression analysis reveals distinct differences between G2 and G3 stage breast cancers, and correlations of PKC eta with MDR1, MRP and LRP gene expression. 945 50

Although peripheral blood and bone marrow are usually readily available from patients, present techniques of RNA extraction are tedious, require millilitres of starting material and removal of red blood cells before RNA purification. Further, successful reverse transcriptase polymerase chain reaction (RT-PCR) amplification requires the removal of haemoglobin derivatives which interfere with the PCR process. Recently, one step rapid use reagents have become available, claiming to be useful for obtaining high quality RNA from microlitre quantities of whole blood drawn directly from the patient. Their use to date in clinical samples appears limited with little information in the literature documented. In an attempt to overcome this, we tested the Trizol-LS, RNA-STAT-50 and Ultraspec-3 reagents upon a statistically significant number of clinical isolates of fresh and cryopreserved peripheral blood, bone marrow, blood apheresis products and a breast cancer cell line (MCF7) in order to evaluate whether these methods could be applied to routine laboratory use in an RT-PCR method capable of detecting rare gene expression. Our findings showed that there was some variation in the quality of RNA extracted which was indicated by absorbance spectrophotometry at 260 and 280 nm. 1% agarose gel electrophoresis showed that each of these methods could yield total RNA capable of generating the signature 18S and 28S rRNA bands. Using the Kruskal-Wallis non-parametric anova test combined with Dunn's multiple comparison test, the only statistically significant difference (p<0.05) indicated that Trizol-LS was more reliable than RNA-STAT-50-LS and Ultraspec-3 at extracting RNA from fresh peripheral blood. RNA extracted with the Trizol-LS and RNA STAT-50 reagents was successfully amplified in a multiplex RT-PCR reaction for detection of the multi-drug resistance related genes MDR1, the multi-drug resistance related protein (MRP) and topoisomerase IIalpha. Low level MDR1 gene expression could be detected in frozen whole blood. However, PCR products were only seen when the anti-coagulant heparin was removed from all samples prior to cDNA production. RT-PCR amplification was not 100% successful with RNA extracted with Ultraspec-3 reagent. In conclusion, we found that the RNA extracted from whole blood with the Trizol-LS and the RNA-STAT-50 are suitable for use in clinically relevant molecular biology protocols that analyze rare event genes without further purification. Our results indicated that the Trizol-LS reagent was generally more consistent in obtaining a pure and sufficient quantity of RNA from patient material as shown by the mean result of purity and quantity in comparison to either Ultraspec-3 or RNA-STAT-50-LS reagents. Ultraspec-3 is not easily suited for direct use with whole blood products.
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PMID:Evaluation of three rapid RNA extraction reagents: relevance for use in RT-PCR's and measurement of low level gene expression in clinical samples. 948 49

Chemotherapy is the principal strategy to systemically challenge metastasized cancers of genitourinary origin. Unfortunately, the efficacy of chemotherapy is often hampered by multidrug resistance, the resistance to a variety of structurally and functionally distinct cytotoxic agents. Multidrug resistance can be either intrinsic or acquired, and can be caused by several mechanisms. The so-called classical multidrug resistance, mediated by the MDR1 gene product P-glycoprotein, has been held mainly responsible for inferring the multidrug resistance phenotype on urologic malignancies. However, several other multidrug resistance pathways have been identified. Multidrug resistance can be caused by the membrane-bound multidrug-resistance-associated protein, the detoxifying glutathione metabolism, the antiapoptotic protein BCL2, and changes in levels or activity of the topoisomerase enzymes. Strategies to overcome multidrug resistance of genitourinary tumors have arisen from the better understanding of the biologic and molecular mechanisms of multidrug resistance, and have been studied in experimental and clinical settings. However, attempts to modulate multidrug resistance in clinical renal cell, bladder, prostate, and testicular cancer have not been very rewarding so far, despite the optimism that had arisen from experimental data. Nevertheless, application of novel therapies to reverse multidrug resistance and to increase efficacy of chemotherapy for urologic cancers should be further pursued, within the setting of controlled clinical trials, to improve on current strategies.
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PMID:Circumvention of multidrug resistance in genitourinary tumors. 953 94

To study the development of drug resistance in childhood hepatoblastoma (HB) using a model closely related to in vivo conditions, we cultivated HB xenografts from 3 patients into mice and treated these tumors with either adriamycin (ADR) or cisplatin (CIS). Determination of the relative expression levels of various resistance associated genes by a cDNA-PCR approach showed: a) Significantly enhanced MDR1 gene expression levels after treatment with ADR in each case. b) Significantly enhanced glutathione S-transferase mu (GST mu) gene expression levels after treatment with CIS in 2/3 xenografts. c) Significantly decreased levels of topoisomerase IIa (TOPO IIa) in tumors of the same two patients after treatment with either ADR or CIS. These findings give evidence that the MDR1-, GST mu- and TOPO IIa-gene products may contribute to drug resistance in HB.
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PMID:Altered expression of resistance associated genes in hepatoblastoma xenografts incorporated into mice following treatment with adriamycin or cisplatin. 971 21

Protoberberines are a new class of organic cations that are dual poisons of topoisomerases I and II. Certain protoberberines exhibit greater in vitro cytotoxicity against cell lines derived from solid tumors than from leukemias. Using a group of seventeen different protoberberine analogs, the structural basis for selective cytotoxicity toward sensitive SF-268 glioblastoma cells as compared with resistant RPMI 8402 lymphoblast cells was explored. The selective cytotoxicity is associated with the presence of an imminium ion and other structural features of protoberberines, and is not shared by drugs such as camptothecin, doxorubicin, vinblastine, and etoposide, which are either equally or more cytotoxic against RPMI 8402 cells than SF-268 cells. The selective cytotoxicity of protoberberines against SF-268 over RPMI 8402 cells is not due to differences in topoisomerase levels or known drug efflux systems such as multidrug resistance (MDR1) and multidrug-resistance protein (MRP). Comparative in vitro studies of the accumulation of coralyne, a fluorescent protoberberine, into sensitive and resistant cells demonstrated a correlation between drug accumulation and selective cytotoxicity. Inhibitors of coralyne uptake included several protoberberine-related compounds. Of these, palmatine, a minimally cytotoxic protoberberine, both inhibited coralyne accumulation and reduced cytotoxicity against SF-268 cells, but not against RPMI 8402 cells. Despite the structural resemblance of protoberberines to catecholamines, our experiments using inhibitors and cells expressing biogenic amine uptake systems have ruled out the involvement of biogenic amine uptake1, uptake2, and vesicular monoamine transport systems. Uptake systems remaining as candidates, supported by preliminary data, include transport via vesicles derived from specialized membrane invaginations and selected carrier-mediated organic amine transport systems.
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PMID:Selective cytotoxicity of topoisomerase-directed protoberberines against glioblastoma cells. 980 26

We have established ten transplantable human soft-tissue sarcoma (STS) xenografts grown as subcutaneous tumours in the nude mouse. Nine xenografts originated from patients that needed chemotherapy in the course of their disease. The xenografts were tested for their sensitivity to maximum tolerated doses of five anti-cancer agents. Growth of treated tumours was expressed as a percentage of control tumour growth and a growth inhibition > 75% was measured for doxorubicin in 20% of the STS xenografts, for cyclophosphamide in 30%, for ifosfamide in 20%, for vincristine in 20%, whereas etoposide was not effective in the STS xenografts. In three out of ten STS xenografts MDR1 mRNA was detectable, but this was not related to the resistance against doxorubicin, vincristine or etoposide. Topoisomerase IIalpha mRNA expression levels did not reflect sensitivity to doxorubicin or etoposide. In all STS tissues, however, these levels were lower than topoisomerase IIalpha mRNA in a drug-sensitive human ovarian cancer xenograft. Glutathione concentrations and the activities of glutathione S-transferase, glutathione peroxidase and glutathione reductase were not related to resistance against the alkylating agents or doxorubicin. Of interest, in all STS tissues, glutathione S-transferase pi was the predominant isoenzyme present. In conclusion, chemosensitivity of the STS xenografts reflects clinical response rates in phase II trials on the same compounds in adult STS patients. Relatively low levels of topoisomerase IIalpha mRNA may partly account for intrinsic resistance against, for example, doxorubicin. Additional factors must contribute to moderate responsiveness to alkylating agents.
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PMID:Characterization of human soft-tissue sarcoma xenografts for use in secondary drug screening. 986 68


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