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Target Concepts:
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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)
A panel of six 'wild type' and three VP-16 resistant small cell lung cancer (SCLC) cell lines is used to evaluate to what extent in vitro sensitivity testing using a clonogenic assay can contribute to combine cytotoxic drugs to regimens with improved efficacy against SCLC. The resistant lines include (a) H69/DAU4, which is classical multidrug resistant (MDR) with a
P-glycoprotein
efflux pump (b) NYH/VM, which exhibits an altered topoisomerase II (topo II) activity and (c) H69/VP, which is cross-resistant to vincristine, exhibits a reduced drug accumulation as H69/DAU4 but is without
P-glycoprotein
. 19 anticancer agents were compared in the panel. The MDR lines demonstrated, as expected, cross-resistance to all topo II drugs, but also different patterns of collateral sensitivity to BCNU, cisplatin, ara-C, hydroxyurea, and to the topo I inhibitor camptothecin. The complete panel of nine cell lines clearly demonstrated diverse sensitivity patterns to drugs with different modes of action. Correlation analysis showed high correlation coefficients (CC) among drug analogues (e.g. VP-16/
VM-26
0.99, vincristine/vindesine 0.89), and between drugs with similar mechanisms of action (e.g. BCNU/Cisplatin 0.89, VP-16/Doxorubicin 0.92), whereas different drug classes demonstrated low or even negative CC (e.g. BCNU/VP-16 -0.21). When the CC of the 19 drug patterns to VP-16 were plotted against the CC to BCNU, clustering was observed between drugs acting on microtubules, on topo II, alkylating agents, and antimetabolites. In this plot, camptothecin and ara-C patterns were promising by virtue of their lack of cross-resistance to alkylating agents and topo II drugs. Thus, the differential cytotoxicity patterns on this panel of cells can (1) give information about drug mechanism of action, (2) enable the selection and combination of non-cross-resistant drugs, and (3) show where new drugs 'fit in' among established agents.
...
PMID:Differential cytotoxicity of 19 anticancer agents in wild type and etoposide resistant small cell lung cancer cell lines. 809 93
The topoisomerase II inhibitor, VP-16 (etoposide), is an important component in many chemotherapeutic regimens. To characterize resistance to this drug, the human melanoma cell line, FEM-X, was selected in multiple steps with VP-16. To prevent the development of typical multidrug resistance, an inhibitor of
P-glycoprotein
, the tiapamil analog, RO-11-2933, was added to the selections. The resultant clone FVP3 is 56-fold resistant to VP-16 and cross-resistant to doxorubicin (Adriamycin) (9-fold) and
VM-26
(27-fold). These cells are also two- to four-fold resistant to m-AMSA, daunorubicin, and mitoxantrone. FVP3 is not resistant to the
P-glycoprotein
substrates vinblastine, does not express the MDR1 gene at detectable levels, and does not show reduced 3H-VP-16 accumulation. Unlike other cell lines that exhibit resistance to inhibitors of topoisomerase II, FVP3 has the same level of topoisomerase II expression and activity as FEM-X. Using live cells treated with VP-16, band depletion assays and KCI/SDS precipitation assays show that topoisomerase II from FVP3 is much less susceptible to drug-induced cleavable complex formation than is that from FEM-X. This difference in sensitivity to VP-16 is also detected using lysates from disrupted cells, but not with isolated nuclei devoid of cytoplasmic and membrane components. In addition, the topoisomerase II present in nuclear extracts from FVP3 is not resistant to the effects of VP-16 as measured by: (1) inhibition of strand passing activity during decatenation of kinetoplast DNA, (2) drug-induced linearization of plasmid DNA, and (3) immunodepletion by VP-16. These results suggest that some component of the cytoplasm or cellular membranes, or a factor depleted from nuclei during their isolation, is responsible for the resistance to VP-16 in FVP3.
...
PMID:Characterization of an unusual mutant of human melanoma cells resistant to anticancer drugs that inhibit topoisomerase II. 809 46
The Adriamycin-resistant small cell lung carcinoma cell line, GLC4/ADR, showed large differences in cross-resistance to drugs such as Adriamycin, etoposide (VP-16), teniposide (
VM-26
), 4'-(9-acridinylamino)-methanesulfon-m-anisidide (m-AMSA), and mitoxantrone, which stimulate the formation of topoisomerase (Topo) II-DNA complexes. GLC4/ADR cells demonstrated a reduced Topo II activity and no detectable levels of the
P-glycoprotein
compared to the parental GLC4 cells (S. De Jong et al., Cancer Res., 50: 304-309, 1990). In the present study, the resistance to
VM-26
(59.5-fold) and to m-AMSA (4-fold) of GLC4/ADR after a 1-h incubation was further analyzed. Using the K(+)-sodium dodecyl sulfate precipitation assay, a reduction in
VM-26
- and m-AMSA-induced cleavable complex formation was found in GLC4/ADR cells compared to GLC4 cells that was related to the degree of resistance to each drug. Cellular accumulation of the
VM-26
analogues VP-16 was 3- to 8-fold less and the accumulation of m-AMSA 1- to 2-fold less in GLC4/ADR cells than in the parental cells. Following the removal of
VM-26
, the cleavable complexes in GLC4/ADR cells disappeared at least 2-fold faster than in GLC4 cells, while the efflux of VP-16 was also enhanced in the resistant cells. On the contrary, no differences in cleavable complex disappearance or drug efflux between these cell lines were observed with m-AMSA. Efflux of both drugs, however, occurred at a much higher rate than cleavable complex disappearance. Using isolated nuclei, a reduction in cleavable complexes in GLC4/ADR was still observed with
VM-26
as well as m-AMSA compared to GLC4. The resistant nuclei and nuclear extracts showed a 3-fold decrease in M(r) 170,000 Topo II by immunoblotting. No differences in cleavable complex formation were found between nuclear extracts of both cell lines, when the Topo II activities were equalized. These findings suggest that the cross-resistance to m-AMSA is due to a decreased amount of Topo II and decreased drug accumulation, while in addition to these mechanisms an increased rate of cleavable complex disappearance is involved in the cross-resistance to
VM-26
of the GLC4/ADR cell line.
...
PMID:Topoisomerase II as a target of VM-26 and 4'-(9-acridinylamino)methanesulfon-m-aniside in atypical multidrug resistant human small cell lung carcinoma cells. 838 51
The efficacy of the epipodophyllotoxins VP-16 and
VM-26
is limited by the occurrence of drug resistance in the tumor cell population. Cellular insensitivity to drugs that stabilize the cleavable complex is frequently expressed as multidrug resistance (MDR). In some cell lines, overexpression of MDR-1/
P-glycoprotein
or the multidrug resistance associated protein (MRP) has been demonstrated and implicated as the mechanism of resistance. Typically, these cells have reduced drug accumulation, secondary to increased drug efflux. In other cell lines, an atypical MDR phenotype has been identified, with the predominant mechanism of resistance shown to be qualitative and/or quantitative changes in the levels and activity of topoisomerase II. For VP-16, increased expression of MDR-1 or MRP and alterations in topoisomerase II have been shown to confer tolerance. To further understand resistance to VP-16, T98G-VP(1000) was initially isolated as a single clone from parental cell, T98G, by exposure to VP-16. Subsequently, a population of cells from this subline was exposed to three-fold higher drug concentration allowing stable sublines to be established at higher extracellular drug concentration. Characterization of the resistant sublines demonstrates the adaptation that occurs with advancing drug concentrations during in vitro selections. Reduced topoisomerase II mRNA and protein levels were observed in the initial isolate. This reduction was accompanied by a decrease in topoisomerase II activity and cellular growth rate and was associated with 47-fold resistance to topoisomerase II poisons. With advancing resistance, MRP expression increased, with increased VP-16 efflux and reduced accumulation. This adaptation allowed for partial restoration of topoisomerase II activity secondary to increased expression and hyperphosphorylation, with a resultant increase in growth rate. In this cell line, hyperphosphorylation coincided with increased casein kinase II mRNA protein levels, without increased PKC protein levels, suggesting a role for this kinase in the acquired hyperphosphorylation. In this cell line, hyperphosphorylation mediated the increased activity despite a fall in topoisomerase II protein levels secondary to an acquired 615 bp deletion in one topoisomerase II allele, which resulted in reduced protein levels. In this subline, high levels of resistance were attained as a result of synergism between the reduced topoisomerase II levels and MRP overexpression. These studies demonstrate how cellular adaptation to increasing drug pressure occurs and how more than one mechanism can contribute to the resistant phenotype when increasing selecting pressure is applied. Reduced expression of topoisomerase II is sufficient to confer substantial resistance early in the selection process, with synergy from additional mechanisms helping to confer high levels of resistance.
...
PMID:Increased phosphorylation of DNA topoisomerase II in etoposide resistant mutants of human glioma cell line. 1072 8
We have previously reported that novobiocin potentiates the cytotoxic activity of etoposide (VP-16) and teniposide (
VM-26
) in a number of experimental tumor cell lines by inhibition of the efflux of the epipodophyllotoxins by an ATP-requiring transporter. In leukemia cells from 12/19 patients and in ovarian carcinoma cells from 2/4 patients, novobiocin, in a concentration range of 150-1000 microM, increased the intracellular accumulation of VP-16 by 30-250% by inhibiting its efflux. Novobiocin did not significantly increase the intracellular concentration of VP-16 in human mononuclear bone marrow cells from two individuals with normal bone marrow, suggesting that it might be possible to selectively modulate the intracellular accumulation of the epipodophyllotoxin in tumor cells relative to normal hematopoietic tissue. Previous findings from our laboratory have provided evidence that the membrane transporter for VP-16 which is inhibited by novobiocin is distinct from the
P-glycoprotein
. The expression of MRP, measured by immunoblotting, was variable in novobiocin-responsive and non-responsive leukemia cells, indicating that no direct relationship existed between the modulatory activity of novobiocin on the transport of VP-16 and the expression of the MRP gene. The findings indicate that the novobiocin-sensitive VP-16 transporter is (i) present in high frequency in leukemia and ovarian carcinoma cells, and (ii) probably not the
P-glycoprotein
or MRP.
...
PMID:Novobiocin-induced VP-16 accumulation and MRP expression in human leukemia and ovarian carcinoma cells. 1090
Multidrug resistance (MDR), characterized by a cross-resistance to many natural toxin-related compounds, may be caused either by overexpression of a drug efflux pump such as
P-glycoprotein
, (P-gP), multidrug resistance proteins MRP1-3, or BCRP/MXR or, in the case of DNA topoisomerase II active drugs, by a decrease in the enzymatic activity of the target molecule termed altered topoisomerase MDR (at-MDR). However, human small cell lung carcinoma (SCLC) cell lines showed a collateral sensitivity to 2',2'-difluorodeoxycytidine (gemcitabine, dFdC) and 1-beta-D-arabinofuranosylcytosine (ara-C). H69/DAU, a daunorubicin (DAU)-resistant variant of H69 with a P-gP overexpression, and NYH/VM, a
VM-26
(teniposide)-resistant variant of NYH with an at-MDR, were both 2-fold more sensitive to gemcitabine and 7- and 2-fold more sensitive to ara-C, respectively. MDR variants had a 4.3- and 2.0-fold increased activity of deoxycytidine kinase (dCK), respectively. dCK catalyzes the first rate-limiting activation step of both gemcitabine and ara-C. In addition, deoxycytidine deaminase, responsible for inactivation of dFdC and ara-C, was 9.0-fold lower in H69/DAU cells. The level of thymidine kinase 2, a mitochondrial enzyme that can also phosphorylate deoxycytidine and gemcitabine, was not significantly different between the variants. These differences most likely caused an increased accumulation of the active metabolites (dFdCTP, 2.1- and 1.6-fold in NYH/VM and H69/DAU cells, respectively) and of ara-CTP (1.3-fold in NYH/VM cells). Ara-CTP accumulation was not detectable in either H69 variant. The pools of all ribonucleoside and deoxyribonucleoside triphosphates were at least 3- to 4-fold higher in the NYH variants compared to the H69 variants; for dCTP and dGTP this difference was even larger. The higher ribonucleotide pools might explain the >10-fold higher accumulation of dFdCTP in NYH compared to H69 variants. Since dCTP is low, H69 cells might not need a high ara-CTP accumulation to inhibit DNA polymerase. This might be related to the lack of ara-CTP in H69 variants. In addition, the increased CTP, ATP, and UTP pools in the MDR variants might explain the increased ara-CTP and dFdCTP accumulation. In conclusion, the MDR variants of the human SCLC cell lines were collaterally sensitive due to an increased dCK activity, and consequently an increased ara-CTP and dFdCTP accumulation.
...
PMID:Collateral sensitivity to gemcitabine (2',2'-difluorodeoxycytidine) and cytosine arabinoside of daunorubicin- and VM-26-resistant variants of human small cell lung cancer cell lines. 1133 Oct 76
The multidrug resistance (MDR1) gene encodes a Mr 170,000 energy-dependent membrane efflux pump termed
P-glycoprotein
, and the
P-glycoprotein
is often expressed in various human tumors before and after cancer chemotherapy. In this study, we have established a human cancer KB cell line (Kst-6) which stably expressed the CAT gene (pMDRCAT1) driven by the human MDR1 promoter. Exposure to inhibitors of DNA topoisomerase I (camptothecin: CPT-11) and II (etoposide: VP-16 and teniposide:
VM-26
) could efficiently induce CAT activities in both time- and dose-dependent manners. However, CAT activity could not be significantly induced when treated with an ATP-antagoist, novobiocin. Northern blot analysis showed about 5-fold increase in CAT mRNA levels in Kst-6 cells treated with CPT-11 or VP-16, but not with novobiocin. Proximal MDR1 promoter-binding activities of transacting factor were augmented in nuclear extracts from KB cells treated with CPT-11,
VM-26
, and VP-16.
...
PMID:Activation of the human multidrug resistance-1 (mdr1) gene promoter in response to inhibitors of DNA topoisomerases. 2158 13
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