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Query: EC:5.99.1.2 (
topoisomerase
)
9,166
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Etoposide
(
VP-16
) and several other unrelated anti-tumour agents appear to act by inhibiting the enzyme DNA topoisomerase II. We report here the development and characterization of an etoposide-resistant human leukaemic CCRF-CEM cell line, CEM/VP-1. The cell line was 15-fold more resistant to etoposide than the parental CEM cells and exhibited cross-resistance to other
topoisomerase
II inhibitors including teniposide, m-AMSA, and doxorubicin. CEM/VP-1 cells exhibited only a low level cross-resistance to the Vinca alkaloids, vinblastine and vincristine, known inhibitors of mitotic spindle formation. As a first step in defining the mechanism of resistance to etoposide, we compared the levels of
topoisomerase
II activity and its drug sensitivity in nuclear extracts from the resistant and sensitive CEM cells. As determined by a kinetoplast DNA decatenation assay, the level of DNA topoisomerase II activity in CEM/VP-1 nuclear extracts was approximately 2-fold lower than that in CEM cells, and the activity appeared to be resistant to inhibition by etoposide. Furthermore, the DNA topoisomerase II activity in CEM/VP-1 nuclear extracts did not promote the etoposide-dependent cleavage of pBR322 DNA observed with extract from sensitive cells. These results suggest that etoposide resistance in the CEM/VP-1 cell line may at least in part be due to an altered
topoisomerase
II, or associated factor, resulting in a reduced ability to induce DNA cleavage in the presence of drug.
...
PMID:Development and properties of an etoposide-resistant human leukaemic CCRF-CEM cell line. 215 15
The effect of combinations of the anthracycline aclarubicin and the
topoisomerase
II targeting drugs 4'-demethylepipodophyllotoxin-9-(4,6-O-ethylidene-beta-D-glucopyra noside) (
VP-16
) and 4'-(9-acridinylamino)methanesulfon-m-anisidide (m-AMSA) was investigated in a clonogenic assay. The cytotoxicity of
VP-16
was almost completely antagonized by preincubating cells with nontoxic concentrations of aclarubicin. The inhibition of cytotoxicity was not seen when the cells were exposed to aclarubicin after exposure to
VP-16
. The inhibition was significant over a wide range of aclarubicin concentrations (3 nM to 0.4 microM), above which the toxicity of aclarubicin became apparent. A similar effect was seen on the toxicity of m-AMSA. In contrast to aclarubicin, preincubation with Adriamycin did not antagonize the effect of
VP-16
. With purified
topoisomerase
II and naked DNA, aclarubicin did not stimulate the formation of cleavable complexes between
topoisomerase
II and DNA. Aclarubicin concentrations above 1 microM inhibited the baseline formation of cleavable complexes elicited with the enzyme alone. Low (1 to 10 nM) aclarubicin concentrations increased the formation of cleavable complexes obtained with
VP-16
and m-AMSA; however, at aclarubicin concentrations above 1 microM an antagonistic effect was obtained. In cells, the m-AMSA- and
VP-16
-induced, protein-concealed DNA strand breaks were completely inhibitable by aclarubicin preincubation with no synergic dose levels. Our results suggest that aclarubicin inhibits
topoisomerase
II-mediated DNA cleavage. This inhibition could represent the mechanism of action of the drug and explain the lack of cross-resistance to the classical anthracyclines. The observed antagonism could have consequences for scheduling of aclarubicin with
topoisomerase
II-active anticancer drugs.
...
PMID:Antagonistic effect of aclarubicin on the cytotoxicity of etoposide and 4'-(9-acridinylamino)methanesulfon-m-anisidide in human small cell lung cancer cell lines and on topoisomerase II-mediated DNA cleavage. 215 80
The intercalating agent, m-AMSA, and the epipodophyllotoxin,
VP-16
, both
topoisomerase
II-reactive anticancer agents, are also embryotoxic agents in rat embryos cultured in vitro. Quantifying the embryotoxic effects of these drugs revealed that the no observed adverse effect level (NOAEL) for m-AMSA is 10 nM, the embryotoxic concentration range is 50-500 nM, and complete lethality is observed at 1 microM. In contrast, the NOAEL for o-AMSA, an inactive isomer of m-AMSA, is 1.0 microM, the embryotoxic concentration range is 10-100 microM, and complete lethality occurs at 200 microM. Based upon the concentrations of drugs required to produce 50% embryotoxicity or 50% malformed embryos, m-AMSA exhibits a 200-500-fold-higher embryotoxicity compared to o-AMSA.
VP-16
exhibits a NOAEL of 1.0 microM, an embryotoxic concentration range of 2-5 microM, and complete lethality at 10 microM. Compared to m-AMSA,
VP-16
is approximately 10-fold less embryotoxic. At appropriate concentrations, all three drugs were dysmorphogenic resulting in embryos that were characterized by hypoplasia of the prosencephalon with associated microopthalmia and dilation of the rhombencephalon. and dilation of the rhombencephalon. As a prelude to future studies focusing on the mechanism of drug-induced embryotoxicity, we have used established biochemical and immunologic methods to identify and quantify
topoisomerase
II in rat embryos. In addition, we have demonstrated that the embryo
topoisomerase
II can be inhibited by both m-AMSA and
VP-16
. Finally, we have used a human cDNA probe to detect
topoisomerase
II mRNA in the rat embryo. Thus, the combination of the in vitro whole embryo culture and these biochemical/molecular assays should allow us to explore the role of a specific nuclear target, i.e.,
topoisomerase
II, in the teratogenic effects of some commonly employed chemotherapeutic agents.
...
PMID:Embryotoxicity of the intercalating agents m-AMSA and o-AMSA and the epipodophyllotoxin VP-16 in postimplantation rat embryos in vitro. 216 85
TNF is a pleiotropic cytokine that mediates diverse cellular responses, including cytotoxicity, cytostasis, proliferation, differentiation, and the expression of specific genes. Many of these processes require the activity of DNA topoisomerases I and II. We have investigated the interactions of TNF with inhibitors of both topoisomerases in 16-h assays using the murine L929 and human ME-180 cell lines, which undergo a cytotoxic TNF response. Camptothecin, a specific inhibitor of topoisomerase I, enhanced TNF cytotoxicity 150-fold against both cell lines. The
topoisomerase
II inhibitors VM-26 and
VP-16
, which stabilize covalent DNA-
topoisomerase
intermediates, greatly enhance TNF cytotoxicity against both cell lines. The most effective, VM-26, can lower the TNF LD50 to femtomolar levels. In contrast, the
topoisomerase
II inhibitors novobiocin and coumermycin, which bind to the enzyme ATPase site, protect L929 cells from TNF cytotoxicity but enhance TNF cytotoxicity in ME-180 cells. The large changes in TNF sensitivity induced by drug concentrations that by themselves show no effect, and the opposing synergistic effects of inhibitors with different inhibitory mechanisms (in L929 cells), suggest the active involvement of topoisomerases in TNF-mediated cytotoxicity. The correlation of cytotoxic synergy with the stabilization of DNA strand breaks indicates that DNA damage may play a significant role in TNF-mediated cytotoxicity.
...
PMID:Synergistic interactions between tumor necrosis factor and inhibitors of DNA topoisomerase I and II. 217 May 26
Four drugs known to interact with
topoisomerase
II were assessed for their ability to enhance the cytotoxicity of cis-diamminedichloroplatinum(II) (CDDP) in Chinese hamster ovary (CHO) cell lines sensitive and resistant to VM-26. The combination treatments were analyzed by isobologram methodology. On 24 h exposure, there was no significant difference in the cytotoxicity of novobiocin or ciprofloxacin toward either cell line. The resistant cells were approximately 9-fold more resistant to 4'-(9-acridinylamino)methanesulfon-m-anisidide (m-AMSA) and approximately 170-fold more resistant to etoposide after a 24-h exposure. The combination of novobiocin and cisplatin produced greater than additive cell kill over the entire dose range of cisplatin tested in both cell lines. m-AMSA and CDDP produced cell kill that fell within the envelope of additivity.
Etoposide
and CDDP resulted in cytotoxicity that was slightly greater than additive at low CDDP concentrations and additive at the highest concentration of CDDP tested in the parental cell line and was slightly greater than additive in the resistant cell line. Ciprofloxacin and CDDP, like novobiocin, resulted in greater than additive cell kill in both cell lines. The enhancement of CDDP cytotoxicity by novobiocin that was seen in exponentially growing cells was lost in stationary-phase cultures. In these studies, novobiocin and, to a lesser degree, ciprofloxacin produced greater than additive cell kill in combination with CDDP in parental and epipodophyllotoxin-resistant CHO cells.
...
PMID:Ability of four potential topoisomerase II inhibitors to enhance the cytotoxicity of cis-diamminedichloroplatinum (II) in Chinese hamster ovary cells and in an epipodophyllotoxin-resistant subline. 217 96
Etoposide
and teniposide are semi-synthetic glucoside derivatives of podophyllotoxin with a documented anti-tumour activity in various types of malignant diseases. It was an early observation that these epiphodophyllotoxins were efficacious in hematological malignancies such as lymphomas and leukemias. In this report the clinical evidence supporting the activity of etoposide and teniposide in acute lymphoblastic (ALL) and non-lymphoblastic leukemia (ANLL) is reviewed. Unlike podophyllotoxin, etoposide and teniposide do not appear to affect microtubular function nor arrest cells in mitosis. These epiphodophyllotoxins, like other DNA intercalating agents, have
topoisomerase
II as their target. Most studies with etoposide have been performed in ANLL and with teniposide in ALL. This choice seems to be rather arbitrary and is better explained by traditional reasons than actual study results. The data in acute leukemias are partly flawed by the absence of certain prospective comparative trials. However, the current information on etoposide clearly shows that this agent has substantial activity in ANLL and may well be incorporated into front-line regimens and the same is true for teniposide in the treatment of ALL. Nevertheless, based on available literature, there are no convincing data to the author's mind to support that one of these agents is superior to the other in the treatment of acute leukemias.
...
PMID:Etoposide and teniposide in the treatment of acute leukemia. 218 20
Interaction between tumor necrosis factor (TNF) and the DNA topoisomerase II inhibitor, etoposide
VP-16
, in cell killing has been studied. To accurately investigate the nature of DNA damage during the cell killing process, experiments were assessed using the highly TNF-sensitive WEHI164.13 murine fibrosarcoma clone and DNA filter elution methodology. Concomitant treatment of cells with combination of TNF/
VP-16
resulted in marked enhancement of cell lysis. Using the alkaline elution technique, we show that TNF fails to induce DNA single-strand breaks as compared to those generated by
VP-16
. In addition, the potentiating effect of
VP-16
on TNF-mediated WEHI164.13 cell killing was not associated with an increase in its intrinsic activity with respect to DNA single-strand break formation. While the 2 phospholipase A2 inhibitors, quinacrine and dexamethasone, were efficient in inhibiting TNF-mediated cell lysis, only quinacrine was efficient in selectively abrogating the TNF/
VP-16
cell killing pathway. The inhibitory effect of quinacrine on
VP-16
/TNF-mediated cell lysis was accompanied by a marked decrease in
VP-16
-mediated DNA single-strand break generation. Taken together, our findings suggest that TNF and TNF/
VP-16
treatments may involve different events during cell killing and support the hypothesis that 2 signals are required for optimal induction of cell lysis by the combination of
VP-16
/TNF: one signal provided by
VP-16
resulting in
topoisomerase
II inhibition and subsequent DNA single-strand break generation, and a second signal involving TNF.
...
PMID:Potentiation of TNF-mediated cell killing by VP-16: relationship to DNA single-strand break formation. 224 91
The comet assay, which measures DNA strand breakage in individual cells, was used to examine the relation between DNA damage, cell survival, and resistance to the
topoisomerase
II inhibitor etoposide (
VP-16
). Chinese hamster V79-171b cells and a
VP-16
-resistant subline (VPr) were exposed to
VP-16
as monolayers or spheroids. The comet assay was comparable in sensitivity to the DNA precipitation and alkali unwinding assays for detecting DNA strand breaks induced by
VP-16
. However, unlike conventional DNA damage assays, the comet assay also indicated heterogeneity in cell response. For V79 multicell spheroids exposed to
VP-16
, the external cycling cells were 50 times more sensitive to killing and DNA damage than the internal noncycling cells; the comet assay indicated the fraction of cells resistant to the drug. VPr cells, which were 10 times more resistant to killing and DNA damage by
VP-16
than the parent cell line, could also be identified in mixed populations with the use of this method. These results suggest that the comet assay could be useful in predicting tumor cell response to DNA-damaging agents.
...
PMID:Detection of etoposide resistance by measuring DNA damage in individual Chinese hamster cells. 232 48
Mutant Chinese hamster V79 cells selected for alterations in poly(ADP-ribose) metabolism were shown to be resistant to epipodophyllotoxin (
VP-16
)-induced cytotoxicity. Cell lines ADPRT 54 and ADPRT 351 have reduced activity of poly(ADP-ribose) polymerase. N2, N3, and N4 cell lines grow in the absence of nicotinamide, with total NAD levels 1.5-3% of those found in parental V79 cells grown in complete medium. When grown in complete medium, the mutant cell lines are 2.3- to 9.6-fold resistant to
VP-16
-induced cytotoxicity. All of the cell lines respond to
VP-16
treatment by formation of protein-cross-linked DNA strand breaks. Upon drug removal, all the cell lines reverse the DNA strand breaks at similar rates. Our studies show a clear dissociation between induction of DNA strand breaks and cytotoxicity. However, there is a good correlation between drug-induced sister chromatid exchanges and cytotoxicity. Thus, N3 cells, with low levels of
VP-16
-induced sister chromatid exchanges, show reduced levels of cytotoxicity relative to parental V79 cells, despite the fact that both cell lines show similar levels of
VP-16
-induced protein-cross-linked DNA strand breaks. Additional studies show that the time course of
VP-16
-induced cytotoxicity correlated better with the time course of sister chromatid exchange formation than with protein-cross-linked DNA strand break formation. These studies provide strong support for the proposal that
VP-16
-induced cytotoxicity involves the induction of sister chromatid exchanges. Thus, we suggest that drug-induced stabilization of
topoisomerase
II-DNA complexes stimulates induction of sister chromatid exchanges, which consequently lead to cell death.
...
PMID:Mechanism of epipodophyllotoxin-induced cell death in poly(adenosine diphosphate-ribose) synthesis-deficient V79 Chinese hamster cell lines. 232 96
Previously, we reported on the resistance to cis-diamminedichloroplatinum(II) (cis-DDP) of tumor cells in IgM immunocytoma tumors. In vitro cell lines were established, from tumors both sensitive and resistant to cis-DDP. The cultured cells obtained from the parent tumor were designated IgM-I, and those from a cis-DDP resistant tumor IgM/cDDP. In vitro dose response studies showed a difference in cis-DDP sensitivity with a resistance factor of approximately 20 at a relative survival of the tumor cells of 50 percent. The resistance factor was determined both in an assay with continuous cis-DDP exposure for 72 h, and in a clonogenic assay after an exposure for 1 h to various dosages of cis-DDP. The IgM/cDDP cells showed cross-resistance, in vitro and in vivo, to the currently used cis-DDP analogs carboplatin (CBDCA or JM8) and iproplatin (CHIP or JM9). Cross-resistance was also observed against the recently developed platinum(IV) compound tetraplatin. In addition, the cell line IgM/cDDP was resistant to other drugs interacting with DNA, such as doxorubicin (DXR), mitomycin C (MMC) and melphalan (L-PAM). For two non DNA-interacting drugs, vincristine (VCR), a mitosis inhibitor, and
VP-16
, a
topoisomerase
inhibitor, both cell lines were equally sensitive.
...
PMID:Resistance of in vitro grown IgM immunocytoma cells to cis-diamminedichloroplatinum (II) (cis-DDP) and cross-resistance to other DNA interacting drugs. 234 18
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